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Institute
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Sonstige beteiligte Institutionen
- Helmholtz Institute for RNA-based Infection Research (HIRI) (5)
- Universitätsklinikum Münster (3)
- Rudolf Virchow Center for Integrative and Translational Bioimaging, University of Würzburg (2)
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- CBIO, University of Cape Town, South Africa (1)
- Carl-Ludwig-Institut für Physiologie, Universität Leipzig (1)
- Chair of Experimental Biomedicine I (1)
Despite accounting for only a small proportion of all skin cancers, malignant melanoma
displays a serious health risk with increasing incidence and high mortality rate. Fortunately,
advances in the treatment of malignant melanoma now prolong survival and enhance response
and treatment efficacy. Established biomarkers help evaluate disease progression and
facilitate choosing appropriate and individual treatment options. However, the need for easily
accessible and reliable biomarkers is rising to predict patient-specific clinical outcome.
Eosinophil infiltration into the tumor and high peripheral eosinophil counts prior and during
treatment have been associated with better response in patients for various cancer entities,
including melanoma. An analysis of a heterogeneous study cohort reported high serum ECP
levels in non-responders. Hence, eosinophil frequency and serum ECP as a soluble
eosinophil-secreted mediator were suggested as prognostic biomarkers in melanoma. We
examined whether melanoma patients treated with first-line targeted therapy could also benefit
from the effects of eosinophils. In total, 243 blood and serum samples from patients with
advanced melanoma were prospectively and retrospectively collected before and after drug
initiation. To link eosinophil function to improved clinical outcome, soluble serum markers and
peripheral blood counts were used for correlative studies using a homogeneous study cohort.
In addition, functional and phenotypical characterizations provided insights into the expression
profile and activity of freshly isolated eosinophils, including comparisons between patients and
healthy donors.
Our data showed a significant correlation between high pre-treatment blood eosinophil counts
and improved response to targeted therapy and by trend to combinatorial immunotherapy in
patients with metastatic melanoma. In accordance with previous studies our results links
eosinophil blood counts to better response in melanoma patients. High pre-treatment ECP
serum concentration correlated with response to immunotherapy but not to targeted therapy.
Eosinophils from healthy donors and patients showed functional and phenotypical similarities.
Functional assays revealed a strong cytotoxic potential of blood eosinophils towards
melanoma cells in vitro, inducing apoptosis and necrosis. In addition, in vitro cytotoxicity was
an active process of peripheral eosinophils and melanoma cells with bidirectional features and
required close cell-cell interaction. The extent of cytotoxicity was dose-dependent and showed
susceptibility to changes in physical factors like adherence. Importantly, we provide evidence
of an additive tumoricidal function of eosinophils and combinatorial targeted therapy in vitro. In
summary, we give valuable insights into the complex and treatment-dependent role of
eosinophils in melanoma. As a result, our data support the suggestion of eosinophils and their
secreted mediators as potential prognostic biomarkers. It will take additional studies to
examine the molecular mechanisms that underlie our findings.
Methionine is the first amino acid of every newly synthesised protein. In combination with its role as precursor for the vital methyl-group donor S-adenosylmethionine, methionine is essential for every living cell. The opportunistic human pathogen Staphylococcus aureus is capable of synthesising methionine de novo, when it becomes scarce in the environment. All genes required for the de novo biosynthesis are encoded by the metICFE-mdh operon, except for metX. Expression is controlled by a hierarchical network with a methionyl-tRNA-specific T-box riboswitch (MET-TBRS) as centrepiece, that is also referred to as met leader (RNA). T-box riboswitches (TBRS) are regulatory RNA elements located in the 5’-untranslated region (5’-UTR) of genes. The effector molecule of T-box riboswitches is uncharged cognate tRNA. The prevailing mechanism of action is premature termination of transcription of the nascent RNA in the absence of the effector (i.e. uncharged cognate tRNA) due to formation of a hairpin structure, the Terminator stem. In presence of the effector, a transient stabilisation of the alternative structure, the Antiterminator, enables transcription of the downstream genes (‘read-through’). Albeit, after the read-through the thermodynamically more stable Terminator eventually forms. The Terminator and the Antiterminator are two mutually exclusive structures. Previous work of the research group showed that in staphylococci the MET-TBRS ensures strictly methionine-dependent control of met operon expression. Uncharged methionyl-tRNA that activates the system is only present in sufficient amounts under methionine-deprived conditions. In contrast to other bacterial TBRS, the staphylococcal MET-TBRS has some characteristic features regarding its length and predicted secondary structure whose relevance for the function are yet unkown.
Aim of the present thesis was to experimentally determine the structure of the met leader RNA and to investigate the stability of the met operon-specific transcripts in the context of methionine biosynthesis control. Furthermore, the yet unknown function of the mdh gene within the met operon was to be determined.
In the context of this thesis, the secondary structure of the met leader was determined employing in-line probing. The structural analysis revealed the presence of almost all highly conserved T-box riboswitch structural characteristics. Furthermore, three additional stems, absent in all T-box riboswitches analysed to date, could be identified. Particularly remarkable is the above average length of the Terminator stem which renders it a potential target of the double-strand-specific endoribonuclease III (RNase III). The RNase III-dependent cleavage of the met leader could be experimentally verified by the use of suitable mutants. Moreover, the exact cleavage site within the Terminator was determined.
The unusual immediate separation of the met leader from the met operon mRNA via the RNase III cleavage within the Terminator stem induces the rapid degradation of the met leader RNA and, most likely, that of the 5’-region of the met mRNA. The met mRNA is degraded from its 5’-end by the exoribonuclease RNase J. The stability of the met mRNA was found to vary over the length of the transcript with an instable 5’-end (metI and metC) and a longer half-life towards the 3’-end (metE and mdh). The varying transcript stability is reflected by differences in the available cellular protein levels. The obtained data suggest that programmed mRNA degradation is another level of regulation in the complex network of staphylococcal de novo methionine biosynthesis control.
In addition, the MET-TBRS was studied with regard to a future use as a drug target for novel antimicrobial agents. To this end, effects of a dysregulated methionine biosynthesis on bacterial growth and survival were investigated in met leader mutants that either caused permanent transcription of the met operon (‘ON’) or prevented operon transcription (‘OFF’), irrespective of the methionine status in the cell. Methionine deprivation turned out to be a strong selection pressure, as ‘OFF’ mutants acquired adaptive mutations within the met leader to restore met operon expression that subsequently re-enabled growth.
The second part of the thesis was dedicated to the characterisation of the Mdh protein that is encoded by the last gene of the met operon and whose function is unknown yet. At first, co-transcription and -expression with the met operon could be demonstrated. Next, the Mdh protein was overexpressed and purified and the crystal structure of Mdh was solved to high resolution by the Kisker research group (Rudolf-Virchow-Zentrum Würzburg). Analysis of the structure revealed the amino acid residues crucial for catalytic activity, and zinc was identified as a co-factor of Mdh. Also, Mdh was shown to exist as a dimer. However, identification of the Mdh substrate was, in the context of this thesis, (still) unsuccessful. Nevertheless, interactions of Mdh with enzymes of the met operon could be demonstrated by employing the bacterial two-hybrid system. This fact and the high conservation of mdh/Mdh on nucleotide and amino acid level among numerous staphylococcal species suggests an important role of Mdh within the methionine metabolism that should be a worthwhile subject of future research.
Attention-deficit/hyperactivity disorder (ADHD) is a genetically complex childhood onset neurodevelopmental disorder which is highly persistent into adulthood. Several chromo-somal regions associated with this disorder were identified previously in genome-wide linkage scans, association (GWA) and copy number variation (CNV) studies. In this work the results of case-control and family-based association studies using a can-didate gene approach are presented. For this purpose, possible candidate genes for ADHD have been finemapped using mass array-based SNP genotyping. The genes KCNIP4, CDH13 and DIRAS2 have been found to be associated with ADHD and, in addition, with cluster B and cluster C personality disorders (PD) which are known to be related to ADHD. Most of the associations found in this work would not withstand correction for multiple testing. However, a replication in several independent populations has been achieved and in conjunction with previous evidence from linkage, GWA and CNV studies, it is assumed that there are true associations between those genes and ADHD. Further investigation of DIRAS2 by quantitative real-time PCR (qPCR) revealed expression in the hippocampus, cerebral cortex and cerebellum of the human brain and a significant increase in Diras2 expression in the mouse brain during early development. In situ hybrid-izations on murine brain slices confirmed the results gained by qPCR in the human brain. Moreover, Diras2 is expressed in the basolateral amygdala, structures of the olfactory system and several other brain regions which have been implicated in the psychopatholo-gy of ADHD. In conclusion, the results of this work provide further support to the existence of a strong genetic component in the pathophysiology of ADHD and related disorders. KCNIP4, CDH13 and DIRAS2 are promising candidates and need to be further examined to get more knowledge about the neurobiological basis of this common disease. This knowledge is essential for understanding the molecular mechanisms underlying the emergence of this disorder and for the development of new treatment strategies.
In dieser Dissertation wird der MEK5/ERK5- Signalweg als möglicher Angriffspunkt in der zielgerichteten Melanomtherapie identifiziert. Die Adressierung von ERK5 bietet eine Alternative, um einer Resistenzentwicklung gegenüber Inhibitoren des MAPK- Signalwegs entgegenzuwirken. Das maligne Melanom ist ein hochaggressiver Tumor mit steigender Inzidenz. Zunehmende Sonnenstunden im Rahmen des Klimawandels mit erhöhter Belastung der Haut durch UV-Strahlung werden die Problematik des malignen Melanoms für den Menschen in den nächsten Jahren weiter zunehmen lassen.
Die Aktivierung des MEK5/ERK5- Signalwegs scheint eine Reaktion von Tumorzellen auf Therapiestress zu sein. Diese Aktivierung liefert den Melanomzellen einen Überlebensvorteil und verhindert ein langfristiges Therapieansprechen. ERK5 beeinflusst den Zellzyklus von Melanomzellen und ist somit möglicherweise von wichtiger Bedeutung in der Tumorgenese des malignen Melanoms.
Patienten mit NRAS- Mutation profitieren auffallend weniger von einer gezielten MEKi-Therapie als solche mit BRAF Mutation. Für ersteres Patientenkollektiv steht aktuell lediglich die Immuntherapie zur Verfügung, wodurch oft nur ein kurzes, progressionsfreies Intervall erreicht werden kann und die Patienten häufig unter schweren Nebenwirkungen leiden. Grund für die problematische Behandlung könnte das häufige Auftreten einer basalen ERK5- Aktivierung in NRAS- mutierten Melanomen sein. Diese Arbeit liefert eine positive Prognose über den Nutzen einer ERK5- Inhibition als Erweiterung des Therapieschemas. Diese These gilt auch für Melanompatienten mit einer BRAF- Mutation. Patienten, die an einem malignen Melanom erkrankt sind, weisen zu 80% eine Mutation in einem dieser beschriebenen Onkogene auf. Die Arbeit lässt darauf schließen, dass eine ERK5- Inhibition in der Therapie von beiden Gruppen erfolgreich sein könnte und somit das Leben nahezu aller Melanompatienten betrifft.
