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Die Zahl invasiver Pilzinfektionen ausgelöst durch C. glabrata steigt zunehmend und auch die Ausbildung multipler Resistenzen wird immer häufiger registriert. In dieser Arbeit wurden zwei klinische MDR-C. glabrata-Stämme systematisch analysiert, um den Ursprung der Mehrfachresistenz zu finden. Aufgefallen waren jene Isolate in vorhergehenden Untersuchungen von Aldejohann et. al., die 176 Stämme, die dem Referenzzentrum NRZ-Myk zugesandt wurden, auf ihr Resistenzverhalten gegen Echinocandine analysierten und auf FKS-Mutationen untersuchten. Die Isolate CG22 und CG56 zeigten ein Resistenzverhalten gegen Anidulafungin ohne eine FKS-Mutation aufzuweisen. In Mehrfachtestungen wurde das einheitliche Verhalten von CG56 in zehn Einzelkolonien verifiziert, um Mischkulturen oder heterogenes Verhalten innerhalb des Isolates ausschließen zu können. Nach Analyse der gesamten Genomsequenz von CG56 zeigte sich eine Mutation kurz vor der HS-Region von FKS2, die eine Erklärung für das Resistenzverhalten zu liefern scheint. Neben der Mutation in FKS2 wurde ebenfalls eine Mutation in FKS1 und in ERG3 bestätigt. Die Mutation in ERG3 führt zu einer Verschiebung im Sterolsynthesepathway und zu einer Neuverteilung der Zellmembranbestandteile. Das klinische Isolat CG22 fällt mit Resistenzen gegen Azole, Echinocandine und Amphotericin B auf und zeigte ebenfalls eine Mutationen in ERG3. Zusätzlich dazu ergab sich eine Loss-of- Function-Mutation in ERG4 und damit verbunden einen massiv reduzierten Ergosterolgehalt der Zellmembran. Die seltene Kombination aus ERG3 und ERG4 Mutation scheint die Erklärung für die außergewöhnliche Amphotericin B-Resistenz von CG22 zu liefern und wird hier als erstmals bei einem C. glabrata Isolat beschrieben. Dieser besondere Stamm, der sogar als panresistent bezeichnet werden kann, sollte Bestandteil weiterer Forschung werden. Der Sterolsynthesepathway dient als Angriffspunkt vieler Antimykotika und kann durch seine vielen Intermediate und abweichenden Abläufen zu unterschiedlichen Stoffwechselendprodukten führen. Der Ergosterolgehalt der Zellmembran eines C. glabrata-Stammes kann weitere Rückschlüsse auf die Empfindlichkeit des Isolates geben und somit die Chancen des Therapieerfolges der Antimykotikagabe besser vorhersagen und könnte somit einen vielversprechenden Beitrag zur Behandlung lebensbedrohlicher Candidosen leisten.
Fusarium (F.)-Infektionen des Auges zeigen oft einen schwerwiegenden Verlauf und sind am häufigsten mit Spezies des Fusarium solani species complex assoziiert. Dabei sind das Tragen von weichen Kontaktlinsen sowie Traumata die wichtigsten prädisponierenden Faktoren. Vorangegangene Untersuchungen des Nationalen Referenzzentrums für invasive Pilzinfektionen hatten ergeben, dass Infektionen durch F. petroliphilum mit der Nutzung von Kontaktlinsen, Infektionen durch F. falciforme jedoch überwiegend traumaassoziiert uns vor allem aus tropischen und subtropischen Ländern bekannt sind.
Das Ziel dieser Arbeit war es daher zu untersuchen, ob F. falcifomre und F. petroliphilum physiologische Merkmale aufweisen, die für die Unterschiede in den Risikofaktoren für Keratitiden durch die beiden Arten verantwortlich sein könnten.
Background
Haemophilus influenzae (Hi) is a Gram-negative bacterium that may cause sepsis or meningitis, treatment of which mainly includes β-lactam antibiotics. Since 2019 EUCAST breakpoints for piperacillin/tazobactam have been available. Little is known about the prevalence and mechanisms of piperacillin/tazobactam resistance in Hi.
Objectives
To provide reliable prevalence data for piperacillin/tazobactam resistance in Hi in Germany, to evaluate different antibiotic susceptibility testing methods and to examine possible resistance mechanisms.
Methods
According to EUCAST breakpoints, the MIC for piperacillin/tazobactam resistance is >0.25 mg/L. All invasive Hi in Germany from 2019 were examined by gradient agar diffusion (GAD) for piperacillin/tazobactam susceptibility. Piperacillin/tazobactam broth microdilution (BMD), piperacillin GAD on tazobactam-containing agar [piperacillin GAD on Mueller–Hinton agar with horse blood (MH-F)/tazobactam) and piperacillin/tazobactam agar dilution (AD) were used for confirmation. Phenotypic testing was complemented by ftsI sequencing.
Results
Piperacillin/tazobactam GAD resulted in 2.9% (21/726) resistant Hi. BMD did not confirm piperacillin/tazobactam resistance. Two strains were found resistant by AD, of which one was also resistant using piperacillin GAD on MH-F/tazobactam. Overall, we found two strains with a piperacillin/tazobactam MIC >0.25 mg/L in at least two different tests (0.3%). Both were β-lactamase-producing amoxicillin/clavulanate-resistant with PBP3 mutations characterized as group III-like+. Relevant PBP3 mutations occurred in six strains without phenotypic piperacillin/tazobactam resistance. These mutations suggest a reduced efficacy of β-lactam antibiotics in these isolates.
Conclusions
Piperacillin/tazobactam resistance prevalence in invasive Hi is low in Germany. Reduced susceptibility was correlated with PBP3 mutations, in particular with group III mutations.
Neisseria meningitidis (the meningococcus) is one of the major causes of bacterial meningitis, a life-threatening inflammation of the meninges. Traversal of the meningeal blood-cerebrospinal fluid barrier (mBCSFB), which is composed of highly specialized brain endothelial cells (BECs), and subsequent interaction with leptomeningeal cells (LMCs) are critical for disease progression. Due to the human-exclusive tropism of N. meningitidis, research on this complex host-pathogen interaction is mostly limited to in vitro studies. Previous studies have primarily used peripheral or immortalized BECs alone, which do not retain relevant barrier phenotypes in culture. To study meningococcal interaction with the mBCSFB in a physiologically more accurate context, BEC-LMC co-culture models were developed in this project using BEC-like cells derived from induced pluripotent stem cells (iBECs) or hCMEC/D3 cells in combination with LMCs derived from tumor biopsies.
Distinct BEC and LMC layers as well as characteristic expression of cellular markers were observed using transmission electron microscopy (TEM) and immunofluorescence staining. Clear junctional expression of brain endothelial tight and adherens junction proteins was detected in the iBEC layer. LMC co-culture increased iBEC barrier tightness and stability over a period of seven days, as determined by sodium fluorescein (NaF) permeability and transendothelial electrical resistance (TEER). Infection experiments demonstrated comparable meningococcal adhesion and invasion of the BEC layer in all models tested, consistent with previously published data. While only few bacteria crossed the iBEC-LMC barrier initially, transmigration rates increased substantially over 24 hours, despite constant high TEER. After 24 hours of infection, deterioration of the barrier properties was observed including loss of TEER and altered expression of tight and adherens junction components. Reduced mRNA levels of ZO-1, claudin-5, and VE-cadherin were detected in BECs from all models. qPCR and siRNA knockdown data suggested that transcriptional downregulation of these genes was potentially but not solely mediated by Snail1. Immunofluorescence staining showed reduced junctional coverage of occludin, indicating N. meningitidis-induced post-transcriptional modulation of this protein, as previous studies have suggested. Together, these results suggest a potential combination of transcellular and paracellular meningococcal traversal of the mBCSFB, with the more accessible paracellular route becoming available upon barrier disruption after prolonged N. meningitidis infection. Finally, N. meningitidis induced cellular expression of pro-inflammatory cytokines and chemokines such as IL-8 in all mBCSFB models. Overall, the work described in this thesis highlights the usefulness of advanced in vitro models of the mBCSFB that mimic native physiology and exhibit relevant barrier properties to study infection with meningeal pathogens such as N. meningitidis.
Die Alveoläre Echinokokkose (AE) ist eine tödliche Infektionserkrankung, die durch den parasitären Plattwurm Echinococcus multilocularis verursacht wird. Genomanalysen von E. multilocularis ergaben ein Gen, das laut Vorhersage für eine DyP-Typ Peroxidase codiere. Ziel dieser Arbeit ist die biologische Funktion des codierten Enzyms besser zu verstehen und Hinweise auf eine mögliche Rolle in der Abwehr von Reaktiven Sauerstoffspezies (ROS) zu erlangen.
Das Gen wurde heterolog in E. Coli exprimiert und molekulare Charakteristika des Gens mit bioinformatischen und molekularbiologischen Methoden untersucht. Quantitative RT-PCR Untersuchungen gaben Aufschluss über das Transkriptprofil von emipox in unterschiedlichen Entwicklungsstadien von E. mulitlocularis. Mittels Whole-Mount In Situ-Hybridisierung (WMISH) wurden die Transkripte zudem lokalisiert und ihre Beziehung zum Stammzellsystem von E. multilocularis näher untersucht.
Die Zugehörigkeit von EmIPOX zur Gruppe der DyP-Typ Peroxidasen wurde bestätigt. Homologe beim Menschen kommen nicht vor. Es konnte nachgewiesen werden, dass Transkripte von emipox auch, aber keinesfalls ausschließlich, in Stammzellen vorliegen. Überdurchschnittlich viele Transkripte liegen im aktivierten Protoscolex und im Metacestoden ex vivo aus einer infizierten Wirtsleber vor. Untersuchungen zur Enzymaktivität von EmIPOX zeigten neben einer Peroxidase- auch eine Katalaseaktivität.
Die vorliegende Arbeit ist die erste Charakterisierung einer DyP-Typ Peroxidase bei Tieren. Sie legt nahe, dass EmIPOX eine Rolle in der Entgiftung von ROS in E. multilocularis spielt und stellt den Charakter von EmIPOX als potenzieller pharmakologischer Zielstruktur heraus.
Die alveoläre Echinokokkose (AE) ist eine lebensbedrohliche Erkrankung des Menschen, welche durch das infiltrative Wachstum des Metazestoden-Larvenstadiums des Fuchsbandwurms (Echinococcus multilocularis) in der Leber verursacht wird. Das tumorartige Wachstum des Metazestoden beruht auf einer Echinococcus-spezifischen Modifikation der anterior-posterioren-Körperachse (AP Achse). Es wird vermutet, dass dabei der anteriore Pol der invadierenden Oncospären-Larve zunächst abgeschaltet wird und sich der Metazestode anschließend asexuell als vesikuläres, posteriorisiertes Gewebes im Wirt vermehrt. Nach massiver Proliferation wird der anteriore Pol reetabliert und führt zur Bildung zahlreicher Bandwurm-Kopfanlagen (Protoskolizes). Da die Ausbildung der AP Körperachse evolutionsgeschichtlich konserviert über den wingless-related (Wnt)-Signalweg gesteuert wird, wurde in dieser Arbeit die Rolle von Wnt-Signaling bei der Musterbildung von E. multilocularis über molekular- und zellbiologische Studien näher beleuchtet.
Zentraler methodischer Ansatz der vorliegenden Arbeit war ein E. multilocularis Stammzell-Kultursystem, das Primärzellsystem, welches die in vitro-Generierung von Metazestoden-Vesikeln durch Proliferation und Differenzierung von germinativen Zellen (Stammzellen) erlaubt. Über RNA-Sequenzierung wurde zunächst gezeigt, dass in Primärzellkulturen sowohl Markergene für posteriore Entwicklung in Richtung Metazestode wie auch für Anterior-und Protoskolexmarker exprimiert werden. Unter Verwendung von RNA-Interferenz (RNAi) wurde anschließend ein erfolgreicher Knockdown des vermuteten Hauptregulators des kanonischen Wnt-Signalwegs, β Catenin (em-bcat1), erreicht und führte zu einem charakteristischen, sogenannten ‚red dot‘ Phänotyp, dem ersten jemals beschriebenen RNAi Phänotyp für E. multilocularis-Primärzellen. Primärzellkulturen nach em-bcat1 RNAi zeigten eine stark verminderte Fähigkeit, Metazestoden-Vesikel zu bilden sowie eine Überproliferation von germinativen Zellen. Zusätzliche RNA-Seq-Analysen des Transkriptoms von RNAi(em-bcat1)-Kulturen zeigten eine signifikant verringerte Expression von Posterior- und Metazestodenmarkern, während Anterior- und Protoskolexmarker deutlich überexprimiert wurden. Durch umfangreiche Whole-mount-in-situ-Hybridisierung (WMISH)-Experimente wurden diese Daten für eine Reihe ausgewählter Markergene für posteriore (Metazestode; em-wnt1, em-wnt11b, em-muc1) und für anteriore Entwicklung (Protoskolex; em sfrp, em-nou-darake, em npp36, em-frizzled10) verifiziert. In allen genannten Fällen zeigte sich durch Änderung der Polarität eine verminderte Genexpression von Posteriormarkern, während Anteriormarker deutlich erhöht exprimiert wurden. Ähnlich wie bei den verwandten, freilebenden Planarien, führt demnach ein Knockdown des zentralen Wnt-Regulators β-Catenin bei E. multilocularis zu einer anteriorisierten, Anterior- und Protoskolexmarker dominierte Genexpression, welche der posteriorisierten Entwicklung zum Metazestoden entgegenwirkt.
Neben Markergenen für die Ausbildung der AP-Achse wurden in dieser Arbeit auch solche für die medio-laterale (ML)-Körperachse bei Zestoden erstmals beschrieben. So zeigte sich, dass ein Slit-Ortholog (em slit) im E. multilocularis Protoskolex im Bereich der Körper-Mittellinie exprimiert wird und lieferte Hinweise darauf, dass, ähnlich zur Situation bei Planarien, die ML Achse von E. multilocularis durch Morphogengradienten aus slit (Mittellinie) und wnt5 (lateral) definiert wird. Im Metazestoden wird hingegen nur em-slit exprimiert. Der Metazestode besitzt damit als posterior-medianisiertes Gewebe Anlagen zur Polarität zur AP- und ML-Achse, welche erst mit Bildung von Protoskolizes vollständig etabliert werden. Schließlich deuten die Ergebnisse dieser Arbeit darauf hin, dass bei der Wiederherstellung der Körperachsen während der Entwicklung von Protoskolizes Hedgehog (Hh)-Signale entscheidend mitwirken.
Zusammenfassend wurde in dieser Arbeit der zentrale Faktor des kanonischen Wnt Signalwegs, β-Catenin, als Hauptregulator der Entwicklung des tumorartig wachsenden E. multilocularis-Metazestoden identifiziert. Zudem wurde gezeigt, dass zur Metazestodenbildung neben einer Echinococcus-spezifischen Modifikation der AP Körperachse auch eine solche der ML Achse beiträgt. In humanen malignen Tumoren sind der Wnt-, Slit-Robo- und Hh-Signalweg gut erforschte Wirkstofftargets und könnten in Zukunft in ähnlicher Weise für eine zielgerichtete Therapie von AE dienen.
Non-aureus staphylococci (NAS) are ubiquitous bacteria in livestock-associated environments where they may act as reservoirs of antimicrobial resistance (AMR) genes for pathogens such as Staphylococcus aureus. Here, we tested whether housing conditions in pig farms could influence the overall AMR-NAS burden. Two hundred and forty porcine commensal and environmental NAS isolates from three different farm types (conventional, alternative, and organic) were tested for phenotypic antimicrobial susceptibility and subjected to whole genome sequencing. Genomic data were analysed regarding species identity and AMR gene carriage. Seventeen different NAS species were identified across all farm types. In contrast to conventional farms, no AMR genes were detectable towards methicillin, aminoglycosides, and phenicols in organic farms. Additionally, AMR genes to macrolides and tetracycline were rare among NAS in organic farms, while such genes were common in conventional husbandries. No differences in AMR detection existed between farm types regarding fosfomycin, lincosamides, fusidic acid, and heavy metal resistance gene presence. The combined data show that husbandry conditions influence the occurrence of resistant and multidrug-resistant bacteria in livestock, suggesting that changing husbandry practices may be an appropriate means of limiting the spread of AMR bacteria on farms.
Bei dem 2009 erstbeschriebenen Hefepilz C. auris handelt es sich um einen Keim, welcher aufgrund von nosokomialen Ausbrüchen und hohen Antimykotikaresistenzen Aufmerksamkeit erregte. Ziel dieser Arbeit war es in Deutschland gesammelte Isolate bezüglich vorhandener Resistenzen und Mutationen in Resistenzregionen zu testen und das epidemiologische Geschehen hierzulande mit dem globalen Auftreten des Keims zu vergleichen. Bezüglich der durchgeführten Resistenztestungen wiesen die CLSI-konformen Testarten (YO-Platten und E-Test-Verfahren) meist vergleichbare Ergebnisse auf. Für das EUCAST-konforme Mikrodilutionstestverfahren kann aufgrund eines stark ausgeprägten paradoxen Wachstumseffekts nur Anidulafungin, nicht jedoch Caspofungin, zur Testung empfohlen werden. Insgesamt erwiesen sich 25 % der Isolate als Caspofungin-resistent. Zwei Isolate zeigten eine Resistenz gegenüber allen getesteten Echinocandinen (16,7 %). Die höchsten Resistenzraten wurden gegenüber Fluconazol (92 %) beobachtet. Zwei der Isolate zeigten sich gegenüber Voriconazol resistent (16,7 %). Für Amphotericin B konnte eine Resistenzrate von 33,3 % festgestellt werden. Für die Wirkstoffe Posaconazol und Itraconazol erwiesen sich alle untersuchten Isolate als sensitiv. Dies konnte auch mit Ausnahme eines Isolates für 5-Flucytosin beobachtet werden. Die durch eine Sanger-Sequenzierung erhaltenen Sequenzen der Gene FKS1 und ERG11 wurden auf Mutationen untersucht, welche zu Aminosäuresubstitutionen im Gesamtprotein führten. Hierbei ergaben sich für zwei Isolate (16,7 %) Mutationen im FKS1-Hot Spot 1 (Typ S639F und S639Y). Beide Isolate zeigten sich in den AFST Echinocandin-resistent. Bei allen untersuchten Isolaten lagen Mutationen im ERG11 Gen vor. So fand sich in 8 Fällen eine Mutation des Typen Y132F (66,7 %), in 3 Fällen der Typ K143R (25 %) und in einem Fall der Typ F126L (8,3 %). Im Rahmen eines anderen Projekts wurde mit den hier gewonnenen PCR-Produkten ein WGS durchgeführt, um die Isolate durch SNPs-Vergleich mit Referenzstämmen phylogenetischen Clades zuzuordnen. Dabei konnten 91,7 % der Isolate dem südasiatischen Clade I und ein Isolat dem südafrikanischen Clade III zugeordnet werden. Aufgrund der geringen epidemiologischen Fallzahlen in Deutschland scheint gegenwärtig keine Bedrohung von C. auris auszugehen. Berichte aus anderen Ländern konnten allerdings eine rasche, ausbruchartige Zunahme von C. auris Fällen nachweisen. So kann nur angeraten werden das infektiologische Geschehen in Deutschland weiterhin zu beobachten.
Die Inzidenz invasiver H. influenzae-Infektionen in Deutschland steigt seit Jahren an. Die akkurate Identifizierung und Resistenztestung dieses Erregers sind von großer klinischer und epidemiologischer Bedeutung. Daher wurden im Rahmen der vorliegenden Promotionsarbeit umfangreiche Untersuchungen zur Diagnostik und zur Epidemiologie von Antibiotikaresistenzen bei H. influenzae durchgeführt.
Es konnte gezeigt werden, dass die in der Routinediagnostik mittlerweile weit verbreitete MALDI-TOF-MS-Diagnostik durch das VITEK MS IVD nur eingeschränkt zur sicheren Unterscheidung von H. influenzae und H. haemolyticus einsetzbar ist. H. influenzae-Isolate erkannte das System mit einer Genauigkeit von 100 %. Bei H. haemolyticus-Isolaten wurden dagegen 42 % der untersuchten Stämme fälschlicherweise als H. influenzae erkannt. Dieser Fragestellung wurde mit der bisher umfangreichsten molekularbiologisch charakterisierten Studienpopulation beider Bakterienspezies nachgegangen.
Die kalkulierte antibiotische Therapie einer Sepsis oder Meningitis erfolgt häufig mit Carbapenemen, die leitliniengerechte Therapie invasiver H. influenzae-Infektionen mit Drittgenerations-Cephalosporinen. Imipenem und Cefotaxim gehören zu den Hauptvertretern dieser Gruppen. Bezüglich der Antibiotikaresistenztestung wurde erstmalig für H. influenzae herausgefunden, dass die routinemäßig verwendete Gradientenagardiffusion (GAD) bei der Testung von Cefotaxim im Vergleich zum Goldstandard Bouillon-Mikrodilution gleichwertig und bei Imipenem sogar sensitiver in der Detektion von Heteroresistenzen ist.
Die Epidemiologie dieser Resistenzen wurde in dieser Arbeit erstmalig für Deutschland systematisch erfasst, indem alle verfügbaren invasiven Isolate gemeldeter H. influenzae-Infektionen der Jahre 2016 (Imipenem) beziehungsweise 2016-2019 (Cefotaxim) untersucht wurden. Es wurde eine hohe Prävalenz einer Imipenem-Resistenz von 13,5 % festgestellt. Die Prävalenz einer Cefotaxim-Resistenz lag bei 0,9 %.