The present dissertation aims to shed light on different mechanisms of socio-emotional feedback in social decision-making situations. The objective is to evaluate emotional facial expressions as feedback stimuli, i.e., responses of interaction partners to certain social decisions. In addition to human faces, artificial emojis are also examined due to their relevance for modern digital communication. Previous research on the influence of emotional feedback suggests that a person's behavior can be effectively reinforced by rewarding stimuli. In the context of this dissertation, the differences in the feedback processing of human photographs and emojis, but also the evaluation of socially expected versus socially unexpected feedback were examined in detail in four studies. In addition to behavioral data, we used the electroencephalogram (EEG) in all studies to investigate neural correlates of social decision-making and emotional feedback.
As the central paradigm, all studies were based on a modified ultimatum game. The game is structured as follows: there is a so-called proposer who holds a specific amount of money (e.g., 10 cents) and offers the responder a certain amount (e.g., 3 cents). The responder then decides whether to accept or reject the offer. In the version of the ultimatum game presented here, different types of proposers are introduced. After the participants have accepted or rejected in the role of the responder, the different proposers react to the participant’s decision with specific emotional facial expressions. Different feedback patterns are used for the individual experiments conducted in the course of this dissertation.
In the first study, we investigated the influence of emotional feedback on decision-making in the modified version of the ultimatum game. We were able to show that a proposer who responds to the acceptance of an offer with a smiling face achieves more accepted offers overall than a control proposer who responds to both accepted and rejected offers with a neutral facial expression. Consequently, the smile served as a positive reinforcement. Similarly, a sad expression in response to a rejected offer also resulted in higher acceptance rates as compared to the control identity, which could be considered an expression of compassion for that proposer. On a neuronal level, we could show that there are differences between simply looking at negative emotional stimuli (i.e., sad and angry faces) and their appearance as feedback stimuli after rejected offers in the modified ultimatum game. The so-called feedback-related negativity was reduced (i.e., more positive) when negative emotions appeared as feedback from the proposers. We argued that these findings might show that the participants wanted to punish the proposers by rejecting an offer for its unfairness and therefore the negative feedback met their expectations. The altered processing of negative emotional facial expressions in the ultimatum game could therefore indicate that the punishment is interpreted as successful. This includes the expectation that the interaction partner will change his behavior in the future and eventually make fairer offers.
In the second study we wanted to show that smiling and sad emojis as feedback stimuli in the modified ultimatum game can also lead to increased acceptance rates. Contrary to our assumptions, this effect could not be observed. At the neural level as well, the findings did not correspond to our assumptions and differed strongly from those of the first study. One finding, however, was that the neural P3 component showed how the use of emojis as feedback stimuli particularly characterizes certain types of proposers. This is supported by the fact that the P3 is increased for the proposer who rewards an acceptance with a smile as well as for the proposer who reacts to rejection with a sad emoji compared to the neutral control proposer.
The third study examined the discrepancy between the findings of the first and second study. Accordingly, both humans and emojis representing the different proposers were presented in the ultimatum game. In addition, emojis were selected that showed a higher similarity to known emojis from common messenger services compared to the second study. We were able to replicate that the proposers in the ultimatum game, who reward an acceptance of the offer with a smile, led to an increased acceptance rate compared to the neutral control proposers. This difference is independent of whether the proposers are represented by emojis or human faces. With regard to the neural correlates, we were able to demonstrate that emojis and human faces differ strongly in their neural processing. Emojis showed stronger activation than human faces in the face-processing N170 component, the feedback-related negativity and the P3 component. We concluded that the results of the N170 and feedback-related negativity could indicate a signal for missing social information of emojis compared to faces. The increased P3 amplitude for emojis might imply that emojis appear unexpectedly as reward stimuli in a social decision task compared to human faces.
The last study of this project dealt with socially unexpected feedback. In comparison to the first three studies, new proposer identities were implemented. In particular, the focus was on a proposer who reacted to the rejection of an offer unexpectedly with a smile and to the acceptance with a neutral facial expression. According to the results, participants approach this unexpected smile through increased rejection, although it is accompanied by financial loss. In addition, as reported in studies one and three, we were able to show that proposers who respond to the acceptance of an offer with a smiling face and thus meet the expectations of the participants have higher offer acceptance rates than the control proposer. At the neuronal level, especially the feedback from the socially unexpected proposer led to an increased P3 amplitude, which indicates that smiling after rejection is attributed a special subjective importance.
The experiments provide new insights into the social influence through emotional feedback and the processing of relevant social cues. Due to the conceptual similarity of the studies, it was possible to differentiate between stable findings and potentially stimulus-dependent deviations, thus creating a well-founded contribution to the current research. Therefore, the novel paradigm presented here, and the knowledge gained from it could also play an important role in the future for clinical questions dealing with limited social competencies.
Sepsis ist eine dysregulierte Reaktion des Organismus auf eine Infektion. Bei Sepsis werden oft Blutungs- und Thromboseereignisse beobachtet, welche in einer Disseminierten Intravasalen Gerinnung (DIG) gipfeln können. Thrombozyten sind die Schlüsselzellen von Thrombose und Hämostase. Bei Sepsis und DIG kommt es häufig zu einem Abfall der Thrombozytenzahl, doch Blutungs- und Thromboseereignisse können unabhängig von der Thrombozytenzahl auftreten, was zusätzlich eine Veränderung der Thrombozytenfunktion nahelegt.
In dieser Arbeit wurde deshalb die Thrombozytenfunktion bei 15 Patienten mit Sepsis zu drei Zeitpunkten im Krankheitsverlauf untersucht. Es konnte bei unauffälliger Rezeptorexpression keine Voraktivierung der Thrombozyten mittels Durchflusszytometrie festgestellt werden. Jedoch war die Aktivierung nach Stimulation mit multiplen Agonisten signifikant reduziert. Besonders ausgeprägt war die Hyporeaktivität bei Stimulation des Kollagen-Rezeptors GPVI mit dem Agonisten CRP-XL. Es wurde gezeigt, dass nach GPVI-Stimulation eine reduzierte Phosphorylierung der nachgeschalteten Proteine Syk und LAT im Vergleich zum Gesundspender induziert wird. In Kreuzinkubationsexperimenten hatte die (Co )Inkubation von Thrombozyten in Plasma von Sepsispatienten oder mit Bakterienisolaten aus Sepsis-Blutkulturen keinen Effekt auf die Thrombozytenreaktivität. Allerdings konnte durch Sepsis-Vollblut eine signifikante GPVI-Hyporeaktivität in Thrombozyten von gesunden Probanden induziert werden, was einen zellulären Mediator als Ursache des Defekts nahelegt. In dieser Arbeit wurde gezeigt, dass insbesondere die GPVI-Signalkaskade bei Sepsis massiv beeinträchtigt ist. Der Immunorezeptor GPVI ist ein vielversprechendes Zielmolekül, um die Pathogenese der Sepsis, des Capillary Leak und die immunregulatorische Rolle von Thrombozyten besser zu verstehen. Die GPVI-Hyporeaktivität könnte als zukünftiger Biomarker für die Sepsis-Frühdiagnose genutzt werden.
The human pathogen Aspergillus (A.) fumigatus is a fungal mold that can cause severe infections in immunocompromised hosts. Pathogen recognition and immune cell cross-talk are essential for clearing fungal infections efficiently. Immune cell interactions in particular may enhance individual cell activation and cytotoxicity towards invading pathogens.
This study analyzed the reciprocal cell activation of natural killer (NK) cells and monocyte-derived dendritic cells (moDCs) after stimulation with A. fumigatus cell wall fractions and whole-cell lysates. Furthermore, the impact of the on moDCs expressed fungal receptors Dectin-1 and TLR-2 on NK cell activation was analyzed. Stimulation of moDCs with ligands for Dectin-1 and TLR-2 and transfer of soluble factors on autologous NK cells showed that moDCs could induce NK cell activation solely by secreting factors. In summary, both cell types could induce reciprocal cell activation if the stimulated cell type recognized fungal morphologies and ligands. However, moDCs displayed a broader set of A. fumigatus receptors and, therefore, could induce NK cell activation when those were not activated by the stimulus directly.
Consequently, new fungal receptors should be identified on NK cells. The NK cell characterization marker CD56 was reduced detected in flow cytometry after fungal co-culture. Notably, this decreased detection was not associated with NK cell apoptosis, protein degradation, internalization, or secretion of CD56 molecules. CD56 was shown to tightly attach to hyphal structures, followed by its concentration at the NK-A. fumigatus interaction site. Actin polymerization was necessary for CD56 relocalization, as pre-treatment of NK cells with actin-inhibitory reagents abolished CD56 binding to the fungus. Blocking of CD56 suppressed fungal mediated NK cell activation and secretion of the immune-recruiting chemokines MIP-1α, MIP-1β, and RANTES, concluding that CD56 is functionally involved in fungal recognition by NK cells.
CD56 binding to fungal hyphae was inhibited in NK cells obtained from patients during immune-suppressing therapy after allogeneic stem cell transplantation (alloSCT). Additionally, reduced binding of CD56 correlated with decreased actin polymerization of reconstituting NK cells challenged with the fungus. The immune-suppressing therapy with corticosteroids negatively influenced the secretion of MIP-1α, MIP-1β, and RANTES in NK cells after fungal stimulation ex vivo. Similar results were obtained when NK cells from healthy donors were treated with corticosteroids prior to fungal co-culture. Thus, corticosteroids were identified to have detrimental effects on NK cell function during infection with A. fumigatus.
The unicellular pathogen Trypanosoma brucei is the causative agent of African
trypanosomiasis, an endemic disease prevalent in sub-Saharan Africa. Trypanosoma brucei alternates between a mammalian host and the tsetse fly vector. The extracellular parasite survives in the mammalian bloodstream by periodically exchanging their ˈvariant surface glycoproteinˈ (VSG) coat to evade the host immune response. This antigenic variation is achieved through monoallelic expression of one VSG variant from subtelomeric ˈbloodstream
form expression sitesˈ (BES) at a given timepoint. During the differentiation from the bloodstream form (BSF) to the procyclic form (PCF) in the tsetse fly midgut, the stage specific surface protein is transcriptionally silenced and replaced by procyclins. Due to their subtelomeric localization on the chromosomes, VSG transcription and silencing is partly regulated by homologues of the mammalian telomere complex such as TbTRF, TbTIF2 and TbRAP1 as well as by ˈtelomere-associated proteinsˈ (TelAPs) like TelAP1. To gain more insights into transcription regulation of VSG genes, the identification and characterization of other TelAPs is critical and has not yet been achieved. In a previous study, two biochemical approaches were used to identify other novel TelAPs. By using ˈco-immunoprecipitationˈ (co-IP) to enrich possible interaction partners of TbTRF and by affinity chromatography using telomeric repeat oligonucleotides, a listing of TelAP candidates has been conducted. With this approach TelAP1 was identified as a novel component of the telomere complex, involved in the kinetics of transcriptional BES silencing during BSF to PCF differentiation. To gain further insights into the telomere complex composition, other previously enriched proteins were characterized through a screening process using RNA interference to deplete potential candidates. VSG expression profile changes and overall proteomic changes after depletion were analyzed by mass spectrometry. With this method, one can gain insights into the functions of the proteins and their involvement in VSG expression site regulation. To validate the interaction of proteins enriched by co-IP with TbTRF and TelAP1 and to identify novel interaction proteins, I performed reciprocal affinity purifications of the four most promising candidates (TelAP2, TelAP3, PPL2 and PolIE) and additionally confirmed colocalization of two candidates with TbTRF via immunofluorescence (TelAP2, TelAP3). TelAP3 colocalizes with TbTRF and potentially interacts with TbTRF, TbTIF2, TelAP1 and TelAP2, as well as with two translesion polymerases PPL2 and PolIE in BSF. PPL2 and PolIE seem to be in close contact to each other at the telomeric ends and fulfill different roles as only PolIE is involved in VSG regulation while PPL2 is not. TelAP2 was previously characterized to be associated with telomeres by partially colocalizing with TbTRF and cells show a VSG derepression phenotype when the protein was depleted. Here I show that TelAP2 interacts with the telomere-binding proteins TbTRF and TbTIF2 as well as with the telomere-associated protein TelAP1 in BSF and that TelAP2 depletion results in a loss of TelAP1 colocalization with TbTRF in BSF.
In conclusion, this study demonstrates that characterizing potential TelAPs is effective in gaining insights into the telomeric complex's composition and its role in VSG regulation in Trypanosoma brucei. Understanding these interactions could potentially lead to new therapeutic targets for combatting African trypanosomiasis.
Cardiac healing after myocardial infarction (MI) represents the cardinal prerequisite for proper replacement of the irreversibly injured myocardium. In contrast to innate immunity, the functional role of adaptive immunity in postinfarction healing has not been systematically addressed. The present study focused on the influence of CD4+ T lymphocytes on wound healing and cardiac remodeling after experimental myocardial infarction in mice. Both conventional and Foxp3+ regulatory CD4+ T cells (Treg cells) became activated in heart draining lymph nodes after MI and accumulated in the infarcted myocardium. T cell activation was strictly antigen-dependant as T cell receptor-transgenic OT-II mice in which CD4+ T cells exhibit a highly limited T cell
receptor repertoire did not expand in heart-draining lymph nodes post-MI. Both OT-II and major histocompatibility complex class II-deficient mice lacking a CD4+ T cell compartment showed a fatal clinical postinfarction outcome characterized by disturbed scar tissue construction that resulted in impaired survival due to a prevalence of left-ventricular ruptures. To assess the contribution of anti-inflammatory Treg cells on wound healing after MI, the Treg cell compartment was depleted using DEREG mice that specifically express the human diphtheria toxin receptor in Foxp3-positive cells, resulting in Treg cell ablation after diphtheria toxin administration. In a parallel line of experiments, a second model of anti-CD25 antibody-mediated Treg cell immuno-depletion was used. Treg cell ablation prior to MI resulted in adverse postinfarction left-ventricular dilatation associated with cardiac deterioration. Mechanistically, Treg cell depletion resulted in an increased recruitment of pro-inflammatory neutrophils and Ly-6Chigh monocytes into the healing myocardium. Furthermore, Treg cell-ablated mice exhibited an adverse activation of conventional non-regulatory CD4+ and CD8+ T cells that
showed a reinforced infiltration into the infarct zone. Increased synthesis of TNFα and IFNγ by conventional CD4+ and CD8+ T cells in hearts of Treg cell-depleted mice provoked an M1-like macrophage polarization characterized by heightened expression of healing-compromising induced NO synthase, in line with a reduced synthesis of healing-promoting transglutaminase factor XIII (FXIII), osteopontin (OPN) and transforming growth factor beta 1 (TGFβ1).
Therapeutic Treg cell activation by a superagonistic anti-CD28 monoclonal antibody stimulated Treg cell accumulation in the infarct zone and led to an increased expression of mediators inducing an M2-like macrophage polarization state, i.e. interleukin-10, interleukin-13 and TGFβ1. M2-like macrophage differentiation in the healing infarct was associated with heightened expression of scar-forming procollagens as well as scar-stabilizing FXIII and OPN, resulting in improved survival due to a reduced incidence of left-ventricular ruptures. Therapeutic Treg cell activation and the induction of a beneficial M2-like macrophage polarization was further achieved by employing a treatment modality of high clinical potential, i.e. by therapeutic administration of IL-2/ anti-IL-2 monoclonal antibody complexes. The findings of the present study suggest that therapeutic Treg cell activation and the resulting improvement of healing may represent a suitable strategy to attenuate adverse infarct expansion, left-ventricular remodeling, or infarct ruptures in patients with MI.
The Myb-MuvB (MMB) multiprotein complex is a master regulator of cell cycle-dependent gene expression. Target genes of MMB are expressed at elevated levels in several different cancer types and are included in the chromosomal instability (CIN) signature of lung, brain, and breast tumors.
This doctoral thesis showed that the complete loss of the MMB core subunit LIN9 leads to strong proliferation defects and nuclear abnormalities in primary lung adenocarcinoma cells. Transcriptome profiling and genome-wide DNA-binding analyses of MMB in lung adenocarcinoma cells revealed that MMB drives the expression of genes linked to cell cycle progression, mitosis, and chromosome segregation by direct binding to promoters of these genes. Unexpectedly, a previously unknown overlap between MMB-dependent genes and several signatures of YAP-regulated genes was identified. YAP is a transcriptional co-activator acting downstream of the Hippo signaling pathway, which is deregulated in many tumor types. Here, MMB and YAP were found to physically interact and co-regulate a set of mitotic and cytokinetic target genes, which are important in cancer. Furthermore, the activation of mitotic genes and the induction of entry into mitosis by YAP were strongly dependent on MMB. By ChIP-seq and 4C-seq, the genome-wide binding of MMB upon YAP overexpression was analyzed and long-range chromatin interaction sites of selected MMB target gene promoters were identified. Strikingly, YAP strongly promoted chromatin-association of B-MYB through binding to distal enhancer elements that interact with MMB-regulated promoters through chromatin looping.
Together, the findings of this thesis provide a so far unknown molecular mechanism by which YAP and MMB cooperate to regulate mitotic gene expression and suggest a link between two cancer-relevant signaling pathways.
The aim of this project was to investigate whether reflex-like innate facial reactions to tastes and odors are altered in patients with eating disorders. Qualitatively different tastes and odors have been found to elicit specific facial expressions in newborns. This specificity in newborns is characterized by positive facial reactions in response to pleasant stimuli and by negative facial reactions in response to unpleasant stimuli. It is, however, unclear, whether these specific facial displays remain stable during ontogeny (1). Despite the fact that several studies had shown that taste-and odor-elicited facial reactions remain quite stable across a human’s life-span, the specificity of research questions, as well as different research methods, allow only limited comparisons between studies. Moreover, the gustofacial response patterns might be altered in pathological eating behavior (2). To date, however, the question of whether dysfunctional eating behavior might alter facial activity in response to tastes and odors has not been addressed. Furthermore, changes in facial activity might be linked to deficient inhibitory facial control (3). To investigate these three research questions, facial reactions in response to tastes and odors were assessed. Facial reactions were analyzed using the Facial Action Coding System (FACS, Ekman & Friesen, 1978; Ekman, Friesen, & Hager, 2002) and electromyography.
This thesis aimed the development of a correlated device which combines FluidFM® with Fluorescence Microscopy (FL) (FL-FluidFM®) and enables the simultaneous quantification of adhesion forces and fluorescent visualization of mature cells. The implementation of a PIFOC was crucial to achieve a high-resolution as well as a stable but dynamic focus level. The functionality of SCFS after hardware modification was verified by comparing two force-curves, both showing the typical force progression and measured with the optimized and conventional hardware, respectively. Then, the integration of FL was examined by detaching fluorescently labeled REF52 cells. The fluorescence illumination of the cytoskeleton showed the expected characteristic force profile and no evidence of interference effects. Afterwards a corresponding correlative data analysis was addressed including manual force step fitting, the identification of visualized cellular unbinding, and a time-dependent correlation. This procedure revealed a link between the area of cytoskeletal unbinding and force-jumps. This was followed by a comparison of the detachment characteristics of intercellular connected HUVECs and individual REF52 cells. HUVECs showed maximum detachment forces in the same order of magnitude as the ones of single REF52 cells. This contrasted with the expected strong cohesiveness of endothelial cells and indicated a lack of cell-cell contact formation. The latter was confirmed by a comparison of HUVECs, primary HBMVECs, and immortalized EA.hy926 cells fluorescently labeled for two marker proteins of intercellular junctions. This unveiled that both the previous cultivation duration and the cell type have a major impact on the development of intercellular junctions. In summary, the correlative FL FluidFM® represents a powerful novel approach, which enables a truly contemporaneous performance and, thus, has the potential to reveal new insights into the mechanobiological properties of cell adhesion.