Zur molekularen Typisierung wurde bei den Imipenem-resistenten Isolaten eine Multilocus-Sequenztypisierung, bei den Cefotaxim-resistenten Stämmen eine Sequenzierung des vollständigen Genoms durchgeführt. Hierbei wurde eine hohe genetische Diversität der Stämme festgestellt, was die Schlussfolgerung zulässt, dass resistente Mutanten sporadisch entstehen. Die Untersuchung möglicher spatio-temporaler Cluster führte zum Nachweis einer sehr selten vorkommenden Übertragung eines Imipenem-resistenten Stamms. Durch die Sequenzierung von Resistenzgenen wurde die Epidemiologie und Relevanz bekannter Aminosäuresubstitutionen beleuchtet. Unter anderem wurde für die PBP3-Substitutionen L389F und Y557H eine hochsignifikante Korrelation mit dem Auftreten von Cefotaxim-Resistenzen nachgewiesen. Die gewonnenen Genomdaten bieten die Grundlage für die Forschung an weiteren Antibiotikaresistenzdeterminanten von H. influenzae.
Echinococcosis is an important zoonosis. The causative agent of Alveolar Echinococcosis (AE) is Echinococcus multilocularis. The treatment of human AE is limited to surgery and chemotherapy with albendazole (ABZ). However, ABZ works only parasitostatically and it needs to be taken for long periods, although it causes adverse side effects. Thus, development of new, parasiticidal drug with selective toxicity is required. Because undifferentiated stem cells of E. multilocularis play key role in its longevity and regenerative capacity, targeting stem cells is especially important.
In vitro screening of protein kinases inhibitors demonstrated that human PIM kinases inhibitors have detrimental effects on E. multilocularis. Through yeast two hybrid assay, the interaction of parasite PIM kinase (EmPIM) and its CDC25 (EmCDC25) was indicated. Through in situ hybridization, expression of EmPIM in the stem cells was observed. Therefore, EmPim is likely to be a positive regulator of cell cycle progression, the same as human Pim1. In addition, 20 compounds against EmPIM were selected through in silico screening and synthesized. One of them has a detrimental effect on E.multilocularis comparable to human pan-PIM inhibitors, but has much weaker toxicity on human cell lines.
Furthermore, triclabendazole (TCBZ) and its metabolite TCBZSX, which are approved for another flatworm disease, Fascioliasis were tried on E. multilocularis. With two stem cell markers, damage to stem cells by TCBZSX was shown. In addition, primary cells from treated vesicles never regenerated and the damage to stem cells proved to be irreversible.
Our in silico screening method used in EmPIM research has potential to identify compounds which overcome the side effect problem in ABZ-based chemotherapy. On the other hand, it is expected that my research of TCBZ can lead to development of a practical parasiticidal chemotherapy by combining TCBZ, which damages stem cells, and ABZ, which damages differentiated cells.
Alveolar (AE) and cystic (CE) echinococcosis are two parasitic diseases caused by the tapeworms Echinococcus multilocularis and E. granulosus sensu lato (s. l.), respectively. Currently, AE and CE are mainly diagnosed by means of imaging techniques, serology, and clinical and epidemiological data. However, no viability markers that indicate parasite state during infection are available. Extracellular small RNAs (sRNAs) are short non-coding RNAs that can be secreted by cells through association with extracellular vesicles, proteins, or lipoproteins. Circulating sRNAs can show altered expression in pathological states; hence, they are intensively studied as biomarkers for several diseases. Here, we profiled the sRNA transcriptomes of AE and CE patients to identify novel biomarkers to aid in medical decisions when current diagnostic procedures are inconclusive. For this, endogenous and parasitic sRNAs were analyzed by sRNA sequencing in serum from disease negative, positive, and treated patients and patients harboring a non-parasitic lesion. Consequently, 20 differentially expressed sRNAs associated with AE, CE, and/or non-parasitic lesion were identified. Our results represent an in-depth characterization of the effect E. multilocularis and E. granulosus s. l. exert on the extracellular sRNA landscape in human infections and provide a set of novel candidate biomarkers for both AE and CE detection.
Psychosocial factors affect mental health and health-related quality of life (HRQL) in a complex manner, yet gender differences in these interactions remain poorly understood. We investigated whether psychosocial factors such as social support and personal and work-related concerns impact mental health and HRQL differentially in women and men during the first year of the COVID-19 pandemic. Between June and October 2020, the first part of a COVID-19-specific program was conducted within the “Characteristics and Course of Heart Failure Stages A-B and Determinants of Progression (STAAB)” cohort study, a representative age- and gender-stratified sample of the general population of Würzburg, Germany. Using psychometric networks, we first established the complex relations between personal social support, personal and work-related concerns, and their interactions with anxiety, depression, and HRQL. Second, we tested for gender differences by comparing expected influence, edge weight differences, and stability of the networks. The network comparison revealed a significant difference in the overall network structure. The male (N = 1370) but not the female network (N = 1520) showed a positive link between work-related concern and anxiety. In both networks, anxiety was the most central variable. These findings provide further evidence that the complex interplay of psychosocial factors with mental health and HRQL decisively depends on gender. Our results are relevant for the development of gender-specific interventions to increase resilience in times of pandemic crisis.
Pathogen-specific innate immune response patterns are distinctly affected by genetic diversity
(2023)
Innate immune responses vary by pathogen and host genetics. We analyze quantitative trait loci (eQTLs) and transcriptomes of monocytes from 215 individuals stimulated by fungal, Gram-negative or Gram-positive bacterial pathogens. We identify conserved monocyte responses to bacterial pathogens and a distinct antifungal response. These include 745 response eQTLs (reQTLs) and corresponding genes with pathogen-specific effects, which we find first in samples of male donors and subsequently confirm for selected reQTLs in females. reQTLs affect predominantly upregulated genes that regulate immune response via e.g., NOD-like, C-type lectin, Toll-like and complement receptor-signaling pathways. Hence, reQTLs provide a functional explanation for individual differences in innate response patterns. Our identified reQTLs are also associated with cancer, autoimmunity, inflammatory and infectious diseases as shown by external genome-wide association studies. Thus, reQTLs help to explain interindividual variation in immune response to infection and provide candidate genes for variants associated with a range of diseases.
Ultra-high field cardiac MRI in large animals and humans for translational cardiovascular research
(2023)
A key step in translational cardiovascular research is the use of large animal models to better understand normal and abnormal physiology, to test drugs or interventions, or to perform studies which would be considered unethical in human subjects. Ultrahigh field magnetic resonance imaging (UHF-MRI) at 7 T field strength is becoming increasingly available for imaging of the heart and, when compared to clinically established field strengths, promises better image quality and image information content, more precise functional analysis, potentially new image contrasts, and as all in-vivo imaging techniques, a reduction of the number of animals per study because of the possibility to scan every animal repeatedly. We present here a solution to the dual use problem of whole-body UHF-MRI systems, which are typically installed in clinical environments, to both UHF-MRI in large animals and humans. Moreover, we provide evidence that in such a research infrastructure UHF-MRI, and ideally combined with a standard small-bore UHF-MRI system, can contribute to a variety of spatial scales in translational cardiovascular research: from cardiac organoids, Zebra fish and rodent hearts to large animal models such as pigs and humans. We present pilot data from serial CINE, late gadolinium enhancement, and susceptibility weighted UHF-MRI in a myocardial infarction model over eight weeks. In 14 pigs which were delivered from a breeding facility in a national SARS-CoV-2 hotspot, we found no infection in the incoming pigs. Human scanning using CINE and phase contrast flow measurements provided good image quality of the left and right ventricle. Agreement of functional analysis between CINE and phase contrast MRI was excellent. MRI in arrested hearts or excised vascular tissue for MRI-based histologic imaging, structural imaging of myofiber and vascular smooth muscle cell architecture using high-resolution diffusion tensor imaging, and UHF-MRI for monitoring free radicals as a surrogate for MRI of reactive oxygen species in studies of oxidative stress are demonstrated. We conclude that UHF-MRI has the potential to become an important precision imaging modality in translational cardiovascular research.
The human specific gram-negative bacterium Neisseria meningitidis (Nme, meningococci) is a common colonizer of the upper respiratory tract. Upon becoming invasive, Nme can cause meningitis and life-threatening sepsis. The most important immune defense mechanism in invasive meningococcal disease (IMD) is the complement mediated killing of bacteria. The complement cascade is activated through different pathogen associated patterns and finally leads to the lysis of the bacteria by the membrane attack complex. In addition to the direct bacterial killing, the complement system is also an important player in different inflammatory processes. A hallmark of IMD is an overreaction of the immune system and the release of the potent anaphylatoxins C3a and C5a by the complement system is an important factor hereby. There are three anaphylatoxin receptors (ATRs), the C3aR, the C5aR1 and the C5aR2, capable of detecting these anaphylatoxins. It has already been shown that blocking the ATR C5aR1 strongly benefitted the outcome of IMD in a murine sepsis model. However, the roles of ATRs C3aR and C5aR2 in IMD are still unclear. This work aims to analyze the role of these ATRs in meningococcal sepsis and to identify possible underlying mechanisms. Furthermore, a possible involvement of the complement system, the ATRs and the type II CRISPR/Cas system on nasopharyngeal colonization is analyzed.
In vivo depletion experiments showed that without neutrophils or monocytes/macrophages the complement system alone was not able to clear a low dose Nme infection, which highlights the importance of cellular components in IMD. Analyzing the role of the ATRs in knock-out mice with high dose Nme infections, revealed that the lack of C5aR2, like the lack of C5aR1, was beneficial for the outcome of meningococcal induced sepsis. In contrast, the lack of C3aR in knock-out mice was detrimental. The positive outcome associated with the C5aRs could be reproduced by using an antagonist against both C5aRs or an antagonist specifically against C5aR1 in WT mice. These findings are giving hope to future therapeutic applications. Next, a possible contribution of neutrophils to this positive outcome was analyzed. Absence of C5aR1 led to a decrease of degranulation by neutrophils in a murine whole blood model, while the other ATRs showed no effect. Neutrophil analysis in human whole blood, on the other hand, revealed a reduced oxidative burst and IL-8 secretion upon inhibition of all three ATRs. A functional difference between the C5aRs and the C3aR in neutrophils was observed in phagocytosis, which was reduced upon C3aR inhibition, but was unaltered with C5aR1 or C5aR2 inhibition. Possible underlying mechanisms in the phosphorylation of ERK1/2 were analyzed in bone marrow derived macrophages isolated from ATR knock-out mice. The later phosphorylation of ERK1/2 in macrophages without C5aR1 or C5aR2 expression might explain, why blocking the C5aRs is beneficial for the outcome of IMD in mice. In contrast to these findings, the colonization of the nasopharynx in huCEACAM 1 expressing mice by Nme did not seem to depend on the Complement system factors C3 and C5 nor the ATRs. Additionally, no difference in the colonization could be observed in this model using Nme mutants lacking different parts of the type 2 CRISPR/Cas system.
Conclusively, this work highlights the importance of the complement system, the ATRs and the cellular components in IMD. Contrariwise, these factors did not play a role in the analyzed nasopharyngeal infection model. The beneficial effects of C5aR1 and C5aR2 lack/inhibition in IMD might have medicinal applications, which could support the standard therapies of IMD in the future.
Candida auris was first described as a yeast pathogen in 2009. Since then, the species has emerged worldwide. In contrast to most other Candida spp., C. auris frequently exhibits multi-drug resistance and is readily transmitted in hospital settings. While most detections so far are from colonised patients, C. auris does cause superficial and life-threatening invasive infections. During management of the first documented C. auris transmission in a German hospital, experts from the National Reference Centers for Invasive Fungal Infections (NRZMyk) and the National Reference Center for Surveillance of Nosocomial Infections screened available literature and integrated available knowledge on infection prevention and C. auris epidemiology and biology to enable optimal containment. Relevant recommendations developed during this process are summarised in this guidance document, intended to assist in management of C. auris transmission and potential outbreak situations. Rapid and effective measures to contain C. auris spread require a multi-disciplinary approach that includes clinical specialists of the affected unit, nursing staff, hospital hygiene, diagnostic microbiology, cleaning staff, hospital management and experts in diagnostic mycology / fungal infections. Action should be initiated in a step-wise process and relevant interventions differ between management of singular C. auris colonised / infected patients and detection of potential C. auris transmission or nosocomial outbreaks.
Ältere Menschen sind gegenüber invasiven Infektionen und Sepsis besonders vulnerabel mit ungünstiger Prognose. Staphylococcus aureus und Haemophilus influenzae können beide invasive Infektionen verursachen. Oft geht eine asymptomatische Besiedelung einer Infektion voraus und ist ein Risikofaktor für eine invasive Infektion. Daher wurde eine bizentrische Querschnittstudie in den Regionen Aachen und Würzburg durchgeführt, um die Prävalenz von H. influenzae, S. aureus und MRSA (Methicillin resistenter S. aureus) bei asymptomatischen Senioren zu bestimmen, wie auch Risikofaktoren für eine Besiedelung. Von Oktober 2012 bis Mai 2013 wurden 677 Erwachsenen im Alter von 65 Jahren oder älter eingeschlossen, die zu Hause oder in Seniorenheimen lebten. Die Prävalenz von H. influenzae bei älteren Menschen war mit einer Trägerrate von nur 1,9% ([95% CI: 1,0 - 3,3%]; 13/677) sehr niedrig. Trägerisolate waren überwiegend nicht typisierbare H. influenzae, zeigten eine hohe clonale Diversität und waren alle Ampicillin-sensibel. Die Prävalenz von S. aureus war mit 28,5% ([95% CI: 25,1 - 32,1%]; 193/677) hoch, wie für die deutsche Allgemeinbevölkerung bekannt, während MRSA bei weniger als 1% der Teilnehmer gefunden wurde (0,7% [95% CI: 0,2 - 1,7%]; 5/677). Die Prävalenz von H. influenzae, S. aureus und MRSA unterschied sich nicht signifikant zwischen selbständig zu Hause lebenden Senioren und Pflegeheimbewohnern. Ältere, selbständig lebende Menschen mit höherem Bildungsniveau hatten signifikant höhere Kolonisierungsraten mit S. aureus (adjusted OR: 1,905 [95% CI: 1,248 - 2,908]; p = 0,003). Bei Pflegeheimbewohnern war eine Kolonisierung signifikant mit Verheiratet sein assoziiert (adjusted OR: 3,367 [95% CI: 1,502 - 7,546]; p = 0,003). Diese Ergebnisse unterstreichen die Bedeutung von sozio-demographischen Faktoren für eine Kolonisierung mit S. aureus und schließen eine Lücke bei epidemiologischen Daten zu H. influenzae.
Background
PCR testing is considered the gold standard for SARS-CoV-2 diagnosis but its results are earliest available hours to days after testing. Rapid antigen tests represent a diagnostic tool enabling testing at the point of care. Rapid antigen tests have mostly been validated by the manufacturer or in controlled laboratory settings only. External validation at the point of care, particularly in general practice where the test is frequently used, is needed. Furthermore, it is unclear how well point of care tests are accepted by the practice staff.
Methods
In this prospective multicenter validation study in primary care, general practitioners included adult individuals presenting with symptoms suggesting COVID-19. Each patient was tested by the general practitioner, first with a nasopharyngeal swab for the point of care test (Roche SARS-CoV-2 Rapid Antigen Test) and then with a second swab for PCR testing. Using the RT-PCR result as a reference, we calculated specificity, sensitivity, positive predictive value and negative predictive value, with their 95% confidence intervals. General practitioners and medical assistants completed a survey to assess feasibility and usefulness of the point of care tests.
Results
In 40 practices in Würzburg, Germany, 1518 patients were recruited between 12/2020 and 06/2021. The point of care test achieved a sensitivity of 78.3% and a specificity of 99.5% compared to RT-PCR. With a prevalence of 9.5%, the positive predictive value was 93.9% and the negative predictive value was 97.8%. General practitioners rated the point of care test as a helpful tool to support diagnostics in patients with signs and symptoms suggestive for infection, particularly in situations where decision on further care is needed at short notice.
Conclusion
The point of care test used in this study showed a sensitivity below the manufacturer’s specification (Sensitivity 96.25%) in the practice but high values for specificity and high positive predictive value and negative predictive value. Although widely accepted in the practice, measures for further patient management require a sensitive interpretation of the point of care test results.
Candida Spezies gehören als kommensale Organismen zur normalen menschlichen Mikroflora, können allerdings unter bestimmten Bedingungen Krankheitswert erlangen. Limitationen in der Behandlung durch immer mehr resistente Candida Spezies und die wachsende Zahl immunsupprimierter Patienten gelten als Hauptursachen für die steigende Häufigkeit invasiver Candidosen und systemischer Candidämien. Die 2009 entdeckte Spezies C. auris stellt durch ihre zahlreichen Resistenzen, das Potential zur Auslösung nosokomialer Ausbrüche in Krankenhäusern und die schnelle Verbreitung über mehrere Kontinente eine neue Herausforderung dar. Der Bedarf an neuen Antimykotika mit anderen Wirkmechanismen und neuen Zielstrukturen ist größer denn je. Die fungale Sphingolipid-Biosynthese wurde bereits mehrfach als potenzielles Ziel antimykotischer Therapie diskutiert, allerdings bezieht sich die meiste Forschung hierzu auf C. albicans]. In vorliegender Arbeit wurden die Auswirkungen der Inhibition der Sphingolipid Biosynthese durch Myriocin auf C. auris und sein Resistenzverhalten untersucht und mit denen auf andere Candida Spezies verglichen.
Sowohl die Mikrodilution als auch die Plattentropftests zeigten, dass C. auris verglichen mit anderen Candida Spezies besonders sensitiv auf die Anwesenheit von Myriocin reagierte und stärker im Wachstum gehemmt wurde. Der Survival Assay ergab für alle drei Spezies ein Absenken der CFU durch Myriocin, die Abweichungen zwischen den Stämmen waren jedoch unwesentlich. Unterschiede konnten in Vitalität und Vermehrung der verschiedenen Spezies unter Myriocineinfluss festgestellt werden.
Aus der Lebend/Tot-Färbung ging hervor, dass Myriocin bei allen Stämmen zum Absterben von Candida Zellen führte, C. albicans und C. glabrata allerdings signifikant niedrigere Überlebensraten im Vergleich zu den C. auris Isolaten aufwiesen. Im Gegensatz dazu konnte mithilfe der FITC-Mikroskopie gezeigt werden, dass Candida Zellen unter Zugabe von Myriocin weniger Tochterzellen ausbildeten, was auf eine erschwerte oder zumindest verlangsamte Zellvermehrung hindeutet. Dabei schien das Wachstum der C. auris Stämme durch Myriocin deutlich eingeschränkter zu sein als das von C. albicans und C. glabrata. Durch weitere Mikroskopie und die Kombination aus Lebend/Tot Färbung mittels PI und FITC Färbung, sollte die Verteilung der toten Zellen auf Mutter- und Tochterzellen evaluiert werden. Hier konnte ein Trend zu einem vermehrten Zellsterben der Tochterzellen, vor allem für C. auris, festgestellt werden. Abschließende E-Tests für Amphotericin B, Anidulafungin und Fluconazol ergaben eine signifikante Herabsetzung der MHK für alle C. auris Isolate durch Myriocin. Die hier vorgestellten Ergebnisse und die durch mehrere Studien festgestellten Differenzen in der Sphingolipidkomposition von C. auris verglichen mit anderen Candida Spezies geben Hinweis darauf, dass Sphingolipide für Vitalität, Zellteilung und vor allem für die Wirkung einiger Antimykotika auf C. auris eine besondere, wenn nicht übergestellte Bedeutung haben könnten. Zwar wurde die Sphingolipidsynthese bereits mehrfach als potenzieller Angriffspunkt für die antifungale Therapie diskutiert, allerdings lediglich am Beispiel anderer Candida Spezies. Der Sphingolipidstoffwechsel könnte somit ein vielversprechender Ansatz für die Behandlung des sonst so therapieresistenten und lebensbedrohlichen Pilzes C. auris sein.
Despite available diagnostic tests and recent advances, diagnosis of pulmonary invasive aspergillosis (IPA) remains challenging. We performed a longitudinal case-control pilot study to identify host-specific, novel, and immune-relevant molecular candidates indicating IPA in patients post allogeneic stem cell transplantation (alloSCT). Supported by differential gene expression analysis of six relevant in vitro studies, we conducted RNA sequencing of three alloSCT patients categorized as probable IPA cases and their matched controls without Aspergillus infection (66 samples in total). We additionally performed immunoassay analysis for all patient samples to gain a multi-omics perspective. Profiling analysis suggested LGALS2, MMP1, IL-8, and caspase-3 as potential host molecular candidates indicating IPA in investigated alloSCT patients. MMP1, IL-8, and caspase-3 were evaluated further in alloSCT patients for their potential to differentiate possible IPA cases and patients suffering from COVID-19-associated pulmonary aspergillosis (CAPA) and appropriate control patients. Possible IPA cases showed differences in IL-8 and caspase-3 serum levels compared with matched controls. Furthermore, we observed significant differences in IL-8 and caspase-3 levels among CAPA patients compared with control patients. With our conceptual work, we demonstrate the potential value of considering the human immune response during Aspergillus infection to identify immune-relevant molecular candidates indicating IPA in alloSCT patients. These human host candidates together with already established fungal biomarkers might improve the accuracy of IPA diagnostic tools.