Herzschrittmachersysteme sind eine weitverbreitete Möglichkeit Herz-Kreislauf-Erkrankungen zu behandeln. Wegen der natürlichen Reaktion des Immunsystems auf Fremdkörper, erfolgt aber eine fortschreitende Verkapselung der Herzschrittmacherelektrode. Die Folge ist eine ansteigende Verminderung der Stimulationseffizienz durch Erhöhung der Anregungsschwelle. Die Integration der Elektrode in das Gewebe ist dabei mangelhaft und wird bestimmt durch Implantateigenschaften wie Größe, Flexibilität und Dimensionalität. Um die Integration zu verbessern, stellen dreidimensionale (3D) bzw. gewebeartige Elektroden eine Alternative zu den derzeit verwendeten planaren Metallelektroden dar. Zur Entwicklung einer leitfähigen, 3D und faserförmigen Elektrode wurden in dieser Arbeit Kohlenstoff-Nanofaser-Scaffolds über Elektrospinnen hergestellt. Durch die Modifikation des Fasergerüstes mit Natriumchlorid (NaCl) während der Scaffoldherstellung, konnte das Fasernetzwerk aufgelockert und Poren generiert werden. Die Kohlenstofffaser-Elektroden zeigten einen effizienten Energieübertrag, welcher vergleichbar mit heutigen Titannitrid (TiN) -Elektroden ist. Die Auflockerung des Fasergewebes hatte eine verbesserte Flexibilität des Faserscaffolds zu Folge. Neben der Flexibilität, konnte auch die Infiltration von Zellen in das poröse Faserscaffold erheblich verbessert werden. Dabei konnten Fibroblasten durch das gesamte Scaffold migrieren. Die Kompatibilität mit kardialen Zellen, die Grundvoraussetzung von Herzschrittmacherelektroden, wurde in vitro nachgewiesen. Durch die Kombination aus dem 3D-Elektrodengerüst mit einer Co-Kultur aus humanen Kardiomyozyten, mesenchymalen Stammzellen und Fibroblasten, erfolgte eine Einbettung der Elektrode in funktionelles kardiales Gewebe. Dadurch konnte ein lebender Gewebe-Elektroden-Hybrid generiert werden, welcher möglicherweise die Elektrode vor Immunzellen in vivo abschirmen kann. Eine Zusammenführung der hybriden Elektrode mit einen Tissue-Engineerten humanen kardialen Patch in vitro, führte zu Bildung einer nahtlosen Elektronik-Gewebe-Schnittstelle. Die fusionierte Einheit wurde abschließend auf ihre mechanische Belastbarkeit getestet und konnte über einen Elektroden-Anschluss elektrisch stimuliert werden.
Mit jährlich circa 11 Millionen Fällen weltweit, stellen schwere Brandwunden bis heute einen großen Anteil an Verletzungen dar, die in Kliniken behandelt werden müssen. Während leichte Verbrennungen meist problemlos heilen, bedarf die Behandlung tieferer Verbrennungen medizinischer Intervention. Zellbasierte Therapeutika zeigen hier bereits große Erfolge, aufgrund der eingeschränkten Übertragbarkeit von Ergebnissen aus Tiermodellen ist jedoch sowohl die Testung neuer Produkte, als auch die Erforschung der Wundheilung bei Brandwunden noch immer schwierig.
Aufgrund dessen wurden in dieser Arbeit zwei Ziele verfolgt: Die Etablierung von Methoden, um ein zellbasiertes Therapeutikum produzieren zu können und die Entwicklung eines Modells zur Untersuchung von Verbrennungswunden. Zunächst wurden hierfür die Kulturbedingungen und -protokolle zur Isolation und Expansion von Keratinozyten so angepasst, dass sie gängigen Regularien zur Produktion medizinischer Produkte entsprechen. Hier zeigten die Zellen auch in anschließenden Analysen, dass charakteristische Merkmale nicht verloren hatten. Darüber hinaus gelang es, die Zellen mithilfe verschiedener protektiver Substanzen erfolgreich einzufrieren und zu konservieren.
Des Weiteren konnte ein Modell etabliert werden, das eine Verbrennung ersten Grades widerspiegelt. Über einen Zeitraum von zwei Wochen wurde seine Regeneration hinsichtlich verschiedener Aspekte, wie der Histomorphologie, dem Metabolismus und der Reepithelialisierungsrate, untersucht. Die Modelle zeigten hier viele Parallelen zur Wundheilung in vivo auf. Um die Eignung der Modelle zur Testung von Wirkstoffen zu ermitteln wurde außerdem eine Behandlung mit 5% Dexpanthenol getestet. Sie resultierte in einer verbesserten Histomorphologie und einer erhöhten Anzahl an proliferativen Zellen in den Modellen, beschleunigte jedoch die Reepithelialisierung nicht. Zusammengefasst konnten in dieser Arbeit zunächst Methoden etabliert werden, um ein medizinisches Produkt aus Keratinozyten herzustellen und zu charakterisieren. Außerdem wurde ein Modell entwickelt, anhand dessen die Wundheilung und Behandlung von Verbrennungen ersten Grades untersucht werden kann und welches als Basis zur Entwicklung von Modellen von tieferen Verbrennungen dienen kann.
Adrenal Cushing’s Syndrome (CS) is a rare but life-threatening disease and therefore it is of great importance to understand the pathogenesis leading to adrenal CS. It is well accepted that Protein Kinase A (PKA) signalling mediates steroid secretion in adrenocortical cells. PKA is an inactive heterotetramer, consisting of two catalytic and two regulatory subunits. Upon cAMP binding to the regulatory subunits, the catalytic subunits are released and are able to phosphorylate their target proteins. Recently, activating somatic mutations affecting the catalytic subunit a of PKA have been identified in a sub-population of cortisol-producing adenomas (CPAs) associated with overt CS. Interestingly, the PKA regulatory subunit IIb has long been known to have significantly lower protein levels in a sub-group of CPAs compared to other adrenocortical tumours. Yet, it is unknown, why these CPAs lack the regulatory subunit IIb, neither are any functional consequences nor are the underlying regulation mechanisms leading to reduced RIIb levels known. The results obtained in this thesis show a clear connection between Ca mutations and reduced RIIb protein levels in CPAs but not in other adrenocortical tumours. Furthermore, a specific pattern of PKA subunit expression in the different zones of the normal adrenal gland is demonstrated. In addition, a Ca L206R mutation-mediated degradation of RIIb was observed in adrenocortical cells in vitro. RIIb degradation was found to be mediated by caspases and by performing mutagenesis experiments of the regulatory subunits IIb and Ia, S114 phosphorylation of RIIb was identified to make RIIb susceptible for degradation. LC-MS/MS revealed RIIb interaction partners to differ in the presence of either Ca WT and Ca L206R. These newly identified interaction partners are possibly involved in targeting RIIb to subcellular compartments or bringing it into spatial proximity of degrading enzymes. Furthermore, reducing RIIb protein levels in an in vitro system were shown to correlate with increased cortisol secretion also in the absence of PRKACA mutations. The inhibiting role of RIIb in cortisol secretion demonstrates a new function of this regulatory PKA subunit, improving the understanding of the complex regulation of PKA as key regulator in many cells.
The work presented in this thesis covers the effects of early-life adversity in the context of altered serotonin (5-HT; 5-hydroxytryptamine) system functioning in mice. The main body is focussing on a screening approach identifying molecular processes, potentially involved in distinct behavioural manifestations that emerge from or are concomitant with early adversity and, with regard to some behavioural manifestations, dependent on the functioning of the 5-HT system.
The human body has very good self-healing capabilities for numerous different injuries to a variety of different tissues. This includes the main human mechanical framework, the skeleton. The skeleton is limited in its healing without additional aid by medicine mostly by the defect size. When the defect reaches a size above 2.5 cm the regeneration of the defect ends up faulty. Here is where implants, defect fillers and other support approaches developed in medicine can help the body to heal the big defect still successfully.
Usually sturdy implants (auto-/allo-/xenogenic) are implanted in the defect to bridge the distance, but for auto- and allogenic implants a suitable donor site must be found and for all sources the implant needs to be shaped into the defect specific site to ensure a perfect fit, the best support and good healing. This shaping is very time consuming and prone to error, already in the planning phase. The use of a material that is moldable and sets in the desired shape shortly after applying negates these disadvantages. Cementitious materials offer exactly this property by being in a pasty stage after the powder and liquid components have been mixed and the subsequently hardening to a solid implant. These properties also enable the extrusion, and therefore may also enable the injection, of the cement via a syringe in a minimal invasive approach.
To enable a good injection of the cement modifications are necessary. This work aimed to modify commonly used calcium phosphate-based cement systems based on α-TCP (apatitic) and β-TCP (brushitic). These have been modified with sodium phytate and phytic acid, respectively. Additionally, the α-TCP system has been modified with sodium pyrophosphate, in a second study, to create a storable aqueous paste that can be activated once needed with a highly concentrated sodium orthophosphate solution.
The powder phase of the α-TCP cement system consisted of nine parts α-TCP and one part CDHA. These were prepared to have different particle sizes and therefore enable a better powder flowability through the bimodal size distribution. α-TCP had a main particle size of 20 μm and CDHA of 2.6 μm. The modification with sodium phytate led to an adsorption of phytate ions on the surface of the α-TCP particles, where they started to form complexes with the Ca2+ ions in the solution. This adsorption had two effects. The first was to make the calcium ions unavailable, preventing supersaturation and ultimately the precipitation of CDHA what would lead to the cement hardening. The second was the increase of the absolute value of the surface charge, zeta potential, of the powder in the cement paste. Here a decrease from +3 mV to -40 mV could be measured. A strong value for the zeta potential leads to a higher repulsion of similarly charged particles and therefore prevents powder agglomeration and clogging on the nozzle during injection. These two modifications (bimodal particles size distribution and phytic acid) lead to a significant increase in the paste injectability. The unmodified paste was injectable for 30 % only, where all modified pastes were practically fully injectable ~90 % (the residual paste remained in the nozzle, while the syringe plunger already reached the end of the syringe).
A very similar observation could be made for the β-TCP system. This system was modified with phytic acid. The zeta potential was decreased even stronger from -10 ± 1.5 mV to -71.5 ± 12 mV. The adsorption of the phytate ions and subsequent formation of chelate complexes with the newly dissolved Ca2+ ions also showed a retarding effect in the cements setting reaction. Where the unmodified cement was not measurable in the rheometer, as the reaction was faster than the measurement setup (~1.5 min), the modified cements showed a transition through the gel point between 3-6 min. This means the pastes stayed between 2 and 4 times longer viscous than without the modification. Like with the first cement system also here the effects of the phytate addition showed its beneficial influence in the injectability measurement. The unmodified cement was not injectable at all, due to the same issue already encountered at the rheology measurements, but all modified pastes were fully injectable for at least 5 min (lowest phytate concentration) and at least 10 min (all other concentrations) after the mixing of powder and liquid.
The main goal of the last modification with sodium pyrophosphate was to create a paste that was stable in aqueous environment without setting until the activation takes place, but it should still show good injectability as this was the desired way of application after activation. Like before also the zeta potential changed after the addition of pyrophosphate. It could be lowered from -22 ± 2mV down to -61 to -68 ± 4mV (depending on the pyrophosphate concentration). The pastes were stored in airtight containers at room temperature and checked for their phase composition over 14 days. The unmodified paste showed a beginning phase conversion to hydroxyapatite between 7 and 14 days. All other pastes were still stable and unreacted. The pastes were activated with a high concentrated (30 wt%) sodium orthophosphate solution. After the activation the pastes were checked for their injectability and showed an increase from -57 ± 11% for the unmodified paste to -89 ± 3% (practically fully injectable as described earlier) for the best modified paste (PP005).