Background
Bacterial meningitis is a life-threatening disease that occurs when pathogens such as Neisseria meningitidis cross the meningeal blood cerebrospinal fluid barrier (mBCSFB) and infect the meninges. Due to the human-specific nature of N. meningitidis, previous research investigating this complex host–pathogen interaction has mostly been done in vitro using immortalized brain endothelial cells (BECs) alone, which often do not retain relevant barrier properties in culture. Here, we developed physiologically relevant mBCSFB models using BECs in co-culture with leptomeningeal cells (LMCs) to examine N. meningitidis interaction.
Methods
We used BEC-like cells derived from induced pluripotent stem cells (iBECs) or hCMEC/D3 cells in co-culture with LMCs derived from tumor biopsies. We employed TEM and structured illumination microscopy to characterize the models as well as bacterial interaction. We measured TEER and sodium fluorescein (NaF) permeability to determine barrier tightness and integrity. We then analyzed bacterial adherence and penetration of the cell barrier and examined changes in host gene expression of tight junctions as well as chemokines and cytokines in response to infection.
Results
Both cell types remained distinct in co-culture and iBECs showed characteristic expression of BEC markers including tight junction proteins and endothelial markers. iBEC barrier function as determined by TEER and NaF permeability was improved by LMC co-culture and remained stable for seven days. BEC response to N. meningitidis infection was not affected by LMC co-culture. We detected considerable amounts of BEC-adherent meningococci and a relatively small number of intracellular bacteria. Interestingly, we discovered bacteria traversing the BEC-LMC barrier within the first 24 h post-infection, when barrier integrity was still high, suggesting a transcellular route for N. meningitidis into the CNS. Finally, we observed deterioration of barrier properties including loss of TEER and reduced expression of cell-junction components at late time points of infection.
Conclusions
Here, we report, for the first time, on co-culture of human iPSC derived BECs or hCMEC/D3 with meningioma derived LMCs and find that LMC co-culture improves barrier properties of iBECs. These novel models allow for a better understanding of N. meningitidis interaction at the mBCSFB in a physiologically relevant setting.
Background and objective
Prompt pathogen identification of blood stream infections is essential to provide appropriate antibiotic treatment. Therefore, the objective of this prospective single centre study was to establish an inexpensive, fast and accurate protocol for bacterial species identification with SDS protein-extraction directly from BacT/Alert® blood culture (BC) bottles by VitekMS®.
Results
Correct species identification was obtained for 198/266 (74.4%, 95%-CI = [68.8%, 79.6%]) of pathogens. The protocol was more successful in identifying 87/96 (91.4%, 95%-CI = [83.8%, 93.2%]) gram-negative bacteria than 110/167 (65.9%, 95%-CI = [58.1%, 73.0%]) gram-positive bacteria. The hands-on time for sample preparation and measurement was about 15 min for up to five samples. This is shorter than for most other protocols using a similar lysis-centrifugation approach for the combination of BacT/Alert® BC bottles and the Vitek® MS mass spectrometer. The estimated costs per sample were approx. 1.80€ which is much cheaper than for commercial kits.
Conclusion
This optimized protocol allows for accurate identification of bacteria directly from blood culture bottles for laboratories equipped with BacT/Alert® blood culture bottles and VitekMS® mass spectrometer.
Purpose
Fungal biomarkers support early diagnosis of invasive fungal infections. In this study, we evaluated the impact of a recent update to the manufacturer‐recommended cut‐off for beta‐1,3‐D‐glucan (BDG) testing (Fujifilm Wako BDG assay) on sensitivity and specificity for the detection of candidemia. Additionally, we compared the performance with tests for Candida antigen (Ag by Serion ELISA antigen Candida, Virion\Serion) and anti‐mannan antibodies (Ab by Hemkit Candida IHA, Ravo Diagnostika).
Methods
Sera of 82 patients with candidemia, which were sampled with a maximum distance of ±14 days from the date of sampling of the corresponding positive blood cultures, were retrospectively analysed for BDG, Ag and Ab. Results of BDG testing were compared with results from sera of 129 patients with candidemia from a different hospital.
Results
Sensitivity of BDG testing (47%) was higher than for Ag (17%) or Ab (20%). By combining Ag and Ab testing, sensitivity was raised to 32%. Lowering the cut‐off of BDG from 11 pg/ml to the newly recommended cut‐off of 7 pg/ml resulted in a significant increase in sensitivity (47% vs 58%, p = .01 and 63% vs 71% p < .01). At both centres, the increase was significant in NAC but not in C. albicans candidemia. No significant effects on specificity were observed.
Conclusion
BDG testing outperformed Ag and Ab testing and its combination. Lowering the BDG cut‐off had no significant impact on specificity. The increase in sensitivity can be mainly attributed to a gain in sensitivity for non‐albicans Candida species bloodstream infections.
Candida glabrata ist die zweithäufigste Ursache von Candidämien und invasiven Hefepilzinfektionen in Europa. Im Gegensatz zu C. albicans zeigt C. glabrata eine reduzierte Empfindlichkeit gegen bestimmte Antimykotika und kann unter Therapie rasch Resistenzen entwickeln.
Diese Arbeit umfasst eine systematische geno- und phänotypische Resistenzanalyse einer der größten europäischen - durch das NRZMyk in 5 Jahren zusammengetragenen - C. glabrata Stammsammlungen bestehend aus 176 klinisch relevanter Isolate. 84 der Stämme wurden anhand Referenztestung nach EUCAST zunächst als Anidulafungin (AND) resistent eingestuft. 71 wiesen konkordante Mutationen in den für die Glucan-Synthetase kodierenden FKS-Genen auf (13 % in FKS1, 87 % in FKS2). Vor allem die Position Ser-663 (FKS2-HS1) imponierte mit signifikant erhöhten AND MHK-Werten. 11 FKS-Wildtyp-Isolate, die ursprünglich als AND resistent klassifiziert wurden, wiesen in multiplen Nachtestungen um den Breakpoint undulierende AND MHK-Werte auf. 2 FKS-Wildtyp Isolate zeigten durchgängig hohe AND MHK-Werte und mussten daher - trotz fehlender Zielgenmutationen - als resistent eingestuft werden. Diese extremen Phänotypen wurden durch einen verblindeten nationalen Ringversuch bestätigt. Über ein Drittel der Isolate war multiresistent. Stämme aus Blutstrominfektionen und Ser-663 Mutation waren mit einer erhöhten Mortalität assoziiert. Ein weiteres Kernelement war die Detektion von Azol-resistenten C. glabrata petite-Phänotypen in der Routinediagnostik. Hier wurden innerhalb von 8 Monaten 20 relevante Isolate identifiziert.
Die Ergebnisse belegen das regelmäßige Auftreten single- / multidrug-resistenter C. glabrata Isolate in Deutschland. Phänotypische Resistenztestungen können zu Fehlklassifizierung von sensiblen Isolaten führen. FKS-Genotypisierungen hingegen sind ein nützliches Tool zur Identifizierung relevanter Resistenzen. In seltenen Fällen scheint jedoch eine Echinocandin-Resistenz ohne genotypisches Korrelat möglich zu sein.
Patients suffering from coronavirus disease-2019 (COVID-19) are susceptible to deadly secondary fungal infections such as COVID-19-associated pulmonary aspergillosis and COVID-19-associated mucormycosis. Despite this clinical observation, direct experimental evidence for severe acute respiratory syndrome coronavirus type 2 (SARS-CoV-2)-driven alterations of antifungal immunity is scarce. Using an ex-vivo whole blood stimulation assay, we challenged blood from twelve COVID-19 patients with Aspergillus fumigatus and Rhizopus arrhizus antigens and studied the expression of activation, maturation, and exhaustion markers, as well as cytokine secretion. Compared to healthy controls, T-helper cells from COVID-19 patients displayed increased expression levels of the exhaustion marker PD-1 and weakened A. fumigatus- and R. arrhizus-induced activation. While baseline secretion of proinflammatory cytokines was massively elevated, whole blood from COVID-19 patients elicited diminished release of T-cellular (e.g., IFN-γ, IL-2) and innate immune cell-derived (e.g., CXCL9, CXCL10) cytokines in response to A. fumigatus and R. arrhizus antigens. Additionally, samples from COVID-19 patients showed deficient granulocyte activation by mold antigens and reduced fungal killing capacity of neutrophils. These features of weakened anti-mold immune responses were largely decoupled from COVID-19 severity, the time elapsed since diagnosis of COVID-19, and recent corticosteroid uptake, suggesting that impaired anti-mold defense is a common denominator of the underlying SARS-CoV-2 infection. Taken together, these results expand our understanding of the immune predisposition to post-viral mold infections and could inform future studies of immunotherapeutic strategies to prevent and treat fungal superinfections in COVID-19 patients.
The Indigenous tribe called the Wiwa lives retracted in the Sierra Nevada de Santa Marta, Colombia. Little is known about their health status and whether the health care system in place covers their needs. In 2017 and 2018, a permanent physician was in charge for the Wiwa. Diseases and complaints were registered, ranked, and classified with the ICD-10 coding. Datasets from the Indigenous health care provider Dusakawi, collected from local health points and health brigades travelling sporadically into the fields for short visits, were compared. Furthermore, a list of provided medication was evaluated regarding the recorded needs. The most common complaints found were respiratory, infectious and parasitic, and digestive diseases. The top ten diagnoses collected in the health points and in the health brigade datasets were similar, although with a different ranking. The available medication showed a basic coverage only, with a critical lack of treatment for many severe, chronic, and life-threatening diseases. Most of the detected diseases in the Indigenous population are avoidable by an improvement in health care access, an expansion of the provided medication, and an increase in knowledge, hygiene, and life standards.
Diagnosis and therapy of Mycobacterium marinum: a single-center 21-year retrospective analysis
(2022)
Background and Objectives
In Europe, infections with Mycobacterium (M.) marinum are rare. We conducted a retrospective single-center study to assess the clinical spectrum of M. marinum infection and its diagnosis, treatment and outcome under real-world conditions.
Patients and Methods
Eighteen patients presenting with M. marinum infections between 1998 and 2018 were identified in the data warehouse of the University Hospital Würzburg and considered for detailed analysis.
Results
Twelve patients reported aquatic exposure. In 16/18 cases the upper extremities were affected. No invasive infections were detected. Mean time to diagnosis was 15 weeks. Histology revealed granulomatous inflammation in 14 patients while mycobacterial cultures were positive for M. marinum in 16 cases. Most patients received antibiotic monotherapy (14/18) while combination therapy was administered in four cases. Treatment (with a median duration of 10 weeks) was successful in 13 patients. Five patients were lost to follow-up.
Conclusions
Our retrospective analysis of M. marinum infections at a German tertiary referral center revealed a considerable diagnostic delay and the relevance of microbiological culture, PCR and histology for diagnosis. Monotherapy with clarithromycin (rather than doxycycline) appeared as a reasonable treatment option while immunosuppressed or -compromised patients and those with extended disease received combination therapy.
Background
Joint aspiration with analysis of synovial fluid white blood cell count (WBC) and microbiological culture is a widely established aspect in the diagnosis of shoulder joint infections (SJI). In case of a two stage revision for SJI, joint aspiration before re−/implantation of a total shoulder arthroplasty (TSA) was used to rule out persistent infection for years but its value is under debate. Shoulder specific data on all aspects is rare. The current study aims to answer the following research questions: Does joint aspiration have an insufficient predictive value in the diagnosis of SJI in (1) initial workup and (2) before definite arthroplasty with polymethylmethacrylate (PMMA)-Spacer in place?
Methods
This retrospective evaluation investigates 35 patients that were treated for SJI with a two staged implantation of a TSA after debridement and implantation of an PMMA-Spacer. Joint aspirations were performed preoperatively (PA) and before re−/implantation of the prosthesis while spacer was in place (interstage aspiration, IA). Samples were taken for microbiological culture and analysis of WBC. Sensitivity and specificity were calculated with reference to intraoperative microbiological samples. Receiver Operating Characteristic (ROC), Area-Under-Curve analysis (AUC) and calculation of the Youden index were performed to find optimum cut-off for WBC.
Results
The sensitivity of microbiological cultures from PA was 58.3% and the specificity was 88.9%. The mean WBC was 27,800 leucocytes/mm3 (range 400-96,300). The maximum Youden index (0.857) was a cut-off of 2600 leucocytes/mm3 with a sensitivity of 85.7% and a specificity of 100.0%. The sensitivity and specificity of IA were 0.0% and 88.5%, respectively.
Conclusions
Preoperative aspiration is likely to miss Cutibacteria spp. and CoNS and cannot rule out infection for sure. However, we recommend it for its advantages of targeted antibiotic therapy in case of germ identification. Empiric antibiotic therapy should cover Cutibacteria and CoNS even if aspiration showed negative microbiological cultures. In contrast, the diagnostic value of interstage aspiration does not qualify for its routine use.
High seroprevalence of SARS-CoV-2 in Mwanza, northwestern Tanzania: a population-based survey
(2022)
The transmission of the SARS-CoV-2 virus, which causes COVID-19, has been documented worldwide. However, the evidence of the extent to which transmission has occurred in different countries is still to be established. Understanding the magnitude and distribution of SARS-CoV-2 through seroprevalence studies is important in designing control and preventive strategies in communities. This study investigated the seropositivity of the SARS-CoV-2 virus antibodies in the communities of three different districts in the Mwanza region, Tanzania. A household cross-sectional survey was conducted in September 2021 using the modified African Centre for Disease and Prevention (ACDC) survey protocol. A blood sample was obtained from one member of each of the selected households who consented to take part in the survey. Immunochromatographic rapid test kits were used to detect IgM and IgG SARS-CoV-2 antibodies, followed by descriptive data analysis. Overall, 805 participants were enrolled in the study with a median age of 35 (interquartile range (IQR):27–47) years. The overall SARS-CoV-2 seropositivity was 50.4% (95%CI: 46.9–53.8%). The IgG and IgM seropositivity of the SARS-CoV-2 antibodies was 49.3% and 7.2%, respectively, with 6.1% being both IgG and IgM seropositive. A history of runny nose (aOR: 1.84, 95%CI: 1.03–3.5, p = 0.036), loss of taste (aOR: 1.84, 95%CI: 1.12–4.48, p = 0.023), and living in Ukerewe (aOR: 3.55, 95%CI: 1.68–7.47, p = 0.001) and Magu (aOR: 2.89, 95%CI: 1.34–6.25, p= 0.007) were all independently associated with SARS-CoV-2 IgM seropositivity. Out of the studied factors, living in the Ukerewe district was independently associated with IgG seropositivity (aOR 1.29, CI 1.08–1.54, p = 0.004). Twenty months after the first case of COVID-19 in Tanzania, about half of the studied population in Mwanza was seropositive for SARS-CoV-2.
Bone concentration of ampicillin/sulbactam: a pilot study in patients with osteonecrosis of the jaw
(2022)
Osteonecrosis of the jaw (ONJ) occurs typically after irradiation of the head and neck area or after the intake of antiresorptive agents. Both interventions can lead to compromised bone perfusion and can ultimately result in infection and necrosis. Treatment usually consists of surgical necrosectomy and prolonged antibiotic therapy, usually through beta-lactams such as ampicillin/sulbactam. The poor blood supply in particular raises the question as to whether this form of antibiosis can achieve sufficient concentrations in the bone. Therefore, we investigated the antibiotic concentration in plasma and bone samples in a prospective study. Bone samples were collected from the necrosis core and in the vital surrounding bone. The measured concentrations in plasma for ampicillin and sulbactam were 126.3 ± 77.6 and 60.2 ± 35.0 µg/mL, respectively. In vital bone and necrotic bone samples, the ampicillin/sulbactam concentrations were 6.3 ± 7.8/1.8 ± 2.0 µg/g and 4.9 ± 7.0/1.7 ± 1.7 µg/g, respectively. These concentrations are substantially lower than described in the literature. However, the concentration seems sufficient to kill most bacteria, such as Streptococci and Staphylococci, which are mostly present in the biofilm of ONJ. We, therefore, conclude that intravenous administration of ampicillin/sulbactam remains a valuable treatment in the therapy of ONJ. Nevertheless, increasing resistance of Escherichia coli towards beta-lactam antibiotics have been reported and should be considered.
Objectives
Mechanisms of wound healing are often impaired in patients with osteonecrosis of the jaw (ONJ). According to the guidelines for the treatment of this disease, early surgical intervention is indicated. However, surgery often faces complications such as wound healing disorders. The application of platelet-rich fibrin (PRF) after necrosectomy between bone and mucosa may constitute a promising approach to improve surgical results. An aspect that was not investigated until now is that PRF acts as a “bio-carrier” for antibiotics previously applied intravenously.
Materials and methods
We investigated the antimicrobial properties of PRF in 24 patients presenting ONJ undergoing systemic antibiosis with ampicillin/sulbactam. We measured the concentration of ampicillin/sulbactam in plasma and PRF and performed agar diffusion tests. Ampicillin/sulbactam was applied intravenously to the patient 10 minutes for blood sampling for PRF. No further incorporation of patients’ blood or PRF product with antibiotic drugs was obtained. Four healthy patients served as controls.
Results
Our results revealed that PRF is highly enriched with ampicillin/sulbactam that is released to the environment. The antibiotic concentration in PRF was comparable to the plasma concentration of ampicillin/sulbactam. The inhibition zone (IZ) of PRF was comparable to the standard ampicillin/sulbactam discs used in sensitivity testing.
Conclusions
The results of our study demonstrated that PRF is a reliable bio-carrier for systemic applied antibiotics and exhibits a large antimicrobial effect.
Clinical relevance
We describe a clinically useful feature of PRF as a bio-carrier for antibiotics. Especially when applied to poorly perfused tissues and bone such as in ONJ, the local release of antibiotics can reduce wound healing disorders like infections.
Alveolar echinococcosis, which is caused by the metacestode stage of the small fox tapeworm Echinococcus multilocularis, is a severe zoonotic disease with limited treatment options. For a better understanding of cestode biology the genome of E. multilocularis, together with other cestode genomes, was sequenced previously. While a few studies were undertaken to explore the E. multilocularis transcriptome, a comprehensive exploration of global transcription profiles throughout life cycle stages is lacking. This work represents the so far most comprehensive analysis of the E. multilocularis transcriptome. Using RNA-Seq information from different life cycle stages and experimental conditions in three biological replicates, transcriptional differences were qualitatively and quantitatively explored. The analyzed datasets are based on samples of metacestodes cultivated under aerobic and anaerobic conditions as well as metacestodes obtained directly from infected jirds. Other samples are stem cell cultures at three different time points of development as well as non-activated and activated protoscoleces, the larval stage that can develop into adult worms. In addition, two datasets of metacestodes under experimental conditions suitable for the detection of genes that are expressed in stem cells, the so-called germinative cells, and one dataset from a siRNA experiment were analyzed. Analysis of these datasets led to expression profiles for all annotated genes, including genes that are expressed in the tegument of metacestodes and play a role in host-parasite interactions and modulation of the host's immune response. Gene expression profiles provide also further information about genes that might be responsible for the infiltrative growth of the parasite in the liver.
Furthermore, germinative cell-specific genes were identified. Germinative cells are the only proliferating cells in E. multilocularis and therefore of utmost importance for the development and growth of the parasite. Using a combination of germinative cell depletion and enrichment methods, genes with specific expression in germinative cells were identified. As expected, many of these genes are involved in translation, cell cycle regulation or DNA replication and repair. Also identified were transcription factors, many of which are involved in cell fate commitment. As an example, the gene encoding the telomerase reverse transcriptase (TERT) was studied further. Expression of E. multilocularis tert in germinative cells was confirmed experimentally. Cell culture experiments indicate that TERT is required for proliferation and development of the parasite, which makes TERT a potentially interesting drug target for chemotherapy of alveolar echinococcosis.
Germinative cell specific genes in E. multilocularis also include genes of densoviral origin. More than 20 individual densovirus loci with information for non-structural and structural densovirus proteins were identified in the E. multilocularis genome. Densoviral elements were also detected in many other cestode genomes. Genomic integration of these elements suggests that densovirus-based vectors might be suitable tools for genetic manipulation of tapeworms. Interestingly, only three of more than 20 densovirus loci in the E. multilocularis genome are expressed. Since the canonical piRNA pathway is lacking in cestodes, this raises the question about potential silencing mechanisms. Exploration of RNA-Seq information indicated natural antisense transcripts as a potential gene regulation mechanism in E. multilocularis. Preliminary experiments further suggest DNA-methylation, which was previously shown to occur in platyhelminthes, as an interesting avenue to explore in future.
The transcriptome datasets also contain information about genes that are expressed in differentiated cells, for example the serotonin transporter gene that is expressed in nerve cells. Cell culture experiments indicate that serotonin and serotonin transport play an important role in E. multilocularis proliferation, development and survival.
Overall, this work provides a comprehensive transcription data atlas throughout the E. multilocularis life cycle. Identification of germinative cell-specific genes and genes important for host-parasite interactions will greatly facilitate future research. A global overview of gene expression profiles will also aide in the detection of suitable drug targets and the development of new chemotherapeutics against alveolar echinococcosis.