It can be concluded that the goal of enabling full injection of conventional calcium phosphate bone cement systems was reached. Additional work produced a storage stable paste that still ensures full injectability. Subsequent work already used the storable paste and modified it with hyaluronic acid to create an ink for 3D extrusion printing. The first two cement systems have also already been investigated in cell culture for their influence on osteoblasts and osteoclasts. The next steps would have to go more into the direction of translation. Figuring out what properties still need to be checked and where the modification needs adjustment to enable a clinical use of the presented systems.
Peripheral blood mononuclear cells (PBMCs) are the only source of human lymphoid cells routinely available for immunologic research and for immunomonitoring of T-cell responses to microbial and tumor-associated antigens. However the large majority of human T-cells resides in tissues, especially in lymphatic organs, while only 1 % of the body’s T-cells circulate in the blood stream. Previous work in mice and humans had indicated that CD4 T-cells transiently lose antigen sensitivity when cellular contacts are lost, e.g. by leaving lymphoid organs such as lymph nodes (LNs) and entering the circulation. In this study, these findings were extended to CD8 T-cells. Thus, CD8 T-cell responses of the human tonsil show a significant drop in sensitivity to viral antigens if tissue-exit was simulated by keeping cells in dispersed culture at body temperature for two hours.
Conversely, tissue-like functionality in blood-derived CD8 T-cells was restored by applying the simple and robust RESTORE protocol. Indeed, application of the RESTORE protocol, i.e. pre-culturing PBMCs for two days at a high cell density before initiation of antigenic stimulation, demonstrated that CD8 T-cell responses to a broad range of viral and to tumor-associated antigens are greatly underestimated, and sometimes even remain undetected if conventional, unprocessed PBMC cultures are used. The latter finding is particularly striking with regard to the appearance of Wilms tumor 1 (WT1)-specific CD8 T-cell responses in leukemia patients after allogeneic bone marrow transplantation. My studies on the mechanism of the RESTORE protocol show that HD preculture of PBMCs does not involve antigen-or cytokine-driven clonal expansion of T-cells. Moreover, the gain in antigen sensitivity cannot be explained by a decreased activity of regulatory T-cells during the preculture step. The increased antigen sensitivity of CD8 T-cells from HD precultures of PBMCs is associated with tonic T-cell receptor signaling as indicated by enhanced tyrosine phosphorylation of the CD3 ζ chains and the tyrosine kinase Lck, thereby preparing T-cells for full responses. The upregulation of genes involved in aerobic glycolysis in “restored” CD8 memory T-cells relative to fresh cells might be an essential requirement for increased T-cell functionality including the regulation of IFN-γ production. Taken together, the RESTORE protocol, which was initially described for the CD4 T-cell response to the antibody TGN1412 permits a more meaningful monitoring of CD8 T-cell responses to viral infections and tumors. Furthermore, when generating T-cell lines for adoptive T-cell therapy, the RESTORE protocol allows the generation of CD8 T-cell lines with an improved representation of clones responding to low antigen concentrations.
For cellular viability, transcription is a fundamental process. Hereby, the DNA plays the most elemental and highly versatile role. It has long been known that promoters contain conserved and often well-defined motifs, which dictate the site of transcription initiation by providing binding sites for regulatory proteins. However, research within the last decade revealed that it is promoters lacking conserved promoter motifs and transcribing constitutively expressed genes that constitute the majority of promoters in eukaryotes. While the process of transcription initiation is well studied, whether defined DNA sequence motifs are required for the transcription of constitutively expressed genes in eukaryotes remains unknown. In the highly divergent protozoan parasite Trypanosoma brucei, most of the proteincoding genes are organized in large polycistronic transcription units. The genes within one polycistronic transcription unit are generally unrelated and transcribed by a common transcription start site for which no RNA polymerase II promoter motifs have been identified so far. Thus, it is assumed that transcription initiation is not regulated but how transcription is initiated in T. brucei is not known. This study aimed to investigate the requirement of DNA sequence motifs and chromatin structures for transcription initiation in an organism lacking transcriptional regulation. To this end, I performed a systematic analysis to investigate the dependence of transcription initiation on the DNA sequence. I was able to identify GT-rich promoter elements required for directional transcription initiation and targeted deposition of the histone variant H2A.Z, a conserved component during transcription initiation. Furthermore, nucleosome positioning data in this work provide evidence that sites of transcription initiation are rather characterized by broad regions of open and more accessible chromatin than narrow nucleosome depleted regions as it is the case in other eukaryotes. These findings highlight the importance of chromatin during transcription initiation. Polycistronic RNA in T. brucei is separated by adding an independently transcribed miniexon during trans-splicing. The data in this work suggest that nucleosome occupancy plays an important role during RNA maturation by slowing down the progressing polymerase and thereby facilitating the choice of the proper splice site during trans-splicing. Overall, this work investigated the role of the DNA sequence during transcription initiation and nucleosome positioning in a highly divergent eukaryote. Furthermore, the findings shed light on the conservation of the requirement of DNA motifs during transcription initiation and the regulatory potential of chromatin during RNA maturation. The findings improve the understanding of gene expression regulation in T. brucei, a eukaryotic parasite lacking transcriptional Regulation.
Die MRT des Herzens wird aufgrund hoher Reproduzierbarkeit und geringer Variabilität als Referenzstandard für die Bestimmung der kardialen Funktion betrachtet. Auch in der präklinischen Forschung bietet die MRT eine ausgezeichnete Charakterisierung der kardialen Funktion und ermöglicht eine exzellente Analyse modellierter Krankheitsbilder. In beiden Fällen besteht jedoch weiterhin Optimierungsbedarf. Die klinische Herz-MRT stellt ein aufwendiges Verfahren mit relativ langer Messzeit dar und ist dadurch mit hohen Untersuchungskosten verbunden. In der präklinischen Kleintierbildgebung müssen zum Erreichen der notwendigen höheren Orts- und Zeitauflösung ebenfalls lange Aufnahmezeiten in Kauf genommen werden. Um die kardiale MRT dort routinemäßig in großen Studienkollektiven anwenden zu können, ist eine schnellere Bildgebung essentiell. Neben einer Verbesserung der Tomographen-Hardware und der Optimierung von Bildgebungssequenzen standen im letzten Jahrzehnt vermehrt informationstheoretische Ansätze zur Beschleunigung der MR-Datenakquisition im Fokus der Entwicklung. Während zu Beginn des Jahrtausends die Parallele Bildgebung (PI) einen Forschungsschwerpunkt repräsentierte, spielte sich in den letzten fünf Jahren vermehrt die von Donoho und Candès eingeführte Compressed Sensing (CS) Theorie in den Vordergrund. Diese ermöglicht eine Signalrekonstruktion aus unvollständig gemessenen Koeffizienten einer linearen Messung (z.B. Fouriermessung) unter Ausnutzung der Sparsität des Signals in einer beliebigen Transformationsbasis. Da sich die MRT hervorragend für den Einsatz von CS eignet, wurde die Technik in der Forschung bereits vielfach angewendet. Die zur Rekonstruktion unterabgetasteter Aufnahmen nötigen CS-Algorithmen haben jedoch eine signifikante Veränderung des Bildgebungsprozesses der MRT zur Folge. Konnte dieser zuvor in guter Näherung als linear und stationär betrachtet werden, so repräsentiert die CS-Rekonstruktion eine nichtlineare und nichtstationäre Transformation. Objektinformation wird nicht mehr ortsunabhängig und proportional zur Intensität in die Abbildung transportiert. Das Bild ist viel mehr das Ergebnis eines Optimierungsprozesses, der sowohl die Konsistenz gegenüber der unterabgetasteten Messung als auch die Sparsität des Signals maximiert. Der erste Teil dieser Dissertation beschreibt eine Methode, die eine objektive Einschätzung der Bildqualität CS-rekonstruierter MR-Bilder ermöglicht. Die CS-Beschleunigung verspricht eine Verkürzung der Messzeit ohne Verlust an Bildqualität, wobei letztere bisher größtenteils qualitativ bzw. quantitativ nur unzureichend beurteilt wurde. Konnte der Bildgebungsprozess der klassischen MRT (linear und stationär) durch die Bestimmung einer Punktspreizfunktion (PSF) robust und effektiv validiert und optimiert werden, erlauben die CS-Algorithmen aufgrund ihres nichtlinearen und nichtstationären Verhaltens ohne Weiteres keine äquivalente Analyse. Um dennoch eine entsprechende Evaluierung des CS-Bildgebungsprozesses zu ermöglichen, wurde die Anwendung einer lokalen Punktspreizfunktion (LPSF) für den in der Folge verwendeten Iterative Soft Thresholding Algorithmus untersucht. Die LPSF berücksichtigt die Ortsabhängigkeit der CS-Rekonstruktion und muss daher für jeden Ort (Pixel) eines Bildes bestimmt werden. Darüber hinaus wurde die LPSF im linearen Bereich der CS-Transformation ermittelt. Dazu wurde das zu bewertende Bild nach Anwenden einer kleinen lokalen Störung rekonstruiert. Die Breite des Hauptmaximums der LPSF wurde schließlich verwendet, um ortsaufgelöste Auflösungsstudien durchzuführen. Es wurde sowohl der Einfluss typischer Unterabtastschemata für CS als auch der Einsatz diskreter Gradienten zur Sparsifizierung eines Phantombildes untersucht. Anschließend wurde die Prozedur zur Bestimmung der räumlichen und zeitlichen Auflösung in der Herzbildgebung getestet. In allen Beispielen ermöglichte das vorgeschlagene Verfahren eine solide und