Die alveoläre Echinokokkose (AE), verursacht durch das Metacestoden- Larvenstadium des Fuchsbandwurms Echinococcus multilocularis (E. multilocularis), ist eine lebensbedrohliche Zoonose der nördlichen Hemisphäre mit eingeschränkten therapeutischen Möglichkeiten. Bei der Suche nach neuen Therapeutika haben Mitogen-activated Proteinkinase (MAPK) -Kaskaden als pharmakologische Zielstrukturen aufgrund ihrer essentiellen Rolle bei der Zellproliferation und -differenzierung ein großes Potenzial. In der vorliegenden Arbeit wurden durch BLAST- und reziproke BLAST-Analysen elf potenzielle MAPK Kinase Kinasen (MAP3K), fünf potenzielle MAPK Kinasen (MAP2K) und sechs potenzielle MAPK im E. multilocularis-Genom identifiziert, die teils hoch konserviert sind und in nahezu allen Entwicklungsstadien des Parasiten exprimiert werden. Diese Erkenntnisse lassen auf ein komplexes MAPK-Signaltransduktions- system in E. multilocularis mit großer Bedeutung für den Parasiten schließen. Transkriptomdatenanalysen und Whole Mount in Situ Hybridisierung (WMISH) zeigten, dass emmkkk1 (EmuJ_000389600) als einzige MAP3K neben der Expression in postmitotischen Zellen in besonderem Maße in proliferativen Stammzellen des Parasiten exprimiert wird und somit eine wichtige Rolle bei der Differenzierung von Stammzellen spielen könnte. In Yeast-Two-Hybrid (Y2H) -Wechselwirkungsassays wurden Interaktionen von mehreren upstream- (EmGRB2) und downstream- wirkenden Signalkaskadekomponenten des JNK (EmMKK3, EmMPK3) und ERK (EmMKK3, EmMPK4) -Signalwegs gefunden. Daraus lässt sich schließen, dass EmMKKK1, analog zu seinem humanen Homolog HsM3K1, eine zentrale Rolle bei der Echinococcus-Wachstumsregulation durch Rezeptortyrosinkinasen und vielfältige weitere Funktionen im Parasiten besitzt. Anhand von Erkenntnissen an Platyhelminthes kann daher von einem großen Potenzial dieser neu charakterisierten Signalwege als chemotherapeutische Angriffspunkte ausgegangen werden, wenngleich erste RNA-Interferenz (RNAi)- und Inhibitorstudien an emmkkk1, emmpk1 und emmpk4 keine durchschlagenden Effekte auf das Überleben von Primärzellkulturen und die Bildung von Metacestodenvesikeln zeigten. Zusammenfassend konnte in der vorliegenden Arbeit mit EmMKKK1 und neuen ERK- und JNK-Signalwegen zentrale Komponenten der komplexen MAPK-Signalkaskaden in E. multilocularis identifiziert werden, die höchstwahrscheinlich einen großen Beitrag zur enormen Regenerationsfähigkeit der Echinococcus-Stammzellen leisten und vom Wirt abgeleitete Signale wie Insulin, Epidermaler Wachstumsfaktor (EGF) und Fibroblasten-Wachstumsfaktor (FGF) über EmGRB2 in Proliferationsnetzwerke des Parasiten integrieren. Arzneimittel-Screening-Assays, die auf diese Signalwege abzielen, könnten daher zu alternativen Arzneimitteln führen, die alleine oder in Kombination mit einer bestehenden Chemotherapie (Benzimidazol) die Prognose von für AE-Patienten verbessern könnten.
Background: The aim of this study was to assess the impact of antimicrobial stewardship interventions on surgical antibiotic prescription behavior in the management of non-elective surgical intra-abdominal infections, focusing on postoperative antibiotic use, including the appropriateness of indications. Methods: A single-center quality improvement study with retrospective evaluation of the impact of antimicrobial stewardship measures on optimizing antibacterial use in intra-abdominal infections requiring emergency surgery was performed. The study was conducted in a tertiary hospital in Germany from January 1, 2016, to January 30, 2020, three years after putting a set of antimicrobial stewardship standards into effect. Results: 767 patients were analyzed (n = 495 in 2016 and 2017, the baseline period; n = 272 in 2018, the antimicrobial stewardship period). The total days of therapy per 100 patient days declined from 47.0 to 42.2 days (p = 0.035). The rate of patients receiving postoperative therapy decreased from 56.8% to 45.2% (p = 0.002), comparing both periods. There was a significant decline in the rate of inappropriate indications (17.4% to 8.1 %, p = 0.015) as well as a significant change from broad-spectrum to narrow-spectrum antibiotic use (28.8% to 6.5%, p ≤ 0.001) for postoperative therapy. The significant decline in antibiotic use did not affect either clinical outcomes or the rate of postoperative wound complications. Conclusions: Postoperative antibiotic use for intra-abdominal infections could be significantly reduced by antimicrobial stewardship interventions. The identification of inappropriate indications remains a key target for antimicrobial stewardship programs.
Coagulase-negative staphylococci (CoNS) are common opportunistic pathogens, but also ubiquitous human and animal commensals. Infection-associated CoNS from healthcare environments are typically characterized by pronounced antimicrobial resistance (AMR) including both methicillin- and multidrug-resistant isolates. Less is known about AMR patterns of CoNS colonizing the general population. Here we report on AMR in commensal CoNS recovered from 117 non-hospitalized volunteers in a region of Germany with a high livestock density. Among the 69 individuals colonized with CoNS, 29 had reported contacts to either companion or farm animals. CoNS were selectively cultivated from nasal swabs, followed by species definition by 16S rDNA sequencing and routine antibiotic susceptibility testing. Isolates displaying phenotypic AMR were further tested by PCR for presence of selected AMR genes. A total of 127 CoNS were isolated and Staphylococcus epidermidis (75%) was the most common CoNS species identified. Nine isolates (7%) were methicillin-resistant (MR) and carried the mecA gene, with seven individuals (10%) being colonized with at least one MR-CoNS isolate. While resistance against gentamicin, phenicols and spectinomycin was rare, high resistance rates were found against tetracycline (39%), erythromycin (33%) and fusidic acid (24%). In the majority of isolates, phenotypic resistance could be associated with corresponding AMR gene detection. Multidrug-resistance (MDR) was observed in 23% (29/127) of the isolates, with 33% (23/69) of the individuals being colonized with MDR-CoNS. The combined data suggest that MR- and MDR-CoNS are present in the community, with previous animal contact not significantly influencing the risk of becoming colonized with such isolates.
Fungal eye infections can lead to loss of vision and blindness. The disease is most prevalent in the tropics, although case numbers in moderate climates are increasing as well. This study aimed to determine the dominating filamentous fungi causing eye infections in Germany and their antifungal susceptibility profiles in order to improve treatment, including cases with unidentified pathogenic fungi. As such, we studied all filamentous fungi isolated from the eye or associated materials that were sent to the NRZMyk between 2014 and 2020. All strains were molecularly identified and antifungal susceptibility testing according to the EUCAST protocol was performed for common species. In total, 242 strains of 66 species were received. Fusarium was the dominating genus, followed by Aspergillus, Purpureocillium, Alternaria, and Scedosporium. The most prevalent species in eye samples were Fusarium petroliphilum, F. keratoplasticum, and F. solani of the Fusarium solani species complex. The spectrum of species comprises less susceptible taxa for amphotericin B, natamycin, and azoles, including voriconazole. Natamycin is effective for most species but not for Aspergillus flavus or Purpureocillium spp. Some strains of F. solani show MICs higher than 16 mg/L. Our data underline the importance of species identification for correct treatment.
Outpatient antibiotic use is closely related to antimicrobial resistance and in Germany, almost 70% of antibiotic prescriptions in human health are issued by primary care physicians (PCPs). The aim of this study was to explore PCPs, namely General Practitioners' (GPs) and outpatient pediatricians' (PDs) knowledge of guideline recommendations on rational antimicrobial treatment, the determinants of confidence in treatment decisions and the perceived need for training in this topic in a large sample of PCPs from southern Germany. Out of 3753 reachable PCPs, 1311 completed the survey (overall response rate = 34.9%). Knowledge of guideline recommendations and perceived confidence in making treatment decisions were high in both GPs and PDs. The two highest rated influencing factors on prescribing decisions were reported to be guideline recommendations and own clinical experiences, hence patients' demands and expectations were judged as not influencing treatment decisions. The majority of physicians declared to have attended at least one specific training course on antibiotic use, yet almost all the participating PCPs declared to need more training on this topic. More studies are needed to explore how consultation-related and context-specific factors could influence antibiotic prescriptions in general and pediatric primary care in Germany beyond knowledge. Moreover, efforts should be undertaken to explore the training needs of PCPs in Germany, as this would serve the development of evidence-based educational interventions targeted to the improvement of antibiotic prescribing decisions rather than being focused solely on knowledge of guidelines.
A Comprehensive Review on the Interplay between Neisseria spp. and Host Sphingolipid Metabolites
(2021)
Sphingolipids represent a class of structural related lipids involved in membrane biology and various cellular processes including cell growth, apoptosis, inflammation and migration. Over the past decade, sphingolipids have become the focus of intensive studies regarding their involvement in infectious diseases. Pathogens can manipulate the sphingolipid metabolism resulting in cell membrane reorganization and receptor recruitment to facilitate their entry. They may recruit specific host sphingolipid metabolites to establish a favorable niche for intracellular survival and proliferation. In contrast, some sphingolipid metabolites can also act as a first line defense against bacteria based on their antimicrobial activity. In this review, we will focus on the strategies employed by pathogenic Neisseria spp. to modulate the sphingolipid metabolism and hijack the sphingolipid balance in the host to promote cellular colonization, invasion and intracellular survival. Novel techniques and innovative approaches will be highlighted that allow imaging of sphingolipid derivatives in the host cell as well as in the pathogen.
Candida auris is an emerging pathogen with resistance to many commonly used antifungal agents. Infections with C. auris require rapid and reliable detection methods to initiate successful medical treatment and contain hospital outbreaks. Conventional identification methods are prone to errors and can lead to misidentifications. PCR-based assays, in turn, can provide reliable results with low turnaround times. However, only limited data are available on the performance of commercially available assays for C. auris detection. In the present study, the two commercially available PCR assays AurisID (OLM, Newcastle Upon Tyne, UK) and Fungiplex Candida Auris RUO Real-Time PCR (Bruker, Bremen, Germany) were challenged with 29 C. auris isolates from all five clades and eight other Candida species as controls. AurisID reliably detected C. auris with a limit of detection (LoD) of 1 genome copies/reaction. However, false positive results were obtained with high DNA amounts of the closely related species C. haemulonii, C. duobushaemulonii and C. pseudohaemulonii. The Fungiplex Candida Auris RUO Real-Time PCR kit detected C. auris with an LoD of 9 copies/reaction. No false positive results were obtained with this assay. In addition, C. auris could also be detected in human blood samples spiked with pure fungal cultures by both kits. In summary, both kits could detect C. auris-DNA at low DNA concentrations but differed slightly in their limits of detection and specificity.
Background: The diagnosis of periprosthetic shoulder infection (PSI) requires a thorough diagnostic workup. Synovial fluid aspiration has been proven to be a reliable tool in the diagnosis of joint infections of the lower extremity, but shoulder specific data is limited. This study defines a threshold for synovial fluid white blood cell count (WBC) and assesses the reliability of microbiological cultures. Methods: Retrospective study of preoperative and intraoperative fluid aspiration of 31 patients who underwent a revision of a shoulder arthroplasty (15 with PSI defined by IDSA criteria, 16 without infection). The threshold for WBC was calculated by ROC/AUC analysis. Results: WBC was significantly higher in patients with PSI than in other patients. A threshold of 2800 leucocytes/mm\(^3\) showed a sensitivity of 87% and a specificity of 88% (AUROC 0.92). Microbiological cultures showed a sensitivity of 76% and a specificity of 100%. Conclusions: A threshold of 2800 leucocytes/mm\(^3\) in synovial fluid can be recommended to predict PSI. Microbiological culture has an excellent specificity and allows for targeted antibiotic therapy. Joint aspiration presents an important pillar to diagnose PSI.
The obligate human pathogen Neisseria meningitidis is a major cause of sepsis and meningitis worldwide. It affects mainly toddlers and infants and is responsible for thousands of deaths each year. In this study, different aspects of the importance of sphingolipids in meningococcal pathogenicity were investigated. In a first step, the acid sphingomyelinase (ASM), which degrades membrane sphingomyelin to ceramide, was studied in the context of meningococcal infection. A requirement for ASM surface activity is its translocation from the lysosomal compartment to the cell surface, a process that is currently poorly understood.
This study used various approaches, including classical invasion and adherence assays, flow cytometry, and classical and super resolution immunofluorescence microscopy (dSTORM). The results showed that the live, highly piliated N. meningitidis strain 8013/12 induced calcium-dependent ASM translocation in human brain microvascular endothelial cells (HBMEC). Furthermore, it promoted the formation of ceramide-rich platforms (CRPs). In addition, ASM translocation and CRP formation were observed after treating the cells with pili-enriched fractions derived from the same strain. The importance for N. meningitidis to utilize this pathway was shown by the inhibition of the calcium-dependent ASM translocation, which greatly decreased the number of invasive bacteria.
I also investigated the importance of the glycosphingolipids GM1 and Gb3. The results showed that GM1, but not Gb3, plays an important role in the ability of N. meningitidis to invade HBMEC. By combining dSTORM imaging and microbiological approaches, we demonstrated that GM1 accumulated prolifically around bacteria during the infection, and that this interaction seemed essential for meningococcal invasion.
Sphingolipids are not only known for their beneficial effect on pathogens. Sphingoid bases, including sphingosine, are known for their antimicrobial activity. In the last part of this study, a novel correlative light and electron microscopy approach was established in the combination with click chemistry to precisely localize azido-functionalized sphingolipids in N. meningitidis. The result showed a distinct concentration-dependent localization in either the outer membrane (low concentration) or accumulated in the cytosol (high concentration). This pattern was confirmed by mass spectrometry on separated membrane fractions. Our data provide a first insight into the underlying mechanism of antimicrobial sphingolipids.
Sphingolipids, including ceramides, are a diverse group of structurally related lipids composed of a sphingoid base backbone coupled to a fatty acid side chain and modified terminal hydroxyl group. Recently, it has been shown that sphingolipids show antimicrobial activity against a broad range of pathogenic microorganisms. The antimicrobial mechanism, however, remains so far elusive. Here, we introduce 'click-AT-CLEM', a labeling technique for correlated light and electron microscopy (CLEM) based on the super-resolution array tomography (srAT) approach and bio-orthogonal click chemistry for imaging of azido-tagged sphingolipids to directly visualize their interaction with the model Gram-negative bacterium Neisseria meningitidis at subcellular level. We observed ultrastructural damage of bacteria and disruption of the bacterial outer membrane induced by two azido-modified sphingolipids by scanning electron microscopy and transmission electron microscopy. Click-AT-CLEM imaging and mass spectrometry clearly revealed efficient incorporation of azido-tagged sphingolipids into the outer membrane of Gram-negative bacteria as underlying cause of their antimicrobial activity.
Aspergillus fumigatus causes life-threatening opportunistic infections in immunocompromised patients. As therapeutic outcomes of invasive aspergillosis (IA) are often unsatisfactory, the development of targeted immunotherapy remains an important goal. Linking the innate and adaptive immune system, dendritic cells are pivotal in anti-Aspergillus defense and have generated interest as a potential immunotherapeutic approach in IA. While monocyte-derived dendritic cells (moDCs) require ex vivo differentiation, antigen-pulsed primary myeloid dendritic cells (mDCs) may present a more immediate platform for immunotherapy. To that end, we compared the response patterns and cellular interactions of human primary mDCs and moDCs pulsed with an A. fumigatus lysate and two A. fumigatus proteins (CcpA and Shm2) in a serum-free, GMP-compliant medium. CcpA and Shm2 triggered significant upregulation of maturation markers in mDCs and, to a lesser extent, moDCs. Furthermore, both A. fumigatus proteins elicited the release of an array of key pro-inflammatory cytokines including TNF-α, IL-1β, IL-6, IL-8, and CCL3 from both DC populations. Compared to moDCs, CcpA- and Shm2-pulsed mDCs exhibited greater expression of MHC class II antigens and stimulated stronger proliferation and IFN-γ secretion from autologous CD4\(^+\) and CD8\(^+\) T-cells. Moreover, supernatants of CcpA- and Shm2-pulsed mDCs significantly enhanced the oxidative burst in allogeneic neutrophils co-cultured with A. fumigatus germ tubes. Taken together, our in vitro data suggest that ex vivo CcpA- and Shm2-pulsed primary mDCs have the potential to be developed into an immunotherapeutic approach to tackle IA.
Anamnestic screening of symptoms and contact history is applied to identify coronavirus disease 2019 (COVID‐19) patients on admission. However, asymptomatic and presymptomatic patients remain undetected although the viral load may be high. In this retrospective cohort study, all hospitalized patients who received polymerase chain reaction (PCR) admission testing from March 26th until May 24th, 2020 were included. Data on COVID‐19‐specific symptoms and contact history to COVID‐19 cases were retrospectively extracted from patient files and from contact tracing notes. The compliance to the universal testing protocol was high with 90%. Out of 6940 tested patients, 27 new severe acute respiratory syndrome coronavirus‐2 infections (0.4%) were detected. Seven of those COVID‐19 cases (26% of all new cases) were asymptomatic and had no positive contact history, but were identified through a positive PCR test. The number needed to identify an asymptomatic patient was 425 in the first wave of the epidemic, 1218 in the low incidence phase. The specificity of the method was above 99.9%. Universal PCR testing was highly accepted by staff as demonstrated by high compliance. The costs to detect one asymptomatic case in future studies need to be traded off against the costs and damage caused by potential outbreaks of COVID‐19.
Data on biomarker-assisted diagnosis of invasive aspergillosis (IA) in pediatric patients is scarce. Therefore, we conducted a cohort study over two years including 404 serum specimens of 26 pediatric patients after allogeneic hematopoietic stem cell transplantation (alloSCT). Sera were tested prospectively twice weekly for Aspergillus-specific DNA, galactomannan (GM), and retrospectively for (1→3)-β-D-glucan (BDG). Three probable IA and two possible invasive fungal disease (IFD) cases were identified using the European Organization for Research and Treatment of Cancer and the Mycoses Study Group (EORTC/MSGERC) 2019 consensus definitions. Sensitivity and specificity for diagnosis of probable IA and possible IFD was 80% (95% confidential interval (CI): 28–99%) and 55% (95% CI: 32–77%) for BDG, 40% (95% CI: 5–85%) and 100% (95% CI: 83–100%) for GM, and 60% (95% CI: 15–95%) and 95% (95% CI: 75–100%) for Aspergillus-specific real-time PCR. However, sensitivities have to be interpreted with great caution due to the limited number of IA cases. Interestingly, the low specificity of BDG was largely caused by false-positive BDG results that clustered around the date of alloSCT. The following strategies were able to increase BDG specificity: two consecutive positive BDG tests for diagnosis (specificity 80% (95% CI: 56–94%)); using an optimized cutoff value of 306 pg/mL (specificity 90% (95% CI: 68–99%)) and testing BDG only after the acute posttransplant phase. In summary, BDG can help to diagnose IA in pediatric alloSCT recipients. However, due to the poor specificity either an increased cutoff value should be utilized or BDG results should be confirmed by an alternative Aspergillus assay.
The fungal cell wall is essential for the maintenance of cellular integrity and mediates interactions of the cells with the environment. It is a highly flexible organelle whose composition and organization is modulated in response to changing growth conditions. In the pathogenic yeast Candida albicans, a network of signaling pathways regulates the structure of the cell wall, and mutants with defects in these pathways are hypersensitive to cell wall stress. By harnessing a library of genetically activated forms of all C. albicans zinc cluster transcription factors, we found that a hyperactive Czf1 rescued the hypersensitivity to cell wall stress of different protein kinase deletion mutants. The hyperactive Czf1 induced the expression of many genes with cell wall-related functions and caused visible changes in the cell wall structure. C. albicans czf1Δ mutants were hypersensitive to the antifungal drug caspofungin, which inhibits cell wall biosynthesis. The changes in cell wall architecture caused by hyperactivity or absence of Czf1 resulted in an increased recognition of C. albicans by human neutrophils. Our results show that Czf1, which is known as a regulator of filamentous growth and white-opaque switching, controls the expression of cell wall genes and modulates the architecture of the cell wall.
Murine infection models are widely used to study systemic candidiasis caused by C. albicans. Whole-blood models can help to elucidate host-pathogens interactions and have been used for several Candida species in human blood. We adapted the human whole-blood model to murine blood. Unlike human blood, murine blood was unable to reduce fungal burden and more substantial filamentation of C. albicans was observed. This coincided with less fungal association with leukocytes, especially neutrophils. The lower neutrophil number in murine blood only partially explains insufficient infection and filamentation control, as spiking with murine neutrophils had only limited effects on fungal killing. Furthermore, increased fungal survival is not mediated by enhanced filamentation, as a filament-deficient mutant was likewise not eliminated. We also observed host-dependent differences for interaction of platelets with C. albicans, showing enhanced platelet aggregation, adhesion and activation in murine blood. For human blood, opsonization was shown to decrease platelet interaction suggesting that complement factors interfere with fungus-to-platelet binding. Our results reveal substantial differences between murine and human whole-blood models infected with C. albicans and thereby demonstrate limitations in the translatability of this ex vivo model between hosts.
Physical and mental well-being during the COVID-19 pandemic is typically assessed via surveys, which might make it difficult to conduct longitudinal studies and might lead to data suffering from recall bias. Ecological momentary assessment (EMA) driven smartphone apps can help alleviate such issues, allowing for in situ recordings. Implementing such an app is not trivial, necessitates strict regulatory and legal requirements, and requires short development cycles to appropriately react to abrupt changes in the pandemic. Based on an existing app framework, we developed Corona Health, an app that serves as a platform for deploying questionnaire-based studies in combination with recordings of mobile sensors. In this paper, we present the technical details of Corona Health and provide first insights into the collected data. Through collaborative efforts from experts from public health, medicine, psychology, and computer science, we released Corona Health publicly on Google Play and the Apple App Store (in July 2020) in eight languages and attracted 7290 installations so far. Currently, five studies related to physical and mental well-being are deployed and 17,241 questionnaires have been filled out. Corona Health proves to be a viable tool for conducting research related to the COVID-19 pandemic and can serve as a blueprint for future EMA-based studies. The data we collected will substantially improve our knowledge on mental and physical health states, traits and trajectories as well as its risk and protective factors over the course of the COVID-19 pandemic and its diverse prevention measures.