objektive Analyse der Bildauflösung CS-rekonstruierter Aufnahmen. Wurde zuvor meist ausschließlich auf Vergleiche mit einer vollständig abgetasteten Referenz zur Qualitätsbeurteilung zurückgegriffen, so stellt die vorgestellte Auflösungsbestimmung einen Schritt in Richtung einer standardisierten Bildanalyse bei der Verwendung der Beschleunigung mittels CS dar. Die Analyse der Abtastmuster zeigte, dass auch bei der Anwendung von CS die Berücksichtigung der nominell höchsten Frequenzen k_max unerlässlich ist. Frühere Publikationen schlagen Abtastfolgen mit einer teils starken Gewichtung der Messpunkte zum k-Raum-Zentrum hin vor. Die Ergebnisse der vorliegenden Arbeit relativieren ein derartiges Vorgehen, da zumindest bei den durchgeführten Untersuchungen ein Auflösungsverlust bei analoger Vorgehensweise zu verzeichnen war. Ebenso zeigten sich dynamische Aufnahmen, die unter Verwendung des x-f-Raums als sparse Basis rekonstruiert wurden, durchaus anfällig für zeitliches Blurring. Dieses resultiert aus der Unterdrückung hoher zeitlicher Frequenzen und konnte durch die ortsaufgelösten Auflösungskarten sichtbar gemacht werden. Neben der Auflösung ist für eine umfassende Analyse der Bildqualität auch die Untersuchung potentieller Aliasing-Artefakte sowie des Signal-zu-Rausch-Verhältnisses (SNR) notwendig. Während Aliasing mit Hilfe der Einträge der LPSF außerhalb des Hauptmaximums untersucht werden kann, wurde in Kap. 5 eine Modifikation der Multi-Replika-Methode von Robson et al. zur Rauschanalyse bei Verwendung nichtlinearer Algorithmen vorgestellt. Unter Einbeziehung aller genannten Qualitätsparameter ist eine robuste Bewertung der Bildqualität auch bei einer Verwendung von CS möglich. Die differenzierte Evaluierung ebnet den Weg hin zu einem objektiven Vergleich neuer Entwicklungen mit bisherigen Standard-Techniken und kann dadurch den Einzug von CS in die klinische Anwendung vorantreiben. Nach den theoretischen Betrachtungen der Bildqualität behandelt die Dissertation die erstmalige Anwendung von CS zur Beschleunigung der funktionellen Herzdiagnostik in der präklinischen MR-Kleintierbildgebung. Diese Studien wurden in Zusammenarbeit mit der British Heart Foundation Experimental Magnetic Resonance Unit (BMRU) der University of Oxford durchgeführt. Die Algorithmen für eine Beschleunigung mittels der CS-Theorie wurden anhand der dort am 9,4T Tomographen gemessenen (unterabgetasteten) Datensätze entwickelt und optimiert. Zunächst wurde eine Beschleunigung ausschließlich mittels CS untersucht. Dazu wurde die segmentierte, EKG- und Atemgetriggerte kartesische Cine-Aufnahme in Phasenkodierrichtung unterabgetastet und mittels CS rekonstruiert. Die sparse Darstellung wurde durch Ermitteln zeitlicher Differenzbilder für jede Herzphase erhalten. Durch Variation der Abtastmuster in der zeitlichen Dimension konnte ein vollständig abgetastetes zeitliches Mittelbild bestimmt werden, das anschließend von jedem einzelnen Herzphasenbild subtrahiert wurde. In einer Validierungsphase wurden an der Maus vollständig aufgenommene Cine-Akquisitionen retrospektiv unterabgetastet, um die maximal mögliche Beschleunigung mittels CS zu ermitteln. Es wurden u.a. funktionelle Herz-Parameter für jede Gruppe des jeweiligen Beschleunigungsfaktors bestimmt und mittels einer statistischen Analyse verglichen. Die Gesamtheit aller Ergebnisse zeigte die Möglichkeit einer dreifachen Beschleunigung ohne eine Degradierung der Genauigkeit der Methode auf. Die ermittelte Maximalbeschleunigung wurde in einer unterabgetastet gemessenen Bilderserie mit anschließender CS-Rekonstruktion validiert. Die Abtastschemata wurden dazu mit Hilfe der Transformations-Punktspreizfunktion weiter optimiert. In einer Erweiterung der Studie wurde zum Zweck einer noch höheren Beschleunigung die CS-Technik mit der PI kombiniert. Erneut fand eine Unterabtastung der Phasenkodierrichtung einer kartesischen Trajektorie statt. Die Messungen erfolgten mit einer 8-Kanal-Mäusespule an einem 9,4T Tomographen. Um das Potential beider Beschleunigungstechniken auszunutzen, wurden die Methoden CS und PI in serieller Weise implementiert. Für die PI-Beschleunigung wurde der vollständig abgetastete k-Raum zunächst gleichmäßig unterabgetastet. Auf dem resultierenden Untergitter wurde zusätzlich eine Unterabtastung nach Pseudo-Zufallszahlen durchgeführt, um eine Beschleunigung mittels CS zu ermöglichen. Die entwickelte Rekonstruktion erfolgte ebenfalls seriell. Zunächst wurde mittels CS das äquidistante Untergitter rekonstruiert, um anschließend mittels GRAPPA die noch fehlenden Daten zu berechnen. Um eine zusätzliche Messung zur Kalibrierung der GRAPPA-Faktoren zu umgehen, wurde das äquidistant unterabgetastete Untergitter von Herzphase zu Herzphase um je einen Phasenkodierschritt weitergeschoben. Dieses Vorgehen erlaubt die Ermittlung eines vollständig abgetasteten k-Raums mit einer geringeren zeitlichen Auflösung, der die notwendige Bestimmung der Wichtungsfaktoren ermöglicht. Folgende Kombinationen von Beschleunigungsfaktoren wurden mittels retrospektiver Unterabtastung eines vollständig aufgenommenen Datensatzes untersucht: R_CS x R_PI = 2 x 2, 2 x 3, 3 x 2 und 3 x 3. Die Analyse des Bildrauschens, des systematischen Fehlers und der Auflösung führte zu dem Schluss, dass eine sechsfache Beschleunigung mit Hilfe der hybriden Rekonstruktionstechnik möglich ist. Während mit steigender CS-Beschleunigung der systematische Fehler leicht anstieg, führte ein höherer PI-Beschleunigungsfaktor zu einer leichten Verstärkung des statistischen Fehlers. Der statistische Fehler zeigte jedoch ebenfalls eine Verringerung bei steigender Beschleunigung mittels CS. Die Fehler waren allerdings stets auf einem Niveau, das durchaus auch Beschleunigungen bis R_CS x R_PI =3 x 3 zulässt. Die LPSF-Analyse zeigte einen Verlust der räumlichen Auflösung von ca. 50 % bei R=6 sowie einen mittleren Verlust von 64 % bei R=9. Offensichtlich ging die ebenfalls beobachtete Minimierung des Bildrauschens durch den CS-Algorithmus im Falle der relativ stark verrauschten Kleintieraufnahmen zu Lasten der Bildauflösung. Die mit zunehmender Beschleunigung stärker geblurrten Grenzen zwischen Blutpool und Myokardgewebe erschweren die Segmentierung und stellen eine mögliche Fehlerquelle dar. Unter Beachtung aller Ergebnisse ist eine sechsfache Beschleunigung (R_CS x R_PI = 2 x 3, 3 x 2) vertretbar. Die Hinzunahme der PI ermöglicht somit im Vergleich zur alleinigen Verwendung von CS eine weitere Beschleunigung um einen Faktor von zwei. Zusammenfassend ermöglicht der Einsatz von CS in der präklinischen funktionellen Herzbildgebung am Kleintier eine deutliche Reduktion der Messzeit. Bereits ohne Vorhandensein von Mehrkanalspulen kann die notwendige Datenmenge ohne signifikante Beeinflussung der Messergebnisse auf ein Drittel reduziert werden. Ist der Einsatz von Spulenarrays möglich, kann die mit PI mögliche dreifache Beschleunigung um einen weiteren Faktor zwei mittels CS auf R=6 erweitert werden. Dementsprechend kann CS einen wesentlichen Beitrag dazu leisten, dass das Potential Herz-MRT am Kleintier in großen Studienkollektiven effektiver abgerufen werden kann. Im letzten Teil der Arbeit wurde eine Technik für die funktionelle klinische MR-Herzbildgebung entwickelt. Hier wurde eine Beschleunigung mittels CS verwendet, um die Aufnahme des gesamten Herzens innerhalb eines Atemstillstandes des Patienten zu ermöglichen. Bei der derzeitigen Standardmethode werden üblicherweise 10-15 2D-Schichten des Herzens akquiriert, wobei jede einzelne Aufnahme einen Atemstillstand des Patienten erfordert. Für die notwendige Beschleunigung wurde eine unterabgetastete 3D-Trajektorie verwendet. Durch Phasenkodierung einer Richtung sowie radiale Projektionen in den beiden anderen Dimensionen konnte eine effiziente Aufnahme unterhalb des Nyquist-Kriteriums erreicht werden. Die Sparsifizierung erfolgte, wie bereits in der beschriebenen präklinischen Anwendung, durch die Subtraktion eines zeitlichen Mittelbildes. In einer Simulation anhand eines retrospektiv unterabgetasteten Datensatzes konnte die theoretische Funktionalität der Rekonstruktionstechnik bei einer Beschleunigung bezüglich der Nyquist-Abtastung von R ~ 10 validiert werden. Die Unterschiede zum vollständig abgetasteten Datensatz waren vernachlässigbar klein, so dass die vorgeschlagene Abtastfolge am Tomographen implementiert wurde. Mit dieser Sequenz wurde anschließend eine funktionelle Bilderserie an einem gesunden Probanden mit vollständiger Herzabdeckung innerhalb eines Atemstopps aufgenommen. Fehlende Daten wurden analog zur Simulation mit Hilfe des vorgeschlagenen Algorithmus rekonstruiert. Im Vergleich zur Simulation ergaben sich aufgrund des Schichtprofils der 3D-Slab-Anregung zusätzliche Aliasing-Artefakte in den äußeren Partitionen. Die für radiale Aufnahmen typischen Streifenartefakte waren im rekonstruierten Bild, wenn auch mit sehr geringer Amplitude, noch erkennbar. Davon abgesehen wurde die Dynamik jedoch über das gesamte Herz hinweg gut dargestellt. Der hohe Kontrast zwischen Myokard und Blutpool bescheinigt den Bildern eine hervorragende Eignung für die Bestimmung funktioneller Herzparameter mittels einer Segmentierung. Zusammengefasst erlaubt die entwickelte Methode aufgrund der drastischen Reduktion der notwendigen Atemstopps des Patienten einen deutlich erhöhten Patientenkomfort sowie einen schnelleren Durchsatz aufgrund der verkürzten Messzeit.
Adoptive immunotherapy using chimeric antigen receptor (CAR)-modified T cells is an effective treatment for hematological malignancies that are refractory to conventional chemotherapy. To address a wider variety of cancer entities, there is a need to identify and characterize additional target antigens for CAR-T cell therapy. The two members of the receptor tyrosine kinase-like orphan receptor family, ROR1 and ROR2, have been found to be overexpressed on cancer cells and to correlate with aggressive cancer phenotypes. Recently, ROR1-specific CAR-T cells have entered testing in phase I clinical trials, encouraging us to assess the suitability of ROR2 as a novel target for CAR-T cell therapy. To study the therapeutic potential of targeting ROR2 in solid and hematological malignancies, we selected two representative cancer entities with high unmet medical need: renal cell carcinoma and multiple myeloma.
Our data show that ROR2 is commonly expressed on primary samples and cell lines of clear cell renal cell carcinoma and multiple myeloma. To study the efficacy of ROR2-specific CAR T cell therapy, we designed two CAR constructs with 10-fold binding affinity differences for the same epitope of ROR2. We found both cell products to exhibit antigen-specific anti-tumor reactivity in vitro, including tumor cell lysis, secretion of the effector cytokines interleukin-2 (IL-2) and interferon-gamma (IFNγ), and T cell proliferation. In vivo studies revealed ROR2 specific CAR-T cells to confer durable responses, significant survival benefits and long-term persistence of CAR-expressing T cells. Overall, there was a trend towards more potent anti-tumor efficacy upon treatment with T cells that expressed the CAR with higher affinity for ROR2, both in vitro and in vivo.
We performed a preclinical safety and toxicology assessment comprising analyses of ROR2 expression in healthy human and murine tissues, cross-reactivity, and adoptive T cell transfer in immunodeficient mice. We found ROR2 expression to be conserved in mice, and low-level expression was detectable in the male and female reproductive system as well as parts of the gastrointestinal tract. CAR-T cells targeting human ROR2 were found to elicit similarly potent reactivity upon recognition of murine ROR2. In vivo analyses showed transient tissue-specific enrichment and activation of ROR2-specific CAR-T cells in organs with high blood circulation, such as lung, liver, or spleen, without evidence for clinical toxicity or tissue damage as determined by histological analyses.
Furthermore, we humanized the CAR binding domain of ROR2-specific CAR-T cells to mitigate the risk of adverse immune reactions and concomitant CAR-T cell rejection. Functional analyses confirmed that humanized CARs retained their specificity and functionality against ROR2-positive tumor cells in vitro.
In summary, we show that ROR2 is a prevalent target in RCC and MM, which can be addressed effectively with ROR2-specific CAR-T cells in preclinical models. Our preliminary toxicity studies suggest a favorable safety profile for ROR2-specific CAR-T cells. These findings support the potential to develop ROR2-specific CAR-T cells clinically to obtain cell products with broad utility.
The Notch signaling pathway is crucial for mammalian heart development. It controls cell-fate decisions, coordinates patterning processes and regulates proliferation and differentiation. Critical Notch effectors are Hey bHLH transcription factors (TF) that are expressed in atrial (Hey1) and ventricular (Hey2) cardiomyocytes (CM) and in the developing endocardium (Hey1/2/L). The importance of Hey proteins for cardiac development is demonstrated by knockout (KO) mice, which suffer from lethal cardiac defects, such as ventricular septum defects (VSD), valve defects and cardiomyopathy. Despite this clear functional relevance, little is known about Hey downstream targets in the heart and the molecular mechanism by which they are regulated.
Here, I use a cell culture system with inducible Hey1, Hey2 or HeyL expression to study Hey target gene regulation in HEK293 cells, in murine embryonic stem cells (ESC) and in ESC derived CM. In HEK293 cells, I could show that genome wide binding sites largely overlap between all three Hey proteins, but HeyL has many additional binding sites that are not bound by Hey1 or Hey2. Shared binding sites are located close to transcription start sites (TSS) where Hey proteins preferentially bind to canonical E boxes, although more loosely defined modes of binding exist. Additional sites only bound by HeyL are more scattered across the genome. The ability of HeyL to bind these sites depends on the C-terminal part of the protein. Although there are genes which are differently regulated by HeyL, it is unclear whether this regulation results from binding of additional sites by HeyL.
Additionally, Hey target gene regulation was studied in ESC and differentiated CM, which are more relevant for the observed cardiac phenotypes. ESC derived CM contract in culture and are positive for typical cardiac markers by qRT PCR and staining. According to these markers differentiation is unaffected by prolonged Hey1 or Hey2 overexpression. Regulated genes are largely redundant between Hey1 and Hey2. These are mainly other TF involved in e.g. developmental processes, apoptosis, cell migration and cell cycle. Many target genes are cell type specifically regulated causing a shift in Hey repression of genes involved in cell migration in ESC to repression of genes involved in cell cycle in CM.
The number of Hey binding sites is reduced in CM and HEK293 cells compared to ESC, most likely due to more regions of dense chromatin in differentiated cells. Binding sites are enriched at the proximal promoters of down-regulated genes, compared to up-or non-regulated genes. This indicates that up-regulation primarily results from indirect effects, while down-regulation is the direct results of Hey binding to target promoters. The extent of repression generally correlates with the amount of Hey binding and subsequent recruitment of histone deacetylases (Hdac) to target promoters resulting in histone H3 deacetylation.
However, in CM the repressive effect of Hey binding on a subset of genes can be annulled, likely due to binding of cardiac specific activators like Srf, Nkx2-5 and Gata4. These factors seem not to interfere with Hey binding in CM, but they recruit histone acetylases such as p300 that may counteract Hey mediated histone H3 deacetylation. Such a scenario explains differential regulation of Hey target genes between ESC and CM resulting in gene and cell-type specific regulation.
G-quadruplex structures are highly stable alternative DNA structures that can, when not properly regulated, impede replication fork progression and cause genome instability (Castillo Bosch et al, 2014; Crabbe et al, 2004; Koole et al, 2014; Kruisselbrink et al, 2008; London et al, 2008; Lopes et al, 2011; Paeschke et al, 2013; Paeschke et al, 2011; Piazza et al, 2015; Piazza et al, 2010; Piazza et al, 2012; Ribeyre et al, 2009; Sabouri et al, 2014; Sarkies et al, 2012; Sarkies et al, 2010; Schiavone et al, 2014; Wu & Spies, 2016; Zimmer et al, 2016). The aim of this thesis was to identify novel G-quadruplex interacting proteins in Saccharomyces cerevisiae and to unravel their regulatory function at these structures to maintain genome integrity. Mms1 and Rtt101 were identified as G-quadruplex binding proteins in vitro via a pull-down experiment with subsequent mass spectrometry analysis. Rtt101, Mms1 and Mms22, which are all components of an ubiquitin ligase (Rtt101Mms1/Mms22), are important for the progression of the replication fork following fork stalling (Luke et al, 2006; Vaisica et al, 2011; Zaidi et al, 2008). The in vivo binding of endogenously tagged Mms1 to its target regions was analyzed genome-wide using chromatin-immunoprecipitation followed by deep-sequencing. Interestingly, Mms1 bound independently of Mms22 and Rtt101 to G-rich regions that have the potential to form G-quadruplex structures. In vitro, formation of G-quadruplex structures could be shown for the G-rich regions Mms1 bound to. This binding was observed throughout the cell cycle. Furthermore, the deletion of MMS1 caused replication fork stalling as evidenced by increased association of DNA Polymerase 2 at Mms1 dependent sites. A gross chromosomal rearrangement assay revealed that deletion of MMS1 results in a significantly increased genome instability at G-quadruplex motifs compared to G-rich or non-G-rich regions. Additionally, binding of the helicase Pif1, which unwinds G4 structures in vitro (Paeschke et al, 2013; Ribeyre et al, 2009; Sanders, 2010; Wallgren et al, 2016), to Mms1 binding sites was reduced in mms1 cells. The data presented in this thesis, together with published data, suggests a novel mechanistic model in which Mms1 binds to G-quadruplex structures and enables Pif1 association. This allows for replication fork progression and genome integrity.
A subtly regulated and controlled course of cellular processes is essential for the healthy functioning not only of single cells, but also of organs being constituted thereof. In return, this entails the proper functioning of the whole organism. This implies a complex intra- and inter-cellular communication and signal processing that require equally multi-faceted methods to describe and investigate the underlying processes. Within the scope of this thesis, mathematical modeling of cellular signaling finds its application in the analysis of cellular processes and signaling cascades in different organisms. ...
A precious treasure in traditional Chinese medicine (TCM), acupuncture played a vital and irreplaceable role in contributing to people’s health in the thousands of years of Chinese history, and in 2010 was officially added to the “Representative List of the Intangible Cultural Heritage of Humanity” by the United Nations. Because of the side-effects of long-term drug therapy for pain, and the risks of dependency, acupuncture has been widely accepted as one of the most important alternative choice therapies for treating varieties of acute and chronic pain-related disorders. The clinical application and scientific mechanism research of acupuncture have therefore increased intensively in the last few decades. Besides hand acupuncture, other treatment approaches e.g. electroacupuncture (EA) have been widely accepted and applied as an important acupuncture-related technique for acupuncture analgesia (AA) research. The involvement of opioid peptides and receptors in acute AA has been shown via pre-EA application of opioid receptor/peptide antagonists. However, existing publications still cannot illuminate the answer to the following question: how does sustained antinociception happen by EA treatment? The hypothesis of opioid peptide-mediated tonic AA might be able to answer the question.
In the first part of this thesis, the institution of a reproducible acupuncture treatment model as well as the endogenous opioid-related mechanisms was demonstrated. An anatomically-based three-dimensional (3D) rat model was established to exhibit a digital true-to-life organism, accurate acupoint position and EA treatment protocol on bilateral acupoint GB-30 Huantiao. The optimal EA treatment protocol (100 Hz, 2-3 mA, 0.1 ms, 20 min) at 0 and 24 h after induction of inflammatory pain by complete Freund’s adjuvant (CFA) on conscious free-moving rats was then established. EA elicited significant sustained mechanical and thermal antinociception up to 144 h. Post-EA application of opioid receptors (mu opioid receptor, MOR; delta opioid receptor, DOR) antagonists naloxone (NLX) and naltrindole (NTI), or opioid peptide antibodies anti-beta-endorphin (anti-END), met-enkephalin (anti-ENK) or -dynorphin A (anti-DYN) could also block this effect at a late phase (96 h) of CFA post-EA, which suggested opioid-dependent tonic analgesia was produced by EA. Meanwhile, EA also reduced paw temperature and volume at 72-144 h post CFA indicating anti-inflammatory effects. Nociceptive thresholds were assessed by paw pressure threshold (Randall-Sellito) or paw withdrawal latency (Hargreaves) and an anti-inflammatory effect was evaluated by measurement of plantar temperature and volume of inflamed paw.