Background
Increasing incidence of invasive infections caused by rare fungi was observed over the recent years.
Case
Here, we describe the first reported case of an infection caused by the thermophilic mold Talaromyces thermophilus. Cultivation and, hence, identification of this fastidious organism is challenging since standard incubation conditions are not sufficient. Retrospective analysis of patient samples and in vitro experiments demonstrated that testing for fungal antigens, i.e., the cell wall components galactomannan and β-1,3-D-glucan, is a promising tool.
Vergleich der Bakterienlast in vivo und Wachstumskinetik in vitro hyperletaler Meningokokkentypen
(2020)
Die invasive Meningokokkenerkrankung stellt weltweit mit einer Letalität von 5-10% trotz antibiotischer Therapie eine Herausforderung dar. Ein spezifisches Virulenzgen, welches die Schwere der Meningokokkenerkrankung bestimmt, konnte bisher nicht definiert werden. Vorangegangene Studien zeigen eine Korrelation der Letalität mit der Bakterienlast, Unterschiede bezüglich der Letalität je nach Serogruppe, eine erhöhte Letalität bei Infektionen mit sogenannten hyperletalen Feintypen (bisher nicht veröffentlichte Daten des NRZMHi) sowie einen Unterschied in der maximal in Flüssigkultur erreichten Konzentration der Bakterien zwischen invasiven Stämmen und Trägerstämmen.
In dieser Arbeit wurden mögliche Gründe für die Hyperletalität bestimmter Meningokokkentypen experimentell untersucht. Insbesondere wird die Frage analysiert, ob die hyperletalen Meningokokkentypen mit einer höheren bakteriellen Last im Blut assoziiert sind und ob sie andere Wachstumscharakteristiken im Vergleich zu ihren Kontrollstämmen in vitro zeigen.
Hierzu erfolgte mittels quantitativer Echtzeit-Polymerase-Kettenreaktion die Bestimmung der bakteriellen Last in 62 Blutproben von Patienten mit bestätigter invasiver Meningokokkenerkrankung über den Nachweis des ctrA-Gens. Darunter waren elf Proben des hyperletalen Feintyps B:P1.7-2,4:F1-5 und fünf Proben des hyperletalen Feintyps C:P1.5,2:F3-3.
Die Wachstumsversuche wurden mit 30 zufällig gewählten Stämmen der hyperletalen Feintypen B:P1.7-2,4:F1-5, C:P1.5-1,10-8:F3-6 und C:P1.5,2:F3-3 mit ihren jeweiligen nach Alter und Geschlecht abgeglichenen nicht zu der Gruppe der hyperletalen Feintypen gehörenden Kontrollstämmen in dem Medium PPM+ durchgeführt.
Die Wachstumsgeschwindigkeit μ sowie die Kapazität A (maximale Konzentrationszunahme als Logarithmus der gemessenen OD im Verhältnis zur Ausgangsdichte ODT0) wurden durch nicht-lineare Regression anhand der modifizierten Gompertz-Funktion ermittelt. Die Messung der optischen Dichte erfolgte alle 30 Minuten über 16 Stunden bei 620nm durch das Gerät TECAN Infinite 200 Pro (Tecan Group Ltd., Männedorf / Schweiz). Die Methode wurde anhand einer publizierten Studie zwischen Trägerstämmen und invasiven Stämmen (Schoen et al., 2014) validiert und bestätigte einen marginalen Unterschied in der optischen Dichte (p=0,057, Wilcoxon-Test) zwischen den Gruppen. Es zeigte sich kein Unterschied in der Wachstumsgeschwindigkeit.
Aus den Ergebnissen dieser Arbeit können drei wesentliche Schlussfolgerungen gezogen werden:
1.) Die Bakterienlast in dieser Stichprobe ist, entgegen der Literatur, nicht abhängig von der Serogruppe und dem Feintyp, jedoch von der Krankheitsmanifestation.
2.) Die Kapazität A ist in der Gruppe der „hyperletalen“ Typen im Vergleich zu den Kontrollstämmen möglicherweise höher.
3.) Größere Stichproben (Nativmaterial, Stämme) sind erforderlich, um die Beobachtungen dieser Studie zu bestätigen.
Die Innenausbauflächen von Krankentransport- bzw. Rettungswagen unterliegen dem Risiko einer Verunreinigung durch Methicillin-resistenten S. aureus (MRSA). In der vorliegenden Arbeit wurden Krankentransport- bzw. Rettungswagen unmittelbar nach dem Transport von MRSA-kolonisierten oder -infizierten Patienten auf MRSA untersucht. Zu diesem Zweck wurden an 2 Stellen der Trage und an 3 Stellen der Innenausbauflächen Proben entnommen.
89 von 100 untersuchten Transporten, welche das Einschlusskriterium einer Transportzeit von weniger als 20 Minuten erfüllten, wurden weitergehend analysiert.
8 der untersuchten Kranken- bzw. Rettungswagen (7,1%) wiesen eine Kontamination auf (90% Konfidenzintervall: 4-14 %), wobei die Transportzeit keinen Einfluss auf die Kontamination hatte.
MRSA wurde nur an der Trage nachgewiesen und zwar ausschließlich am Kopfteil der Trage und an den Tragegriffen. Die beprobten Stellen der Innenausbauflächen waren nicht kontaminiert.
Bei Kurzzeittransporten von MRSA-positiven Patienten sollte daher der Fokus der Desinfektion auf die Oberflächen in unmittelbarer Patientennähe gelegt werden.
Eine weitere Untersuchung von 60 Transporten MRSA-negativer Patienten blieb ohne MRSA-Befund. In 12 dieser Krankentransportwagen wurde jedoch Methicillin-sensibler S. aureus nachgewiesen, der sich ebenfalls vorwiegend an Kopfteil und Handgriffen der Trage fand.
Auch dieses Ergebnis unterstreicht die Bedeutung der Desinfektion patientennaher Flächen unabhängig vom MRSA-Status der transportierten Patienten.
Die Schistosomiasis ist nach wie vor eine der häufigsten parasitären Erkrankungen der Welt und verursacht erhebliche gesundheitliche und wirtschaftliche Folgen, insbesondere in ärmeren, ländlichen Regionen. Durch Immunreaktionen auf die im Wirt abgelegten Eier des Parasiten können sich chronische Verlaufsformen manifestieren. Dabei kann es zu irreversiblen Schäden kommen. Um dies zu verhindern sind eine frühe und sichere Diagnose sowie eine Behandlung mit Praziquantel (PZQ) unabdingbar. Zudem spielt der zuverlässige Nachweis der Schistosomiasis eine Schlüsselrolle bei der Überwachung, Prävention und Kontrolle der Erkrankung. In epidemiologischen Studien findet am häufigsten die mikroskopische Kato-Katz (KK)-Methode zum Nachweis von Schistosoma mansoni Eiern im Stuhl Anwendung. Dieses Verfahren ist äußerst spezifisch und bietet die Möglichkeit der Quantifizierung, wodurch die Intensität der vorliegenden Infektion bestimmt werden kann. Die Sensitivität der Testmethode ist jedoch nur moderat, insbesondere bei einer niedrigen Infektionsintensität. Zudem kann eine Infektion erst nach der Präpatenzzeit nachgewiesen werden. Der ebenfalls häufig eingesetzte urinbasierte Point-of-Care Circulating Cathodic Antigen (POC-CCA)-Test weist zwar eine höhere Sensitivität aber geringere Spezifität als das KK-Verfahren auf. Als hochsensitive und sehr spezifische Methode zur Diagnose der Schistosomiasis hat sich der Nachweis von Schistosoma-spezifischer DNA mittels Real-Time PCR herausgestellt. Allerdings wird für die Durchführung dieser Technik ein gut ausgestattetes Labor benötigt, das sich in der Regel nicht in unmittelbarer Nähe zum Patienten im Feld befindet. Daher ist es besonders wichtig, über praktikable und schnelle Konservierungsmethoden zu verfügen, die bevor die Extraktion und Amplifikation der DNA stattfindet, einen einfachen Transport und eine einfache Lagerung des Probenmaterials ermöglichen.
Das Ziel des ersten Teils der vorliegenden Arbeit war, die Sensitivität und Spezifität der klassischerweise verwendeten KK-Methode und des POC-CCA-Tests mit der
Real-Time PCR- Methode unter Verwendung von Stuhlproben, Urinproben, Serumproben sowie auf Filterpapier getrocknete Blutproben (dried blood spots – DBSs) zu vergleichen. Zudem wurde die Anwendbarkeit der Real-Time PCR aus Serum- und Urinproben zur Therapiekontrolle überprüft. Die dazu notwendigen Studien wurden alle in der Region Mwanza in Tansania durchgeführt, welche als hochendemisch für S. mansoni gilt. Für die Untersuchungen zur stuhlbasierten Real-Time PCR wurden als Studienteilnehmer Schulkinder gewählt. Aufgrund der erforderlichen Blutabnahme wurden die anderen Teilstudien nur mit erwachsenen Probanden durchgeführt. Unter Verwendung der KK-Methode als Goldstandard erzielten die Real-Time PCR aus Stuhlproben und der POC-CCA-Test sehr hohe Sensitivitäten von 99,5% bzw. 89,7%, jedoch nur geringe Spezifitäten von 29,55% und 22,73%. Die KK-Methode weist bekanntermaßen nur eine geringe bis moderate Sensitivität auf und ist daher nicht gut als Referenz geeignet. Deshalb wurde zusätzlich eine latente Klassenanalyse angewandt, um die tatsächlich Erkrankten zu ermitteln und anhand dieser die diagnostische Güte der verwendeten Tests zu bestimmen. Hier zeigte der POC-CCA-Test die höchste Sensitivität (99,5%) sowie eine Spezifität von 63,4%. Der Real-Time PCR-Test hatte eine Sensitivität von 98,7% und die höchste Spezifität (81,2%). Die Spezifität der KK-Technik betrug 72,8%, die Sensitivität war signifikant niedriger (89,7%) als bei den anderen beiden Methoden. Diese Ergebnisse verdeutlichen, dass der POC-CCA-Schnelltest empfindlicher ist als die KK-Methode und zum Screening von S. mansoni-Infektionen eingesetzt werden kann. Die Stuhl-PCR war zwar ebenfalls hochsensitiv und zeigte unter den drei getesteten Diagnoseverfahren die höchste Spezifität, aber aufgrund der höheren Kosten und der komplizierten Anwendung sollte für epidemiologische Untersuchungen in Hochprävalenzregionen der POC-CCA-Test bevorzugt werden. Bei unklaren Diagnosen kann die Real-Time PCR-Methode als Bestätigungstest Anwendung finden.
In der Teilstudie zur serum- und urinbasierten Real-Time PCR in einer endemischen Region vor und nach der Behandlung mit PZQ wurden folgende Ergebnisse erzielt: Unter Verwendung einer kombinierten Referenz aus den Ergebnissen des parasitologischen KK-Tests und / oder der serumbasierten PCR konnte zu Studienbeginn eine Prävalenz von S. mansoni von 77,1% ermittelt werden. In Bezug auf die Sensitivität zeigte der DNA-Nachweis aus Serum (96,3%) und der POC-CCA-Assay (77,8%) die höchsten Ergebnisse. Die urinbasierte Real-Time PCR zeigte die geringste Empfindlichkeit (33,3%). Durch die Behandlung mit Praziquantel wurde eine signifikante Reduktion der S. mansoni Prävalenz erreicht. Zwanzig Wochen nach Therapie konnte durch die KK-Methode keine, mit dem POC-CCA-Test 33,3% und mit der serumbasierten Real-Time PCR 58,3% Infektionen festgestellt werden. Die Analyse der mittels der serumbasierten PCR bestimmten mittleren Ct-Werte im zeitlichen Verlauf zeigte, dass dieser eine Woche nach der Behandlung signifikant abnahm (von 30,3 auf 28) und 20 Wochen später über den Basiswert (34,9) anstieg. Der Ct-Wert ist umgekehrt proportional zur DNA-Ausgangsmenge, die in die PCR eingesetzt wurde. Dies deutet darauf hin, dass kurz nach der Therapie ein DNA-Anstieg zu verzeichnen war und 20 Wochen später weniger DNA als zu Beginn der Studie nachweisbar war. Dieser DNA-Verlauf lässt verschiedene Interpretationsmöglichkeiten zu. Die Daten zeigen jedoch, dass die serumbasierte Real-Time PCR eine ausgezeichnete diagnostische Genauigkeit aufweist. Da die nachgewiesene DNA jedoch keine Rückschlüsse auf das Parasitenstadium zulässt und es sich hierbei auch um DNA aus im Gewebe verbliebenen Eiern oder Reinfektionen handeln könnte, ist diese Methode in Hochprävalenz- Regionen nicht zur Therapiekontrolle geeignet. Die Verwendung von Urin zum DNA-Nachweis erzielte keine vielversprechenden Ergebnisse. Die Sensitivität der Real-Time PCR aus DBSs war ebenfalls sehr gering (45,4%) und kann ohne weitere ausführliche Testung hinsichtlich Lagertemperatur, Lagerdauer, verschiedener Filterpapierarten und Extraktionsmethoden nicht empfohlen werden.
Zusammenfassend zeigten die Ergebnisse dieser Studien, dass sowohl die stuhl- als auch die serumbasierte Real-Time PCR bei der Erkennung und Bewertung der Infektionsprävalenz, einem wichtigen Aspekt epidemiologischer Studien, deutlich empfindlicher ist als das mikroskopische KK-Verfahren. Aufgrund des hohen Kosten- und Personalaufwandes und der Notwendigkeit eines gut ausgestatteten Labors wird sich diese Methode aber nicht zum Screening in hochendemischen Ländern durchsetzen. Sie kann jedoch einen Mehrwert bei der Diagnose der Schistosomiasis bieten, vor allem bei frühen oder leichten Infektionen. Zudem kann diese hochsensitive und spezifische Methode als Bestätigungstest bei unklaren Diagnosen herangezogen werden.
Im zweiten Teil dieser Arbeit wurden malakologische Untersuchungen zur Identifizierung potenzieller Übertragungsorte für die Schistosomiasis rund um die im Viktoriasee gelegene Insel Ijinga durchgeführt. Diese Analysen fanden innerhalb eines Pilotprojektes zur Eliminierung der Erkrankung auf der Insel Ijinga statt, wobei ein intensiviertes Behandlungsprotokoll, welches die gesamte Inselbevölkerung einschloss, Anwendung fand. Die Kontrolle der Praziquanteleffektivität nach mehreren Behandlungsrunden bringt eine Reihe diagnostischer Herausforderungen mit sich. Hier könnte die Beurteilung der Schistosoma-Infektion in den Zwischenwirtschnecken vor und nach der Therapie als Indikator für den Erfolg der Maßnahme dienen. Zu diesem Zweck erfolgte zunächst eine Baseline-Untersuchung, bei der Schnecken an Uferregionen gesammelt wurden, an denen die Inselbewohner häufigen Wasserkontakt hatten. Die Schnecken wurden anhand morphologischer Merkmale identifiziert und mithilfe der Real-Time PCR-Methode auf Infektionen mit S. mansoni untersucht. Insgesamt wurden 35,4% (279/788) S. mansoni- positive Zwischenwirtschnecken (Biomphalaria) detektiert. Dies verdeutlicht, dass an den meisten Wasserkontaktstellen um die Insel Ijinga ein potentielles Risiko für die Übertragung der Schistosomiasis besteht. Die mithilfe der KK-Methode ermittelte Gesamtprävalenz von S. mansoni in der humanen Bevölkerung betrug 68,9%. Nachdem die Bewohner der Insel viermal mit PZQ behandelt wurden, zeigte sich in der kontinuierlich überwachten Sentinelgruppe eine Reduktion der Prävalenz auf 28,7%. Zu diesem Zeitpunkt wurde ebenfalls die Analyse der Schnecken wiederholt und es konnten 16,8% (57/350) Schnecken mit einer S. mansoni Infektion nachgewiesen werden. Die Reduktion der Infektionshäufigkeit in den Schnecken vor und nach der viermaligen Behandlung der Bevölkerung war signifikant (χ² = 74.335, p < 0,001). Dies deutet darauf hin, dass die intermediären Wirtsschnecken zur Überwachung von Kontrollmaßnahmen verwendet werden können.
Die zunehmende Antibiotikaresistenz vieler Krankheitserreger ist ein weltweites Problem, welches zu einem klinischen Bedarf an neuen antimikrobiellen Substanzen führt. Sphingolipide einschließlich Ceramide stellen eine vielfältige Gruppe strukturverwandter Lipide dar und bestehen aus einem Sphingosin-Grundgerüst, welches mit einer Fettsäure verbunden ist. Sowohl das Sphingosin-Grundgerüst allein als auch Sphingolipide zeigen eine antibakterielle Wirkung gegenüber einer Vielzahl pathogener Mikroorganismen. Die Intensität der Hemmung hängt von der Sphingolipidstruktur und dem Mikroorganismus ab. Neuere Studien konnten zeigen, dass Sphingosin, Ceramide und Ceramid-Analoga in N. meningitidis aufgenommen werden und eine bakteriostatische oder bakterizide Wirkung zeigen. Jedoch ist die antibakterielle Wirkungsweise noch nicht genau bekannt. Um mehr über den Wirkmechanismus zu erfahren haben wir die ultrastrukturellen Veränderungen von N. meningitidis nach Inkubation mit azido-funktionalisierten Sphingolipiden mit elektronenmikroskopischen Verfahren (transmissionselektronenmikroskopische und rasterelektronenmikroskopische Aufnahmen) untersucht. Mittels korrelativer Licht- und Elektronenmikroskopie (CLEM) konnten wir die azido-funktionalisierten Sphingolipide nach Aufnahme in N. meningitidis lokalisieren. Zum Anfärben der funktionalisierten Sphingolipide wurde die kupferfreie Azid-Alkin-Cyccloaddition verwendet.
Bioprinting has emerged as a valuable threedimensional (3D) biomanufacturing method to fabricate complex hierarchical cell-containing constructs. Spanning from basic research to clinical translation, sterile starting materials are crucial. In this study, we present pharmacopeia compendial sterilization methods for the commonly used bioink component alginate. Autoclaving (sterilization in saturated steam) and sterile filtration followed by lyophilization as well as the pharmacopeia non-compendial method, ultraviolet (UV)-irradiation for disinfection, were assessed. The impact of the sterilization methods and their effects on physicochemical and rheological properties, bioprinting outcome, and sterilization efficiency of alginate were detailed. Only sterile filtration followed by lyophilization as the sterilization method retained alginate's physicochemical properties and bioprinting behavior while resulting in a sterile outcome. This set of methods provides a blueprint for the analysis of sterilization effects on the rheological and physicochemical pattern of bioink components and is easily adjustable for other polymers used in the field of biofabrication in the future.
Candida lusitaniae is a rare cause of candidemia that is known for its unique capability to rapidly acquire resistance to amphotericin B. We report the case of an adolescent with grade IV graft-vs.-host disease after hematopoietic cell transplantation who developed catheter-associated C. lusitaniae candidemia while on therapeutic doses of liposomal amphotericin B. We review the epidemiology of C. lusitaniae bloodstream infections in adult and pediatric patients, the development of resistance, and its role in breakthrough candidemia. Appropriate species identification, in vitro susceptibility testing, and source control are pivotal to optimal management of C. lusitaniae candidemia. Initial antifungal therapy may consist of an echinocandin and be guided by in vitro susceptibility and clinical response.
The early diagnosis of invasive aspergillosis (IA) relies mainly on computed tomography imaging and testing for fungal biomarkers such as galactomannan (GM). We compared an established ELISA for the detection of GM with a turbidimetric assay for detection of the panfungal biomarker β-D-glucan (BDG) for early diagnosis of IA. A total of 226 serum specimens from 47 proven and seven probable IA cases were analysed. Sensitivity was calculated for samples obtained closest to the day of IA-diagnosis (d0). Additional analyses were performed by including samples obtained during the presumed course of disease. Most IA cases involved the respiratory system (63%), and Aspergillus fumigatus was the most frequently isolated species (59%). For proven cases, sensitivity of BDG/GM analysis was 57%/40%. Including all samples dating from –6 to +1 weeks from d0 increased sensitivities to 74%/51%. Sensitivity of BDG testing was as high as or higher than GM testing for all subgroups and time intervals analysed. BDG testing was less specific (90–93%) than GM testing (99–100%). Combining BDG and GM testing resulted in sensitivity/specificity of 70%/91%. Often, BDG testing was positive before GM testing. Our study backs the use of BDG for diagnosis of suspected IA. We suggest combining BDG and GM to improve the overall sensitivity.
FinO-domain proteins are a widespread family of bacterial RNA-binding proteins with regulatory functions. Their target spectrum ranges from a single RNA pair, in the case of plasmid-encoded FinO, to global RNA regulons, as with enterobacterial ProQ. To assess whether the FinO domain itself is intrinsically selective or promiscuous, we determine in vivo targets of Neisseria meningitidis, which consists of solely a FinO domain. UV-CLIP-seq identifies associations with 16 small non-coding sRNAs and 166 mRNAs. Meningococcal ProQ predominantly binds to highly structured regions and generally acts to stabilize its RNA targets. Loss of ProQ alters transcript levels of >250 genes, demonstrating that this minimal ProQ protein impacts gene expression globally. Phenotypic analyses indicate that ProQ promotes oxidative stress resistance and DNA damage repair. We conclude that FinO domain proteins recognize some abundant type of RNA shape and evolve RNA binding selectivity through acquisition of additional regions that constrain target recognition. FinO-domain proteins are bacterial RNA-binding proteins with a wide range of target specificities. Here, the authors employ UV CLIP-seq and show that minimal ProQ protein of Neisseria meningitidis binds to various small non-coding RNAs and mRNAs involved in virulence.
Neisseria meningitidis (N. meningitidis) is a human commensal that occasionally causes life-threatening infections such as bacterial meningitis and septicemia. Despite experi-mental evidence that the expression of small non-coding RNAs (sRNAs) as well as the RNA chaperone Hfq affect meningococcal physiology, the impact of RNA-based regula-tion (riboregulation) on fitness and virulence in N. meningitidis is only poorly understood. Therefore, this study addressed these issues using a combination of high-throughput tech-nologies.
A differential RNA-sequencing (dRNA-seq) approach was applied to produce a single-nucleotide resolution map of the primary transcriptome of N. meningitidis strain 8013. The dRNA-seq analysis predicted 1,625 transcriptional start sites including 65 putative sRNAs, of which 20 were further validated by northern blot analysis. By Hfq RNA im-munopreci-pitation sequencing a large Hfq-centered post-transcriptional regulatory net-work comprising 23 sRNAs and 401 potential mRNA targets was identified. Rifampicin stability assays demonstrated that Hfq binding confers enhanced stability on its associat-ed sRNAs. Based on these data, the interactions of two paralogous sRNAs and their cog-nate target mRNA prpB were validated in vivo as well as in vitro. Both sRNAs directly repress prpB encoding a methylisocitrate lyse which was previously shown to be involved in meningococcal colonization of the human nasopharynx.
Besides the well-described RNA chaperone Hfq, FinO-domain proteins have recently been recognized as a widespread family of RNA-binding proteins (RBPs) with regulatory roles in diverse bacteria. They display an intriguing bandwidth of target sites, ranging from a single RNA pair as recognized by plasmid-encoded FinO to the global RNA regu-lons of enterobacterial ProQ proteins. To better understand the intrinsic targeting mode of this RBP family, in vivo targets of the minimal ProQ protein of N. meningitidis were de-termined. In vivo UV crosslinking with RNA deep sequencing (UV-CLIP) identified as-sociations of ProQ with 16 sRNAs and 166 mRNAs encoding a variety of biological functions and thus revealed ProQ as another global RBP in meningococci. It could be shown that meningococcal ProQ predominantly binds to highly structured RNA regions including DNA uptake sequences (DUS) and rho-independent transcription terminators and stabilizes many of its RNA targets as proved by rifampicin stability experiments. As expected from the large suite of ProQ-bound RNAs, proQ deletion globally affects both gene and protein expression in N. meningitidis, changing the expression levels of at least 244 mRNAs and 80 proteins. Phenotypic analyses suggested that ProQ promotes oxida-tive stress tolerance and UV damage repair capacity, both of which are required for full virulence of N. meningitidis.
Together, this work uncovers the co-existence of two major post-transcriptional regulons, one governed by ProQ, the other by Hfq, in N. meningitidis. It further highlights the role of these distinct RBPs and its associated sRNAs to bacterial virulence and indicates that riboregulation is likely to contribute to the way how meningococci adapt to different host niches.
Mass critical care caused by the severe acute respiratory syndrome corona virus 2 pandemic poses an extreme challenge to hospitals. The primary goal of hospital disaster preparedness and response is to maintain conventional or contingency care for as long as possible. Crisis care must be delayed as long as possible by appropriate measures. Increasing the intensive care unit (ICU) capacities is essential. In order to adjust surge capacity, the reduction of planned, elective patient care is an adequate response. However, this involves numerous problems that must be solved with a sense of proportion. This paper summarises preparedness and response measures recommended to acute care hospitals.
Super-resolution microscopy has evolved as a powerful method for subdiffraction-resolution fluorescence imaging of cells and cellular organelles, but requires sophisticated and expensive installations. Expansion microscopy (ExM), which is based on the physical expansion of the cellular structure of interest, provides a cheap alternative to bypass the diffraction limit and enable super-resolution imaging on a conventional fluorescence microscope. While ExM has shown impressive results for the magnified visualization of proteins and RNAs in cells and tissues, it has not yet been applied in fungi, mainly due to their complex cell wall. Here we developed a method that enables reliable isotropic expansion of ascomycetes and basidiomycetes upon treatment with cell wall degrading enzymes. Confocal laser scanning microscopy (CLSM) and structured illumination microscopy (SIM) images of 4.5-fold expanded sporidia of Ustilago maydis expressing fluorescent fungal rhodopsins and hyphae of Fusarium oxysporum or Aspergillus fumigatus expressing either histone H1-mCherry together with Lifeact-sGFP or mRFP targeted to mitochondria, revealed details of subcellular structures with an estimated spatial resolution of around 30 nm. ExM is thus well suited for cell biology studies in fungi on conventional fluorescence microscopes.
Azole resistance of the fungal pathogen Aspergillus fumigatus is an emerging problem. To identify novel mechanisms that could mediate azole resistance in A. fumigatus, we analyzed the transcriptome of a mitochondrial fission/fusion mutant that exhibits increased azole tolerance. Approximately 12% of the annotated genes are differentially regulated in this strain. This comprises upregulation of Cyp51A, the azole target structure, upregulation of ATP-binding cassette (ABC) superfamily and major facilitator superfamily (MFS) transporters and differential regulation of transcription factors. To study their impact on azole tolerance, conditional mutants were constructed of seven ABC transporters and 17 transcription factors. Under repressed conditions, growth rates and azole susceptibility of the mutants were similar to wild type. Under induced conditions, several transcription factor mutants showed growth phenotypes. In addition, four ABC transporter mutants and seven transcription factor mutants exhibited altered azole susceptibility. However, deletion of individual identified ABC transporters and transcription factors did not affect the increased azole tolerance of the fission/fusion mutant. Our results revealed the ability of multiple ABC transporters and transcription factors to modulate the azole susceptibility of A. fumigatus and support a model where mitochondrial dysfunctions trigger a drug resistance network that mediates azole tolerance of this mold.
Background
The viral load and tissue distribution of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) remain important questions. The current study investigated SARS-CoV-2 viral load, biodistribution and anti-SARS-CoV-2 antibody formation in patients suffering from severe corona virus disease 2019 (COVID-19) induced acute respiratory distress syndrome (ARDS).
Methods
This is a retrospective single-center study in 23 patients with COVID-19-induced ARDS. Data were collected within routine intensive care. SARS-CoV-2 viral load was assessed via reverse transcription quantitative polymerase chain reaction (RT-qPCR). Overall, 478 virology samples were taken. Anti-SARS-CoV-2-Spike-receptor binding domain (RBD) antibody detection of blood samples was performed with an enzyme-linked immunosorbent assay.
Results
Most patients (91%) suffered from severe ARDS during ICU treatment with a 30-day mortality of 30%. None of the patients received antiviral treatment. Tracheal aspirates tested positive for SARS-CoV-2 in 100% of the cases, oropharyngeal swabs only in 77%. Blood samples were positive in 26% of the patients. No difference of viral load was found in tracheal or blood samples with regard to 30-day survival or disease severity. SARS-CoV-2 was never found in dialysate. Serologic testing revealed significantly lower concentrations of SARS-CoV-2 neutralizing IgM and IgA antibodies in survivors compared to non-survivors (p = 0.009).
Conclusions
COVID-19 induced ARDS is accompanied by a high viral load of SARS-CoV-2 in tracheal aspirates, which remained detectable in the majority throughout intensive care treatment. Remarkably, SARS-CoV-2 RNA was never detected in dialysate even in patients with RNAemia. Viral load or the buildup of neutralizing antibodies was not associated with 30-day survival or disease severity.
Background
The novel coronavirus disease 2019 (COVID-19), caused by severe acute respiratory syndrome coronavirus 2(SARS-CoV-2), has escalated rapidly to a global pandemic stretching healthcare systems worldwide to their limits. Surgeonshave had to immediately react to this unprecedented clinical challenge by systematically repurposing surgical wards.
Purpose
To provide a detailed set of guidelines developed in a surgical ward at University Hospital Wuerzburg to safelyaccommodate the exponentially rising cases of SARS-CoV-2 infected patients without compromising the care of emergencysurgery and oncological patients or jeopardizing the well-being of hospital staff.
Conclusions
The dynamic prioritization of SARS-CoV-2 infected and surgical patient groups is key to preserving life whilemaintaining high surgical standards. Strictly segregating patient groups in emergency rooms, non-intensive care wards andoperating areas prevents viral spread while adequately training and carefully selecting hospital staff allow them to confidentlyand successfully undertake their respective clinical duties.
Delayed natural killer (NK) cell reconstitution after allogeneic stem cell transplantation (alloSCT) is associated with a higher risk of developing invasive aspergillosis. The interaction of NK cells with the human pathogen Aspergillus (A.) fumigatus is mediated by the fungal recognition receptor CD56, which is relocated to the fungal interface after contact. Blocking of CD56 signaling inhibits the fungal mediated chemokine secretion of MIP-1α, MIP-1β, and RANTES and reduces cell activation, indicating a functional role of CD56 in fungal recognition. We collected peripheral blood from recipients of an allograft at defined time points after alloSCT (day 60, 90, 120, 180). NK cells were isolated, directly challenged with live A. fumigatus germ tubes, and cell function was analyzed and compared to healthy age and gender-matched individuals. After alloSCT, NK cells displayed a higher percentage of CD56\(^{bright}\)CD16\(^{dim}\) cells throughout the time of blood collection. However, CD56 binding and relocalization to the fungal contact side were decreased. We were able to correlate this deficiency to the administration of corticosteroid therapy that further negatively influenced the secretion of MIP-1α, MIP-1β, and RANTES. As a consequence, the treatment of healthy NK cells ex vivo with corticosteroids abrogated chemokine secretion measured by multiplex immunoassay. Furthermore, we analyzed NK cells regarding their actin cytoskeleton by Structured Illumination Microscopy (SIM) and flow cytometry and demonstrate an actin dysfunction of NK cells shown by reduced F-actin content after fungal co-cultivation early after alloSCT. This dysfunction remains until 180 days post-alloSCT, concluding that further actin-dependent cellular processes may be negatively influenced after alloSCT. To investigate the molecular pathomechansism, we compared CD56 receptor mobility on the plasma membrane of healthy and alloSCT primary NK cells by single-molecule tracking. The results were very robust and reproducible between tested conditions which point to a different molecular mechanism and emphasize the importance of proper CD56 mobility.
Neisseria meningitidis ist Auslöser invasiver Infektionen, die Sepsis und Meningitis hervorrufen. Bakterielle ADP-Ribosyltransferasen wurden als Toxine zahlreicher Bakterien wie E.coli, V. cholerae und B. pertussis beschrieben, die postranslationale Modifikationen bei eukaryotischen Proteinen mit pathologischer Wirkung für den Menschen hervorrufen. Die ADP-Ribosyltransferase NarE von Neisserien ist auf der Basis von Sequenzhomologien identifiziert worden. Die enzymatische Aktivität des Proteins wurde bereits in Studien gezeigt. Ziel dieser Arbeit war, NarE aus epidemiologischem und populationsbiologischem Blickwinkel zu betrachten.
Insgesamt wurden 576 Meningokokkenisolate (109 Isolate aus der Stammsammlung des Instituts für Hygiene und Mikrobiologie Würzburg und 467 Isolate der Meningococcus Genome Library der Meningitis Research Foundation) auf das Vorhandensein von narE sowie auf Sequenzvariationen untersucht. Das Ergebnis zeigte den Besitz des Gens bei insgesamt 247 Stämmen. Bis auf zwei Punktmutationen waren alle untersuchten narE-Sequenzen identisch. Die narE-positiven Isolate konnten neun klonalen Komplexen zugeordnet werden.
Zusätzlich wurde veranschaulicht, dass das Gen in Komplexen vorkommt, die verwandtschaftlich nicht eng miteinander verbunden sind.
Mittels Western Blot konnte bei allen narE-positiven Meningokokken die Proteinexpression bestätigt werden, wobei ein signifikanter Unterschied zwischen Stämmen des cc32 und cc41/44 festzustellen war. Auf Transkriptionsebene konnte mittels qRT-PCR kein Unterschied zwischen diesen Komplexen ermittelt werden, so dass der Expressionsunterschied auf einem posttranskriptionellen Mechanismus beruhen muss.
Neisseria gonorrhoeae ist ebenfalls im Besitz des Gens wie von Masignani et al. (2003) am Beispiel weniger Isolate beschrieben. In dieser Arbeit konnte für alle 29 getesteten Gonokokken die Insertion von vier Basenpaaren bestätigt werden, die zu einer Verschiebung im Leseraster führt, so dass NarE nicht exprimiert wird. Auch ein Neisseria sicca Stamm beinhaltet und exprimiert das narE-Gen.
Die alveoläre Echinokokkose ist eine lebensbedrohliche Erkrankung, die durch tumorartig in der Leber wachsende Larven (Metazestoden) des Fuchsbandwurms ausgelöst wird. Während Th1-dominierte Immunantworten zur Expulsion des Parasiten führen können, sind Th2-Antworten mit chronischer Infektion assoziiert. Über seine exkretorisch-sekretorischen Produkte (ESPs) nimmt Echinococcus multilocularis Einfluss auf die Polarisierung der Immunantwort. Allerdings ist bislang nur wenig über die zugrundeliegenden Mechanismen und aktiven Komponenten der ESPs bekannt.
Die Immunmodulation durch Eier des Pärchenegels Schistosoma mansoni, der wie E. multilocularis zu den Plattwürmern gehört, ist dagegen schon besser charakterisiert. Hier hat omega-1, eine Ribonuklease der T2-Familie, Aufmerksamkeit als starker Induktor von Th2-Antworten und als Hepatotoxin erregt.
Die Fragestellung dieser Arbeit war nun, ob die T2-RNase des Fuchsbandwurms (EmRNASET2) hinsichtlich ihrer Wirkungen auf Zellen des Immunsystems und der Leber Ähnlichkeiten mit omega-1 besitzt. Es konnte gezeigt werden, dass EmRNASET2 von allen Larvenstadien und auch vom adulten Wurm exprimiert wird. Der Einsatz polyklonaler Antikörper gegen rekombinant in Escherichia coli exprimierte recEmRNASET2 ermöglichte den Nachweis des Proteins in den ESPs von Primärzellen, die das frühe Stadium sich entwickelnder Metazestoden darstellen, und, wenngleich geringer ausgeprägt, in ESPs reifer Metazestoden.
Zur Untersuchung einer möglichen immunmodulatorischen Wirkung wurden dendritische Zellen (DCs) aus murinem Knochenmark generiert und mit Überständen recEmRNASET2-produzierender HEK-Zellen exponiert. Diese zeigten im Vergleich zu Überständen von mit leerem Transfektionsvektor behandelten HEK-Zellen keine signifikante Inhibition der LPS-induzierten Reifung und Interleukin-12-Produktion von DCs, wie sie für omega-1 beschrieben ist. Auch ein Pilotexperiment mit der Leberzelllinie Hep3B lieferte keinen Anhalt für eine hepatotoxische Wirkung von EmRNASET2. Somit sprechen die Ergebnisse dieser Arbeit gegen eine funktionelle Verwandtschaft von EmRNASET2 und omega-1. Unterstützt wird diese Beobachtung durch eine orientierende phylogenetische Untersuchung, in der sich EmRNASET2 näher verwandt zu einer zweiten T2-RNase von S. mansoni zeigte. Omega-1 könnte also das Resultat einer Genduplikation mit anschließender Akquirierung immunmodulatorischer Funktionen sein.
Neisseria meningitidis (meningococcus) is a Gram-negative bacterium responsible for epidemic meningitis and sepsis worldwide. A critical step in the development of meningitis is the interaction of bacteria with cells forming the blood-cerebrospinal fluid barrier, which requires tight adhesion of the pathogen to highly specialized brain endothelial cells. Two endothelial receptors, CD147 and the β2-adrenergic receptor, have been found to be sequentially recruited by meningococci involving the interaction with type IV pilus. Despite the identification of cellular key players in bacterial adhesion the detailed mechanism of invasion is still poorly understood. Here, we investigated cellular dynamics and mobility of the type IV pilus receptor CD147 upon treatment with pili enriched fractions and specific antibodies directed against two extracellular Ig-like domains in living human brain microvascular endothelial cells. Modulation of CD147 mobility after ligand binding revealed by single-molecule tracking experiments demonstrates receptor activation and indicates plasma membrane rearrangements. Exploiting the binding of Shiga (STxB) and Cholera toxin B (CTxB) subunits to the two native plasma membrane sphingolipids globotriaosylceramide (Gb3) and raft-associated monosialotetrahexosylganglioside GM1, respectively, we investigated their involvement in bacterial invasion by super-resolution microscopy. Structured illumination microscopy (SIM) and direct stochastic optical reconstruction microscopy (dSTORM) unraveled accumulation and coating of meningococci with GM1 upon cellular uptake. Blocking of CTxB binding sites did not impair bacterial adhesion but dramatically reduced bacterial invasion efficiency. In addition, cell cycle arrest in G1 phase induced by serum starvation led to an overall increase of GM1 molecules in the plasma membrane and consequently also in bacterial invasion efficiency. Our results will help to understand downstream signaling events after initial type IV pilus-host cell interactions and thus have general impact on the development of new therapeutics targeting key molecules involved in infection.
Background
Ureaplasma species (spp.) are commonly regarded as low-virulent commensals but may cause invasive diseases in immunocompromised adults and in neonates, including neonatal meningitis. The interactions of Ureaplasma spp. with host defense mechanisms are poorly understood. This study addressed Ureaplasma-driven cell death, concentrating on apoptosis as well as inflammatory cell death.
Methods
Human brain microvascular endothelial cells (HBMEC) were exposed to Ureaplasma (U.) urealyticum serovar 8 (Uu8) and U. parvum serovar 3 (Up3). Resulting numbers of dead cells as well as mRNA levels and enzyme activity of key agents in programmed cell death were assessed by flow cytometry, RNA sequencing, and qRT-PCR, respectively. xCELLigence data were used for real-time monitoring of changes in cell adhesion properties.
Results
Both Ureaplasma isolates induced cell death (p < 0.05, vs. broth). Furthermore, Ureaplasma spp. enhanced mRNA levels for genes in apoptosis, including caspase 3 (Up3 p < 0.05, vs. broth), caspase 7 (p < 0.01), and caspase 9 (Up3 p < 0.01). Caspase 3 activity was increased upon Uu8 exposure (p < 0.01). Vice versa, Ureaplasma isolates downregulated mRNA levels for proteins involved in inflammatory cell death, namely caspase 1 (Uu8 p < 0.01, Up3 p < 0.001), caspase 4 (Uu8 p < 0.05, Up3 p < 0.01), NOD-like receptor pyrin domain-containing 3 (Uu8 p < 0.05), and receptor-interacting protein kinase 3 (p < 0.05).
Conclusions
By inducing apoptosis in HBMEC as main constituents of the blood-brain barrier, Ureaplasma spp. may provoke barrier breakdown. Simultaneous suppression of inflammatory cell death may additionally attenuate host defense strategies. Ultimate consequence could be invasive and long-term CNS infections by Ureaplasma spp.
Fungi of the order Mucorales colonize all kinds of wet, organic materials and represent a permanent part of the human environment. They are economically important as fermenting agents of soybean products and producers of enzymes, but also as plant parasites and spoilage organisms. Several taxa cause life-threatening infections, predominantly in patients with impaired immunity. The order Mucorales has now been assigned to the phylum Mucoromycota and is comprised of 261 species in 55 genera. Of these accepted species, 38 have been reported to cause infections in humans, as a clinical entity known as mucormycosis. Due to molecular phylogenetic studies, the taxonomy of the order has changed widely during the last years. Characteristics such as homothallism, the shape of the suspensors, or the formation of sporangiola are shown to be not taxonomically relevant. Several genera including Absidia, Backusella, Circinella, Mucor, and Rhizomucor have been amended and their revisions are summarized in this review. Medically important species that have been affected by recent changes include Lichtheimia corymbifera, Mucor circinelloides, and Rhizopus microsporus. The species concept of Rhizopus arrhizus (syn. R. oryzae) is still a matter of debate. Currently, species identification of the Mucorales is best performed by sequencing of the internal transcribed spacer (ITS) region. Ecologically, the Mucorales represent a diverse group but for the majority of taxa, the ecological role and the geographic distribution remain unknown. Understanding the biology of these opportunistic fungal pathogens is a prerequisite for the prevention of infections, and, consequently, studies on the ecology of the Mucorales are urgently needed.
Zahlreiche humanpathogene bakterielle Erreger können ihre Fähigkeit zur Kolonisation epithelialer Barrieren optimieren, indem sie mit dem Zellzyklus der infizierten Wirtszelle in Wechselwirkung treten und so die Abschilferung und Erneuerung des Epithels verzögern. Die hierbei wirksamen bakteriellen Effektoren sind als „Cyclomoduline“ bekannt und gelten als neue Klasse bakterieller Pathogenitätsfaktoren. Ziel der vorliegenden Promotionsarbeit war es zu untersuchen, ob durch die Infektion menschlicher pharyngealer Epithelzellen mit N. meningitidis der Zellzyklus der Wirtszelle beeinflusst wird. Mit zwei verschiedenen Untersuchungsmethoden konnte übereinstimmend gezeigt werden, dass die Infektion der Epithelzelllinie Detroit 562 mit verschiedenen Meningokokkenisolaten zu einer signifikanten Akkumulation von Epithelzellen in der G1-Phase führte. Dieser Effekt wurde sowohl von pathogenen Meningokokkenstämmen als auch von Trägerstämmen ausgelöst, jedoch nur durch Isolate, die fähig zur Adhärenz und zur Invasion in die Epithelzelle waren. Durch Hitzebehandlung der Bakterien konnte der Zellzyklusarrest vollständig aufgehoben werden. Ebenso konnte der Effekt durch Inkubation der Epithelzellen mit bakteriellen Kulturüberständen und durch Infektion der Zellen mit E. coli-Stämmen, welche die Meningokokkenadhäsine Opa und Opc überexprimieren, nicht ausgelöst werden.
Es konnte weiterhin nachgewiesen werden, dass die Infektion mit N. meningitidis in der Zielzelle zu einer signifikant gesteigerten Expression des CDK-Inhibitors p21WAF1/Cip1 führte, begleitet von einer vermehrten Lokalisation im Zellkern. Auch zeigte sich eine veränderte Proteinexpression der für die G1-Phase relevanten Cycline D und E. Diese scheint sich erst posttranslational zu ereignen, da die unterschiedliche Expression auf mRNA-Ebene nicht festgestellt werden konnte.
Zusammenfassend konnte dargestellt werden, dass die Infektion von Pharynxepithelzellen mit lebenden, zur Adhärenz und Invasion fähigen Meningokokkenstämmen in der menschlichen Zielzelle einen Zellzyklusarrest in der G1-Phase verursacht, vermutlich durch veränderte Expression der Zellzyklusregulatoren p21WAF1/Cip1, Cyclin D und Cyclin E. Möglicherweise stellt die Induktion dieses Zellzyklusarrestes einen wichtigen Schritt in der Pathogenese der bakteriellen Kolonisation des oberen Atemwegsepithels durch N. meningitidis dar.
Meningococcal meningitis is a severe central nervous system infection that occurs when Neisseria meningitidis (Nm) penetrates brain endothelial cells (BECs) of the meningeal blood-cerebrospinal fluid barrier. As a human-specific pathogen, in vivo models are greatly limited and pose a significant challenge. In vitro cell models have been developed, however, most lack critical BEC phenotypes limiting their usefulness. Human BECs generated from induced pluripotent stem cells (iPSCs) retain BEC properties and offer the prospect of modeling the human-specific Nm interaction with BECs. Here, we exploit iPSC-BECs as a novel cellular model to study Nm host-pathogen interactions, and provide an overview of host responses to Nm infection. Using iPSC-BECs, we first confirmed that multiple Nm strains and mutants follow similar phenotypes to previously described models. The recruitment of the recently published pilus adhesin receptor CD147 underneath meningococcal microcolonies could be verified in iPSC-BECs. Nm was also observed to significantly increase the expression of pro-inflammatory and neutrophil-specific chemokines IL6, CXCL1, CXCL2, CXCL8, and CCL20, and the secretion of IFN-γ and RANTES. For the first time, we directly observe that Nm disrupts the three tight junction proteins ZO-1, Occludin, and Claudin-5, which become frayed and/or discontinuous in BECs upon Nm challenge. In accordance with tight junction loss, a sharp loss in trans-endothelial electrical resistance, and an increase in sodium fluorescein permeability and in bacterial transmigration, was observed. Finally, we established RNA-Seq of sorted, infected iPSC-BECs, providing expression data of Nm-responsive host genes. Altogether, this model provides novel insights into Nm pathogenesis, including an impact of Nm on barrier properties and tight junction complexes, and suggests that the paracellular route may contribute to Nm traversal of BECs.
The complement system is pivotal in the defense against invasive disease caused by Neisseria meningitidis (Nme, meningococcus), particularly via the membrane attack complex. Complement activation liberates the anaphylatoxins C3a and C5a, which activate three distinct G-protein coupled receptors, C3aR, C5aR1 and C5aR2 (anaphylatoxin receptors, ATRs). We recently discovered that C5aR1 exacerbates the course of the disease, revealing a downside of complement in Nme sepsis. Here, we compared the roles of all three ATRs during mouse nasal colonization, intraperitoneal infection and human whole blood infection with Nme. Deficiency of complement or ATRs did not alter nasal colonization, but significantly affected invasive disease: Compared to WT mice, the disease was aggravated in C3ar\(^{-/-}\) mice, whereas C5ar1\(^{-/-}\) and C5ar2\(^{-/-}\) mice showed increased resistance to meningococcal sepsis. Surprisingly, deletion of either of the ATRs resulted in lower cytokine/chemokine responses, irrespective of the different susceptibilities of the mice. This was similar in ex vivo human whole blood infection using ATR inhibitors. Neutrophil responses to Nme were reduced in C5ar1\(^{-/-}\) mouse blood. Upon stimulation with C5a plus Nme, mouse macrophages displayed reduced phosphorylation of ERK1/2, when C5aR1 or C5aR2 were ablated or inhibited, suggesting that both C5a-receptors prime an initial macrophage response to Nme. Finally, in vivo blockade of C5aR1 alone (PMX205) or along with C5aR2 (A8\(^{Δ71−73}\)) resulted in ameliorated disease, whereas neither antagonizing C3aR (SB290157) nor its activation with a “super-agonist” peptide (WWGKKYRASKLGLAR) demonstrated a benefit. Thus, C5aR1 and C5aR2 augment disease pathology and are interesting targets for treatment, whereas C3aR is protective in experimental meningococcal sepsis.
Background
Tapeworms lack a canonical piRNA-pathway, raising the question of how they can silence existing mobile genetic elements (MGE). Investigation towards the underlying mechanisms requires information on tapeworm transposons which is, however, presently scarce.
Methods
The presence of densovirus-related sequences in tapeworm genomes was studied by bioinformatic approaches. Available RNA-Seq datasets were mapped against the Echinococcus multilocularis genome to calculate expression levels of densovirus-related genes. Transcription of densovirus loci was further analyzed by sequencing and RT-qPCR.
Results
We herein provide evidence for the presence of densovirus-related elements in a variety of tapeworm genomes. In the high-quality genome of E. multilocularis we identified more than 20 individual densovirus integration loci which contain the information for non-structural and structural virus proteins. The majority of densovirus loci are present as head-to-tail concatemers in isolated repeat containing regions of the genome. In some cases, unique densovirus loci have integrated close to histone gene clusters. We show that some of the densovirus loci of E. multilocularis are actively transcribed, whereas the majority are transcriptionally silent. RT-qPCR data further indicate that densovirus expression mainly occurs in the E. multilocularis stem cell population, which probably forms the germline of this organism. Sequences similar to the non-structural densovirus genes present in E. multilocularis were also identified in the genomes of E. canadensis, E. granulosus, Hydatigera taeniaeformis, Hymenolepis diminuta, Hymenolepis microstoma, Hymenolepis nana, Taenia asiatica, Taenia multiceps, Taenia saginata and Taenia solium.
Conclusions
Our data indicate that densovirus integration has occurred in many tapeworm species. This is the first report on widespread integration of DNA viruses into cestode genomes. Since only few densovirus integration sites were transcriptionally active in E. multilocularis, our data are relevant for future studies into gene silencing mechanisms in tapeworms. Furthermore, they indicate that densovirus-based vectors might be suitable tools for genetic manipulation of cestodes.
Bacterial meningitis is a serious life threatening infection of the CNS. To cause meningitis, blood–borne bacteria need to interact with and penetrate brain endothelial cells (BECs) that comprise the blood–brain barrier. BECs help maintain brain homeostasis and they possess an array of efflux transporters, such as P-glycoprotein (P-gp), that function to efflux potentially harmful compounds from the CNS back into the circulation. Oftentimes, efflux also serves to limit the brain uptake of therapeutic drugs, representing a major hurdle for CNS drug delivery. During meningitis, BEC barrier integrity is compromised; however, little is known about efflux transport perturbations during infection. Thus, understanding the impact of bacterial infection on P-gp function would be important for potential routes of therapeutic intervention. To this end, the meningeal bacterial pathogen, Streptococcus agalactiae, was found to inhibit P-gp activity in human induced pluripotent stem cell-derived BECs, and live bacteria were required for the observed inhibition. This observation was correlated to decreased P-gp expression both in vitro and during infection in vivo using a mouse model of bacterial meningitis. Given the impact of bacterial interactions on P-gp function, it will be important to incorporate these findings into analyses of drug delivery paradigms for bacterial infections of the CNS.
The central nervous system (CNS) barriers are highly specialized cellular barriers that promote brain homeostasis while restricting pathogen and toxin entry. The primary cellular constituent regulating pathogen entry in most of these brain barriers is the brain endothelial cell (BEC) that exhibits properties that allow for tight regulation of CNS entry. Bacterial meningoencephalitis is a serious infection of the CNS and occurs when bacteria can cross specialized brain barriers and cause inflammation. Models have been developed to understand the bacterial – BEC interaction that lead to pathogen crossing into the CNS, however, these have been met with challenges due to these highly specialized BEC phenotypes. This perspective provides a brief overview and outlook of the in vivo and in vitro models currently being used to study bacterial brain penetration, and opinion on improved models for the future.
Although usually asymptomatically colonizing the human nasopharynx, the Gram-negative bacterium Neisseria meningitidis (meningococcus) can spread to the blood stream and cause invasive disease. For survival in blood, N. meningitidis evades the complement system by expression of a polysaccharide capsule and surface proteins sequestering the complement regulator factor H (fH). Meningococcal strains belonging to the sequence type (ST-) 41/44 clonal complex (cc41/44) cause a major proportion of serogroup B meningococcal disease worldwide, but they are also common in asymptomatic carriers. Proteome analysis comparing cc41/44 isolates from invasive disease versus carriage revealed differential expression levels of the outer membrane protein NspA, which binds fH. Deletion of nspA reduced serum resistance and NspA expression correlated with fH sequestration. Expression levels of NspA depended on the length of a homopolymeric tract in the nspA promoter: A 5-adenosine tract dictated low NspA expression, whereas a 6-adenosine motif guided high NspA expression. Screening German cc41/44 strain collections revealed the 6-adenosine motif in 39% of disease isolates, but only in 3.4% of carriage isolates. Thus, high NspA expression is associated with disease, but not strictly required. The 6-adenosine nspA promoter is most common to the cc41/44, but is also found in other hypervirulent clonal complexes.
Ureaplasma species are common colonizers of the adult genitourinary tract and often considered as low-virulence commensals. Intraamniotic Ureaplasma infections, however, facilitate chorioamnionitis and preterm birth, and cases of Ureaplasma-induced neonatal sepsis, pneumonia, and meningitis raise a growing awareness of their clinical relevance. In vitro studies are scarce but demonstrate distinct Ureaplasma-driven impacts on immune mechanisms. The current study addressed cytokine and chemokine responses upon exposure of native or lipopolysaccharide (LPS) co-stimulated human brain microvascular endothelial cells (HBMEC) to Ureaplasma urealyticum or U. parvum, using qRT-PCR, RNA sequencing, multi-analyte immunoassay, and flow cytometry. Ureaplasma exposure in native HBMEC reduced monocyte chemoattractant protein (MCP)-3 mRNA expression (p < 0.01, vs. broth). In co-stimulated HBMEC, Ureaplasma spp. attenuated LPS-evoked mRNA responses for C-X-C chemokine ligand 5, MCP-1, and MCP-3 (p < 0.05, vs. LPS) and mitigated LPS-driven interleukin (IL)-1α protein secretion, as well as IL-8 mRNA and protein responses (p < 0.05). Furthermore, Ureaplasma isolates increased C-X-C chemokine receptor 4 mRNA levels in native and LPS co-stimulated HBMEC (p < 0.05). The presented results may imply immunomodulatory capacities of Ureaplasma spp. which may ultimately promote chronic colonization and long-term neuroinflammation.
The mold Fusarium is a ubiquitous fungus causing plant, animal and human infections. In humans, Fusarium spp. are the major cause of eye infections in patients wearing contact lenses or after local trauma. Systemic infections by Fusarium spp. mainly occur in immunosuppressed patients and can disseminate throughout the human body. Due to high levels of resistance to antifungals a fast identification of the causative agent is an urgent need. By using a probe-based real-time PCR assay specific for the genus Fusarium we analysed several different clinical specimens detecting Fusarium spp. commonly found in clinical samples in Germany. Also, a large collection of lung fluid samples of haematological patients was analysed (n = 243). In these, two samples (0.8%) were reproducibly positive, but only one could be confirmed by sequencing. For this case of probable invasive fungal disease (IFD) culture was positive for Fusarium species. Here we describe a rapid, probe-based real-time PCR assay to specifically detect DNA from a broad range of Fusarium species and its application to clinically relevant specimens.
Objective
The aim of this study was to determine the prevalence of Neisseria meningitidis, Haemophilus influenzae, Streptococcus pneumoniae, group A Streptococcus (GAS), and Staphylococcus aureus in asymptomatic elderly people and to unravel risk factors leading to colonization.
Methods
A multi-centre cross-sectional study was conducted including 677 asymptomatic adults aged 65 years or more, living at home or in nursing homes. Study areas were Greater Aachen (North-Rhine-Westphalia) and Wuerzburg (Bavaria), both regions with medium to high population density. Nasal and oropharyngeal swabs as well as questionnaires were collected from October 2012 to May 2013. Statistical analysis included multiple logistic regression models.
Results
The carriage rate was 1.9% ([95%CI: 1.0–3.3%]; 13/677) for H. influenzae, 0.3% ([95%CI: 0–1.1%]; 2/677) for N. meningitidis and 0% ([95% CI: 0–0.5%]; 0/677) for S. pneumoniae and GAS. Staphylococcus aureus was harboured by 28.5% of the individuals ([95% CI: 25.1–32.1%]; 193/677) and 0.7% ([95% CI: 0.2–1.7%]; 5/677) were positive for methicillin-resistant S. aureus. Among elderly community-dwellers colonization with S. aureus was significantly associated with higher educational level (adjusted OR: 1.905 [95% CI: 1.248–2.908]; p = 0.003). Among nursing home residents colonization was associated with being married (adjusted OR: 3.367 [1.502–7.546]; p = 0.003).
Conclusion
The prevalence of N. meningitidis, H. influenzae, S. pneumoniae and GAS was low among older people in Germany. The S. aureus rate was expectedly high, while MRSA was found in less than 1% of the individuals.
Here, we present the unique case of a 51‐year‐old German patient with multiple myeloma excreting Ascaris lumbricoides in his stool five weeks after allogeneic hematopoietic stem cell transplantation. Stool analysis remained negative for the presence of eggs, and there was no eosinophilia in the peripheral blood at any time around stem cell transplantation. The patient was commenced on a three‐day treatment with mebendazole, which was well tolerated. No serious interactions with the concomitant post‐transplant medication or negative effects on the hematopoiesis were observed, and the myeloma still is in complete remission. To our knowledge, this is the first report on excretion of A lumbricoides in the context of allogeneic stem cell transplantation. The case is remarkable with view to the fact that the parasite has supposedly survived all courses of myeloma treatment including autologous and allogeneic conditioning. Parasitosis with A lumbricoides has a worldwide prevalence of about a billion and is extremely rare in northern Europe. Possibly the patient got infected during a trip to Egypt years before multiple myeloma was diagnosed.
Background and Objective: Staphylococcus aureus is one of the major pathogens of nosocomial infections as wells as community-acquired (CA) infections worldwide. So far, large-scale comprehensive molecular and epidemiological characterisation of S. aureus from very diverse settings has not been carried out in India. The objective of this study is to evaluate the molecular, epidemiological and virulence characteristics of S. aureus in both community and hospital settings in Chennai, southern India. Methods: S. aureus isolates were obtained from four different groups (a) healthy individuals from closed community settings, (b) inpatients from hospitals, (c) outpatients from hospitals, representing isolates of hospital-community interface and (d) HIV-infected patients to define isolates associated with the immunocompromised. Antibiotic susceptibility testing, multiplex polymerase chain reactions for detection of virulence and resistance determinants, molecular typing including Staphylococcal cassette chromosome mec (SCCmec) and agr typing, were carried out. Sequencing-based typing was done using spa and multilocus sequence typing (MLST) methods. Clonal complexes (CC) of hospital and CA methicillin-resistant S. aureus (MRSA) were identified and compared for virulence and resistance.
Results and Conclusion: A total of 769 isolates of S. aureus isolates were studied. The prevalence of MRSA was found to be 7.17%, 81.67%, 58.33% and 22.85% for groups a, b, c and d, respectively. Of the four SCCmec types (I, III, IV and V) detected, SCCmec V was found to be predominant. Panton-Valentine leucocidin toxin genes were detected among MRSA isolates harbouring SCCmec IV and V. A total of 78 spa types were detected, t657 being the most prevalent. 13 MLST types belonging to 9 CC were detected. CC1 (ST-772, ST-1) and CC8 (ST238, ST368 and ST1208) were found to be predominant among MRSA. CA-MRSA isolates with SCCmec IV and V were isolated from all study groups including hospitalised patients and were found to be similar by molecular tools. This shows that CA MRSA has probably infiltrated into the hospital settings.
Background
Colonization with Staphylococcus aureus has been identified as a risk for subsequent occurrence of infection. This study investigated the relationship between S. aureus colonization of patients and healthcare workers (HCWs), and subsequent surgical site infections (SSI).
Methods
Between December 2014 and September 2015, a total of 930 patients and 143 HCWs were enrolled from the Bugando Medical Centre and Sekou Toure hospital in Mwanza, Tanzania. On admission and discharge nasal swabs, with an additional of wound swab for those who developed SSI were collected from patients whereas HCWs were swabbed once. Identification and antimicrobial susceptibility testing were done by VITEK-MS and VITEK-2, respectively. Detection of Panton Valentine leukocidin (PVL) and mecA genes was done by PCR. S. aureus isolates were further characterized by spa typing and Multi-Locus Sequence Typing (MLST).
Results
Among 930 patients screened for S. aureus on admission, 129 (13.9%) were positive of which 5.4% (7/129) were methicillin-resistant S. aureus (MRSA). Amongst 363 patients rescreened on discharge, 301 patients had been tested negative on admission of whom 29 (9.6%) turned positive after their hospital stay. Three (10.3%) of the 29 acquired S. aureus were MRSA. Inducible Clindamycin resistance occurred more often among acquired S. aureus isolates than among isolates from admission [34.5% (10/29) vs. 17.1% (22/129), P = 0.018]. S. aureus contributed to 21.1% (n = 12) of the 57 cases of investigated SSIs among 536 patients followed. Seven out of eight S. aureus carriage/infection pairs had the same spa and sequence types. The previously reported dominant PVL-positive ST88 MRSA strain with spa type t690 was detected in patients and HCW.
Conclusion
A significant proportion of patients acquired S. aureus during hospitalization. The finding of more than 90% of S. aureus SSI to be of endogenous source underscores the need of improving infection prevention and control measures including screening and decolonization of high risk patients.
Migration and interactions of immune cells are routinely studied by time-lapse microscopy of in vitro migration and confrontation assays. To objectively quantify the dynamic behavior of cells, software tools for automated cell tracking can be applied. However, many existing tracking algorithms recognize only rather short fragments of a whole cell track and rely on cell staining to enhance cell segmentation. While our previously developed segmentation approach enables tracking of label-free cells, it still suffers from frequently recognizing only short track fragments. In this study, we identify sources of track fragmentation and provide solutions to obtain longer cell tracks. This is achieved by improving the detection of low-contrast cells and by optimizing the value of the gap size parameter, which defines the number of missing cell positions between track fragments that is accepted for still connecting them into one track. We find that the enhanced track recognition increases the average length of cell tracks up to 2.2-fold. Recognizing cell tracks as a whole will enable studying and quantifying more complex patterns of cell behavior, e.g. switches in migration mode or dependence of the phagocytosis efficiency on the number and type of preceding interactions. Such quantitative analyses will improve our understanding of how immune cells interact and function in health and disease.
Das Opc-Protein ist ein Außenmembranprotein von Meningokokken, das über extrazelluläre Matrixproteine mit Integrinen der Wirtszelle interagiert. Opc ist in Menschen immunogen und induziert bakterizide Antikörper. Das Opc-Protein wurde daher als aussichtsreicher Impfstoff-Kandidat angesehen, da es außerdem relativ gut konserviert ist. Allerdings wird das Opc-Protein nicht von allen Meningokokkenstämmen exprimiert. Einerseits fehlt das opc-Gen in einigen klonalen Komplexen (z.B. ST-8, ST-11, ST-53), andererseits ist die Opc-Expression nicht konstitutiv wegen einer phasenvariablen Transkription, die auf einem Poly-Cytidin-Bereich im Promotor des opc-Gens beruht.
In dieser Arbeit wurde die Präsenz des opc-Gens und die Opc-Expression in zwei großen Sammlungen deutscher Meningokokkenisolate von invasiven Erkrankungen (n=1141) und gesunden Trägern (n=792) untersucht.
Das opc-Gen war bei 71% der invasiven und 77% der Trägerstämme nachweisbar. Der größte Teil der opc-Gen negativen Stämme gehörte zu den klonalen Komplexen ST-8, ST-11, ST-213, ST-231, ST-334 und ST-53.
Der Anteil opc-positiver Stämme, die Opc in vitro exprimieren, war bei den invasiven Stämmen kleiner als bei den Trägerstämmen (13% vs. 29%, p<0,001, Chi-square-Test).
Der größere Anteil Opc-exprimierender Trägerstämme ist u.a. am ehesten mit der Überrepräsentation von wenig pathogenen klonalen Komplexen (ST-23, ST-35, ST-198) mit einer hohen Opc-Expressionsrate zu erklären.
24 von den 176 invasiven Stämmen mit einer Anzahl von 11 - 14 Cs in der Promotor-Region, die die Opc-Expression begünstigt, zeigten weder im ELISA noch im Westernblot eine Opc-Expression. Bei 14 dieser 24 Stämme wurde als Ursache ein phasenvariabler, intragenischer Poly-Adenin-Bereich identifiziert, der zu einer Leserasterverschiebung führte.
Die Vermutung mehrerer Autoren, dass die Opc-Expression mit dem klinischen Bild der Meningitis verknüpft ist, konnte mit der hier genutzten großen Stammsammlung nicht bestätigt werden. Invasive Stämme, die das Opc-Protein exprimierten, wurden genauso häufig von Patienten mit dem klinischen Bild der Meningitis isoliert wie Stämme, die das Opc-Protein nicht exprimierten (46% vs. 47%, Chi-square-Test: p<0,9). Allerdings gibt es eine starke Assoziation der Gegenwart des opc-Gens mit dem klinischen Merkmal Meningitis. Dieser Befund gibt Anlass zu der Hypothese, dass in vitro und in vivo Expression von Opc sich unterscheiden.
Zusammenfassend lässt sich festhalten, dass das Opc-Protein nur in 19,8% aller Isolate (invasive und Trägerstämme zusammengenommen) exprimiert wurde. Es zeigte sich eine Tendenz zu häufigerer Opc-Expression in apathogenen Trägerisolaten. Das Vorhandensein des opc-Gens, nicht aber die in vitro Expression konnten mit dem klinischen Merkmal Meningitis assoziiert werden. Zusätzlich wurde ein weiterer Mechanismus der intragenischen Phasenvariation beschrieben.
Sepsis caused by Neisseria meningitidis (meningococcus) is a rapidly progressing, life-threatening disease. Because its initial symptoms are rather unspecific, medical attention is often sought too late, i.e., when the systemic inflammatory response is already unleashed. This in turn limits the success of antibiotic treatment. The complement system is generally accepted as the most important innate immune determinant against invasive meningococcal disease since it protects the host through the bactericidal membrane attack complex. However, complement activation concomitantly liberates the C5a peptide, and it remains unclear whether this potent anaphylatoxin contributes to protection and/or drives the rapidly progressing immunopathogenesis associated with meningococcal disease. Here, we dissected the specific contribution of C5a receptor 1 (C5aR1), the canonical receptor for C5a, using a mouse model of meningococcal sepsis. Mice lacking C3 or C5 displayed susceptibility that was enhanced by >1,000-fold or 100-fold, respectively, consistent with the contribution of these components to protection. In clear contrast, C5ar1\(^{-/-}\) mice resisted invasive meningococcal infection and cleared N. meningitidis more rapidly than wild-type (WT) animals. This favorable outcome stemmed from an ameliorated inflammatory cytokine response to N. meningitidis in C5ar1\(^{-/-}\) mice in both in vivo and ex vivo whole-blood infections. In addition, inhibition of C5aR1 signaling without interference with the complement bactericidal activity reduced the inflammatory response also in human whole blood. Enticingly, pharmacologic C5aR1 blockade enhanced mouse survival and lowered meningococcal burden even when the treatment was administered after sepsis induction. Together, our findings demonstrate that C5aR1 drives the pathophysiology associated with meningococcal sepsis and provides a promising target for adjunctive therapy.
Importance:
The devastating consequences of N. meningitidis sepsis arise due to the rapidly arising and self-propagating inflammatory response that mobilizes antibacterial defenses but also drives the immunopathology associated with meningococcemia. The complement cascade provides innate broad-spectrum protection against infection by directly damaging the envelope of pathogenic microbes through the membrane attack complex and triggers an inflammatory response via the C5a peptide and its receptor C5aR1 aimed at mobilizing cellular effectors of immunity. Here, we consider the potential of separating the bactericidal activities of the complement cascade from its immune activating function to improve outcome of N. meningitidis sepsis. Our findings demonstrate that the specific genetic or pharmacological disruption of C5aR1 rapidly ameliorates disease by suppressing the pathogenic inflammatory response and, surprisingly, allows faster clearance of the bacterial infection. This outcome provides a clear demonstration of the therapeutic benefit of the use of C5aR1-specific inhibitors to improve the outcome of invasive meningococcal disease.
Background:
Atypical chemokine receptor 3 (ACKR3, synonym CXCR7) is increasingly considered relevant in neuroinflammatory conditions, in which its upregulation contributes to compromised endothelial barrier function and may ultimately allow inflammatory brain injury. While an impact of ACKR3 has been recognized in several neurological autoimmune diseases, neuroinflammation may also result from infectious agents, including Ureaplasma species (spp.). Although commonly regarded as commensals of the adult urogenital tract, Ureaplasma spp. may cause invasive infections in immunocompromised adults as well as in neonates and appear to be relevant pathogens in neonatal meningitis. Nonetheless, clinical and in vitro data on Ureaplasma-induced inflammation are scarce.
Methods:
We established a cell culture model of Ureaplasma meningitis, aiming to analyze ACKR3 variances as a possible pathomechanism in Ureaplasma-associated neuroinflammation. Non-immortalized human brain microvascular endothelial cells (HBMEC) were exposed to bacterial lipopolysaccharide (LPS) or tumor necrosis factor-α (TNF-α), and native as well as LPS-primed HBMEC were cultured with Ureaplasma urealyticum serovar 8 (Uu8) and U. parvum serovar 3 (Up3). ACKR3 responses were assessed via qRT-PCR, RNA sequencing, flow cytometry, and immunocytochemistry.
Results:
LPS, TNF-α, and Ureaplasma spp. influenced ACKR3 expression in HBMEC. LPS and TNF-α significantly induced ACKR3 mRNA expression (p < 0.001, vs. control), whereas Ureaplasma spp. enhanced ACKR3 protein expression in HBMEC (p < 0.01, vs. broth control). Co-stimulation with LPS and either Ureaplasma isolate intensified ACKR3 responses (p < 0.05, vs. LPS). Furthermore, stimulation wielded a differential influence on the receptor’s ligands.
Conclusions:
We introduce an in vitro model of Ureaplasma meningitis. We are able to demonstrate a pro-inflammatory capacity of Ureaplasma spp. in native and, even more so, in LPS-primed HBMEC, underlining their clinical relevance particularly in a setting of co-infection. Furthermore, our data may indicate a novel role for ACKR3, with an impact not limited to auto-inflammatory diseases, but extending to infection-related neuroinflammation as well. AKCR3-induced blood-brain barrier breakdown might constitute a potential common pathomechanism.
Neisseria meningitidis (meningococcus) causes invasive diseases such as meningitis or septicaemia. Ex vivo infection of human whole blood is a valuable tool to study meningococcal virulence factors and the host innate immune responses. In order to consider effects of cellular mediators, the coagulation cascade must be inhibited to avoid clotting. There is considerable variation in the anticoagulants used among studies of N. meningitidis whole blood infections, featuring citrate, heparin or derivatives of hirudin, a polypeptide from leech saliva. Here, we compare the influence of these three different anticoagulants, and additionally Mg/EGTA, on host innate immune responses as well as on viability of N. meningitidis strains isolated from healthy carriers and disease cases, reflecting different sequence types and capsule phenotypes. We found that the anticoagulants significantly impact on cellular responses and, strain-dependently, also on bacterial survival. Hirudin does not inhibit complement and is therefore superior over the other anticoagulants; indeed hirudin-plasma most closely reflects the characteristics of serum during N. meningitidis infection. We further demonstrate the impact of heparin on complement activation on N. meningitidis and its consequences on meningococcal survival in immune sera, which appears to be independent of the heparin binding antigens Opc and NHBA.
The host's defense against invasive mold infections relies on diverse antimicrobial activities of innate immune cells. However, studying these mechanisms in vitro is complicated by the filamentous nature of such pathogens that typically form long, branched, multinucleated and compartmentalized hyphae. Here we describe a novel method that allows for the visualization and quantification of the antifungal killing activity exerted by human granulocytes against hyphae of the opportunistic pathogen Aspergillus fumigatus. The approach relies on the distinct impact of fungal cell death on the morphology of mitochondria that were visualized with green fluorescent protein (GFP). We show that oxidative stress induces complete fragmentation of the tubular mitochondrial network which correlates with cell death of affected hyphae. Live cell microscopy revealed a similar and non-reversible disruption of the mitochondrial morphology followed by fading of fluorescence in Aspergillus hyphae that were killed by human granulocytes. Quantitative microscopic analysis of fixed samples was subsequently used to estimate the antifungal activity. By utilizing this assay, we demonstrate that lipopolysaccharides as well as human serum significantly increase the killing efficacy of the granulocytes. Our results demonstrate that evaluation of the mitochondrial morphology can be utilized to assess the fungicidal activity of granulocytes against A. fumigatus hyphae.
Bloodstream infections by the human-pathogenic fungi Candida albicans and Candida glabrata increasingly occur in hospitalized patients and are associated with high mortality rates. The early immune response against these fungi in human blood comprises a concerted action of humoral and cellular components of the innate immune system. Upon entering the blood, the majority of fungal cells will be eliminated by innate immune cells, i.e., neutrophils and monocytes. However, recent studies identified a population of fungal cells that can evade the immune response and thereby may disseminate and cause organ dissemination, which is frequently observed during candidemia. In this study, we investigate the so far unresolved mechanism of fungal immune evasion in human whole blood by testing hypotheses with the help of mathematical modeling. We use a previously established state-based virtual infection model for whole-blood infection with C. albicans to quantify the immune response and identified the fungal immune-evasion mechanism. While this process was assumed to be spontaneous in the previous model, we now hypothesize that the immune-evasion process is mediated by host factors and incorporate such a mechanism in the model. In particular, we propose, based on previous studies that the fungal immune-evasion mechanism could possibly arise through modification of the fungal surface by as of yet unknown proteins that are assumed to be secreted by activated neutrophils. To validate or reject any of the immune-evasion mechanisms, we compared the simulation of both immune-evasion models for different infection scenarios, i.e., infection of whole blood with either C. albicans or C. glabrata under non-neutropenic and neutropenic conditions. We found that under non-neutropenic conditions, both immune-evasion models fit the experimental data from whole-blood infection with C. albicans and C. glabrata. However, differences between the immune-evasion models could be observed for the infection outcome under neutropenic conditions with respect to the distribution of fungal cells across the immune cells. Based on these predictions, we suggested specific experimental studies that might allow for the validation or rejection of the proposed immune-evasion mechanism.
Tuberculosis (TB) and the spread of Mycobacterium tuberculosis complex (MTBC) strains resistant against rifampin (RIF) and isoniazid (INH) pose a serious threat to global health. However, rapid and reliable MTBC detection along with RIF/INH susceptibility testing are challenging in low prevalence countries due to the higher rate of false positives. Here, we provide the first performance data for the artus MTBC PCR assay in a low prevalence setting. We analyze 1323 respiratory and 311 non-respiratory samples with the artus MTBC PCR assay as well as by mycobacterial culture and microscopy. We propose retesting of specimens in duplicate and consideration of a determined cycle-threshold value cut-off greater than 34, as this significantly increases accuracy, specificity, and negative predictive value without affecting sensitivity. Furthermore, we tested fourteen MTBC positive samples with the GenoType MTBDRplus test and demonstrate that using an identical DNA extraction protocol for both assays does not impair downstream genotypic testing for RIF and INH susceptibility. In conclusion, our procedure optimizes the use of the artus MTB assay with workload efficient methods in a low incidence setting. Combining the modified artus MTB with the GenoType MTBDRplus assays allows rapid and accurate detection of MTBC and RIF/INH resistance.
Background:
Commensal bacteria like Neisseria meningitidis sometimes cause serious disease. However, genomic comparison of hyperinvasive and apathogenic lineages did not reveal unambiguous hints towards indispensable virulence factors. Here, in a systems biological approach we compared gene expression of the invasive strain MC58 and the carriage strain α522 under different ex vivo conditions mimicking commensal and virulence compartments to assess the strain-specific impact of gene regulation on meningococcal virulence.
Results:
Despite indistinguishable ex vivo phenotypes, both strains differed in the expression of over 500 genes under infection mimicking conditions. These differences comprised in particular metabolic and information processing genes as well as genes known to be involved in host-damage such as the nitrite reductase and numerous LOS biosynthesis genes. A model based analysis of the transcriptomic differences in human blood suggested ensuing metabolic flux differences in energy, glutamine and cysteine metabolic pathways along with differences in the activation of the stringent response in both strains. In support of the computational findings, experimental analyses revealed differences in cysteine and glutamine auxotrophy in both strains as well as a strain and condition dependent essentiality of the (p)ppGpp synthetase gene relA and of a short non-coding AT-rich repeat element in its promoter region.
Conclusions:
Our data suggest that meningococcal virulence is linked to transcriptional buffering of cryptic genetic variation in metabolic genes including global stress responses. They further highlight the role of regulatory elements for bacterial virulence and the limitations of model strain approaches when studying such genetically diverse species as N. meningitidis.
Some members of the physiological human microbiome occasionally cause life-threatening disease even in immunocompetent individuals. A prime example of such a commensal pathogen is Neisseria meningitidis, which normally resides in the human nasopharynx but is also a leading cause of sepsis and epidemic meningitis. Using N. meningitidis as model organism, we tested the hypothesis that virulence of commensal pathogens is a consequence of within host evolution and selection of invasive variants due to mutations at contingency genes, a mechanism called phase variation. In line with the hypothesis that phase variation evolved as an adaptation to colonize diverse hosts, computational comparisons of all 27 to date completely sequenced and annotated meningococcal genomes retrieved from public databases showed that contingency genes are indeed enriched for genes involved in host interactions. To assess within-host genetic changes in meningococci, we further used ultra-deep whole-genome sequencing of throat-blood strain pairs isolated from four patients suffering from invasive meningococcal disease. We detected up to three mutations per strain pair, affecting predominantly contingency genes involved in type IV pilus biogenesis. However, there was not a single (set) of mutation(s) that could invariably be found in all four pairs of strains. Phenotypic assays further showed that these genetic changes were generally not associated with increased serum resistance, higher fitness in human blood ex vivo or differences in the interaction with human epithelial and endothelial cells in vitro. In conclusion, we hypothesize that virulence of meningococci results from accidental emergence of invasive variants during carriage and without within host evolution of invasive phenotypes during disease progression in vivo.
Background
The role of hospital water systems in the development of Pseudomonas aeruginosa (P. aeruginosa) surgical site infections (SSIs) in low-income countries is barely studied. This study characterized P. aeruginosa isolates from patients and water in order to establish possible epidemiological links.
Methods:
Between December 2014 and September 2015, rectal and wound swabs, and water samples were collected in the frame of active surveillance for SSIs in the two Tanzanian hospitals. Typing of P. aeruginosa was done by multi-locus sequence typing.
Results:
Of 930 enrolled patients, 536 were followed up, of whom 78 (14.6%, 95% CI; 11.6–17.5) developed SSIs. P. aeruginosa was found in eight (14%) of 57 investigated wounds. Of the 43 water sampling points, 29 were positive for P. aeruginosa. However, epidemiological links to wound infections were not confirmed. The P. aeruginosa carriage rate on admission was 0.9% (8/930). Of the 363 patients re-screened upon discharge, four (1.1%) possibly acquired P. aeruginosa during hospitalization. Wound infections of the three of the eight P. aeruginosa SSIs were caused by a strain of the same sequence type (ST) as the one from intestinal carriage. Isolates from patients were more resistant to antibiotics than water isolates.
Conclusions:
The P. aeruginosa SSI rate was low. There was no evidence for transmission from tap water. Not all P. aeruginosa SSI were proven to be endogenous, pointing to other routes of transmission.
Introduction.
Tropheryma whipplei is the causative agent of Whipple’s disease. Gastrointestinal and lymphatic tissues are affected in the majority of cases, resulting in diarrhoea, malabsorption and fever. Here, we report a rare case of ocular manifestation in a patient lacking the typical Whipple symptoms.
Case presentation.
A 74-year-old Caucasian female presented with blurred vision in the right eye over a period of 1–2 months, accompanied by stinging pain and conjunctival hyperaemia for the last 2 days. Upon admission, visual acuity was hand motion in the affected eye. Ophthalmological examination showed typical signs of intraocular inflammation. Diagnostic and therapeutic pars plana vitrectomy including vitreous biopsy and intravitreal instillation of vancomycin and amikacin was performed within hours of initial presentation. Both microscopic analysis and microbial cultures of the vitreous biopsy remained negative for bacteria and fungi. The postoperative antibiotic regime included intravenous administration of ceftriaxone in combination with topical tobramycin and ofloxacin. Due to the empirical therapy the inflammation ceased and the patient was discharged after 5 days with cefpodoxime orally and local antibiotic and steroidal therapy. Meanwhile, the vitreous body had undergone testing by PCR for the eubacterial 16S rRNA gene, which was found to be positive. Analysis of the PCR product revealed a specific sequence of T. whipplei.
Conclusion.
In our patient, endophthalmitis was the first and only symptom of Morbus Whipple, while most patients with Whipple’s disease suffer from severe gastrointestinal symptoms. 16S rDNA PCR should be considered for any intraocular infection when microscopy and standard culture methods remain negative.
Background
Data on ESBL carriage of healthy people including children are scarce especially in developing countries. We analyzed the prevalence and genotypes of ESBL-producing Enterobacteriaceae (EPE) in Tanzanian street children with rare contact to healthcare facilities but significant interactions with the environment, animals and other people.
Methodology/ Principle findings
Between April and July 2015, stool samples of 107 street children, who live in urban Mwanza were analyzed for EPE. Intestinal carriage of EPE was found in 34 (31.8%, 95% CI; 22.7–40.3) children. Of the 36 isolates from 34 children, 30 (83.3%) were Escherichia coli (E. coli) and six Klebsiella pneumoniae (K. pneumoniae). Out of 36 isolates, 36 (100%), 35 (97%), 25 (69%) and 16 (44%) were resistant to tetracycline, trimethoprim-sulfamethoxazole, ciprofloxacin and gentamicin, respectively. Beta-lactamase genes and the multilocus sequence types of E. coli and K. pneumoniae were characterized. ESBL gene bla\(_{CTX-M-15}\) was detected in 75% (27/36) of ESBL isolates. Sequence types (STs) 131, 10, 448 and 617 were the most prevalent in E. coli. Use of local herbs (OR: 3.5, 95% CI: 1.51–8.08, P = 0.003) and spending day and night on streets (OR: 3.6, 95% CI: 1.44–8.97, P = 0.005) were independent predictors of ESBL carriage.
Conclusions/ Significance
We observed a high prevalence of bla\(_{CTX-M-15}\) in EPE collected from street children in Tanzania. Detection of E. coli STs 131, 10, 38 and 648, which have been observed worldwide in animals and people, highlights the need for multidisciplinary approaches to understand the epidemiology and drivers of antimicrobial resistance in low-income countries.
Certain fatty acids and sphingoid bases found at mucosal surfaces are known to have antibacterial activity and are thought to play a more direct role in innate immunity against bacterial infections. Herein, we analysed the antibacterial activity of sphingolipids, including the sphingoid base sphingosine as well as short-chain C\(_{6}\) and long-chain C\(_{16}\)-ceramides and azido-functionalized ceramide analogs against pathogenic Neisseriae. Determination of the minimal inhibitory concentration (MIC) and minimal bactericidal concentration (MBC) demonstrated that short-chain ceramides and a ω-azido-functionalized C\(_{6}\)-ceramide were active against Neisseria meningitidis and N. gonorrhoeae, whereas they were inactive against Escherichia coli and Staphylococcus aureus. Kinetic assays showed that killing of N. meningitidis occurred within 2 h with ω–azido-C\(_{6}\)-ceramide at 1 X the MIC. Of note, at a bactericidal concentration, ω–azido-C\(_{6}\)-ceramide had no significant toxic effect on host cells. Moreover, lipid uptake and localization was studied by flow cytometry and confocal laser scanning microscopy (CLSM) and revealed a rapid uptake by bacteria within 5 min. CLSM and super-resolution fluorescence imaging by direct stochastic optical reconstruction microscopy demonstrated homogeneous distribution of ceramide analogs in the bacterial membrane. Taken together, these data demonstrate the potent bactericidal activity of sphingosine and synthetic short-chain ceramide analogs against pathogenic Neisseriae.
Echinocandin antifungals represent one of the most important drug classes for the treatment of invasive fungal infections. The mode of action of the echinocandins relies on inhibition of the β-1,3-glucan synthase, an enzyme essentially required for the synthesis of the major fungal cell wall carbohydrate β-1,3-glucan. Depending on the species, echinocandins may exert fungicidal or fungistatic activity. Apparently independent of this differential activity, a surprising in vitro phenomenon called the “paradoxical effect” can be observed. The paradoxical effect is characterized by the ability of certain fungal isolates to reconstitute growth in the presence of higher echinocandin concentrations, while being fully susceptible at lower concentrations. The nature of the paradoxical effect is not fully understood and has been the focus of multiple studies in the last two decades. Here we concisely review the current literature and propose an updated model for the paradoxical effect, taking into account recent advances in the field.