The second part of the thesis further suggests the correlation between the chemokine CXCL10 (= interferon-gamma inducible protein 10, IP-10) and opioid peptides in EA-induced antinociception. Based on a comprehensive Cytokine Array of 29 cytokines, targeted cytokines interleukin (IL)-1alpha, interleukin (IL)-1beta, tumor necrosis factor (TNF)-alpha, interleukin (IL)-4, interleukin (IL)-13, interferon (IFN)-gamma as well as CXCL10 were selected and quantified by enzyme-linked immunosorbent assay (ELISA), and real time reverse transcription-polymerase chain reaction (RT-PCR) quantification confirmed upregulation of CXCL10 mRNA at both 72 and 96 h. The following hyperalgesic assessment suggested the antinociceptive effect of CXCL10. The double immunostaining localizing opioid peptides with macrophages expressed the evident upregulation of CXCR3-receptor of CXCL10 in EA treated samples as well as the significant upregulation or downregulation of opioid peptides by repeated treatment of CXCL10 or antibody of CXCL10 via behavioral tests and immune staining. Subsequent immunoblotting measurements showed non-alteration of opioid receptor level by EA, indicating that the opioid receptors did not apparently contribute to AA in the present studies. In vitro, CXCL10 did not directly trigger opioid peptide END release from freshly isolated rat macrophages. This might implicate an indirect property of CXCL10 in vitro stimulating the opioid peptide-containing macrophages by requiring additional mediators in inflammatory tissue.
In summary, this project intended to explore the peripheral opioid-dependent analgesic mechanisms of acupuncture with a novel 3D treatment rat model and put forward new information to support the pivot role of chemokine CXCL10 in mediating EA-induced tonic antinociception via peripheral opioid peptides.
Die Deregulation des Transkriptionsfaktors Myc ist ein charakteristisches Merkmal für eine Vielzahl von humanen Tumoren. Durch die transkriptionelle Aktivierung von Genen, die im Zusammenhang mit Metabolismus, Translation und Proliferation stehen, wird dadurch das Tumorwachstum begünstigt. Myc bildet zudem mit dem Zinkfinger-Protein Miz1 einen Komplex, der hemmend auf die Transkription von Zielgenen wirkt. Bisher sind nur wenige Myc/Miz1-reprimierte Zielgene bekannt. In der vorliegenden Arbeit konnten genomweit die DNA-Bindestellen von Myc und Miz1 durch Chromatin-Immunpräzipitationen gefolgt von Hochdurchsatzsequenzierung in einer Zervixkarzinomzelllinie bestimmt werden.
Es konnte gezeigt werden, dass Myc an Promotoren aller drei RNA-Polymerasen sowie in enhancer-Regionen bindet, während Miz1 Kernpromotoren von RNA-Polymerase II- und III-transkribierten Genen besetzt. reChIP-Experimente zeigten, dass Myc und Miz1 als Komplex an Promotoren von Zielgenen binden. Zudem wurde ein Miz1-DNA-Bindemotiv identifiziert und der transaktivierende Einfluss von Miz1 auf Gene mit diesem Motiv nachgewiesen. Das überwiegende Vorhandensein von Myc/Max-Komplexen führt zu einer Transaktivierung von E-Box-haltigen Promotoren. Andererseits erfolgt die transkriptionelle Repression von Myc/Miz1-Zielgenen an Promotoren, an denen der Myc/Miz1-Komplex vorherrscht.
In aktuellen Publikationen konnte gezeigt werden, dass nach mitogener Stimulation von Lymphozyten es zu einer Erhöhung der Myc-Expression kommt, wodurch Myc als ein genereller Transkriptionsaktivator fungiert, der alle Gene gleichermaßen induziert. Trotz hoher Myc-Mengen in Tumorzellen konnte die generelle Myc-vermittelte Transaktivierung nicht nachgewiesen werden. Zusätzlich zur Myc-abhängigen Transaktivierung von E-Box-haltigen Genen, z. B. beteiligt an Translation und RNA-Prozessierung, und der Miz1-vermittelten transkriptionellen Aktivierung von Genen mit Miz1-Motiv (z. B. involviert in Autophagie), konnte entgegen dem Modell der generellen Genamplifikation durch Myc eine Myc/Miz1-abhängige Repression von Zielgenen belegt werden. Die neu gewonnenen Erkenntnisse des Bindeverhaltens des Myc/Miz1-Komplexes und der daraus resultierenden transkriptionellen Regulation von Myc/Miz1-Zielgenen ermöglichen ein besseres Verständnis der Myc-Funktion in Tumorzellen und könnte zur Verbesserung von Tumortherapien führen.
Kontraktion und Relaxation sind die beiden entscheidenden energieverbrauchenden Prozesse der Herzarbeit, die sich unter anderem mit modernen echokardiographischen Techniken, wie dem Strain Imaging, quantifizieren lassen. An 1818 Probanden (52% weibliche Probanden, mittleres Alter 54 ±12 Jahre) der populationsbasierten Würzburger STAAB Kohortenstudie leiteten wir unter Berücksichtigung von Alter und Geschlecht der Probanden Referenzwerte für globale und segmentale systolische und diastolische Deformationsparameter mittels 2D Speckle Echo-Tracking ab.
Wir fanden, dass sich die myokardiale Suszeptibilität für klassische kardiovaskuläre Risikofaktoren bei Männern und Frauen unterscheidet. Insgesamt war die Auswertbarkeit gut (67% des globalen Strain, 82% der systolischen und frühdiastolischen Strain Rate und 83% der diastolischen Strain Rate). Arterieller Hypertonus und Dyslipidämie wirkten sich insbesondere auf das weibliche Myokard ungünstig aus, wohingegen der Risikofaktor Adipositas bei beiden Geschlechtern negativ mit systolischer und frühdiastolischer Deformation assoziiert war.
Weder Diabetes mellitus noch Rauchen schienen die myokardiale Deformation zu beeinflussen. Die frühdiastolische Relaxation wurde durch Hypertonus negativ bei Frauen beeinflusst, obwohl die Prävalenz in der männlichen Gruppe höher war. Die systolische Strain Rate war zudem signifikant von arteriellem Hypertonus, Dyslipidämie und Adipositas bei Frauen beeinflusst. Diese Ergebnisse implizieren eine geschlechtsabhängige Sensitivität des Myokards auf individuelle Risikofaktoren. Die Vulnerabilität des weiblichen Myokards auf hypertone Blutdruckwerte mit konsekutiver Alteration der aktiven frühdiastolischen Relaxation stellt somit eine mögliche Erklärung für den größeren Anteil an Frauen mit HFpEF (heart failure with preserved ejection fraction) in der Allgemeinbevölkerung dar.
Ein negativer Einfluss durch Nikotinkonsum war in unserem Ansatz hingegen nicht nachweisbar, in dem nicht das Ausmaß des Nikotinkonsums, sondern nur die Assoziation der binären Variable „Raucherstatus“ mit Strain-Parameternuntersucht wurde. Dahingehend ist eine dosisabhängige myokardiale Schädigung nicht auszuschließen.
In der vorliegenden Studie wurde erstmalig der individuelle Effekt jedes Hauptrisikofaktors auf systolische und diastolische Strain-Parameter in einer populationsbasierten und nach Geschlecht und Alter stratifizierten Kohorte untersucht. Auf Basis der Studienergebnisse ist jetzt eine objektive Abschätzung von Effektgrößen und der Power für künftige Studienplanung möglich und es lassen sich Studien zur Einordnung der myokardialen Deformation in bestimmten Patientengruppen objektivierbar vergleichen.
Unsere Ergebnisse unterstreichen zudem die Notwendigkeit von Studien bezüglich Primärprävention asymptomatischer kardiovaskulärer Risikopatienten mittels nichtinvasiver Methoden. Eine wichtige Rolle kommt dabei auch der Standardisierung von Softwaresystemen zu, die die Anwendung im klinischen Alltag und die globale Anwendung von Referenzwerten bzw. deren pathologischer Abweichung vereinfachen wird.
The genetic modification of T cells for the expression a chimeric antigen receptor (CAR) endows them with a new specificity for an antigen. Adoptive immunotherapy with CD19-CAR T cells has achieved high rates of sustained complete remissions in B cell malignancies. However, the downregulation or loss of the targeted antigen after mono-specific CAR T cell therapy, e.g. against CD19 or CD22, has been reported. Targeting multiple antigens on tumour cells, sequentially or simultaneously, could overcome this limitation. Additionally, targeting multiple antigens with CAR T cells could drive the translation from hematologic malignancies to prevalent solid cancers, which often express tumour-associated antigens heterogeneously. We hypothesised that expression of a universal CAR, which can be programmed with hapten-like molecules, could endow T cells with specificities for multiple antigens.
In this study we introduce a novel chemically programmable CAR (cpCAR) based on monoclonal antibody h38C2. Our data show, that cpCARs form a reversible chemical bond to molecules containing a diketone-group and therefore can be programmed to acquire multiple specificities. We programmed cpCAR T cells with hapten-like compounds against integrins αvβ3 and α4β1 as well as the folate receptor. We observed tumour cell lysis, IFN ɣ and IL-2 production and proliferation of programmed cpCAR T cells against tumour cells expressing the respective target antigen in vitro.
As a reference to cpCARs programmed against αvβ3, we further introduced novel conventional αvβ3-CARs. These CARs, based on humanised variants of monoclonal antibody LM609 (hLM609), directly bind to integrin αvβ3 via their scFv. The four αvβ3-CAR constructs comprised either an scFv with higher affinity (hLM609v7) or lower affinity (hLM609v11) against αvβ3 integrin and either a long (IgG4 hinge, CH2, CH3) or short (IgG4 hinge) extracellular spacer. We selected the hLM609v7-CAR with short spacer, which showed potent anti-tumour reactivity both in vitro and in a murine xenograft model, for comparison with the cpCAR programmed against αvβ3. Our data show specific lysis of αvβ3-positive tumour cells, cytokine production and proliferation of both hLM609-CAR T cells and cpCAR T cells in vitro. However, conventional hLM609-CAR T cells mediated stronger anti-tumour effects compared to cpCAR T cells in the same amount of time. In line with the in vitro data, complete destruction of tumour lesions in a murine melanoma xenograft model was only observed for mice treated with conventional αvβ3-CAR T cells.
Collectively, we introduce a cpCAR, which can be programmed against multiple tumour antigens, and hLM609-CARs specific for the integrin αvβ3. The cpCAR technology bears the potential to counteract current limitations, e.g. antigen loss, of current monospecific CAR T cell therapy. Targeting αvβ3 integrin with CAR T cells could have clinical applications in the treatment of solid malignancies, because αvβ3 is not only expressed on a variety of solid malignancies, but also on tumour-associated vasculature and fibroblast.
Graft-versus-Host Disease (GvHD) stellt einen häufigen, den Gesamterfolg einer allogenen hämatopoetischen Stammzelltransplantation limitierenden Faktor dar. Bei dieser Komplikation attackieren vor allem alloreaktive T-Lymphozyten des Stammzellspenders gesunde Körperzellen des Patienten. Infolgedessen kommt es zu Gewebeschäden in den Zielorganen Haut, Leber und Darm. Die Behandlung der GvHD erfordert eine effektive Immunsuppression, was wiederum Graft-versusTumor-Effekte kompromittiert und den Rückfall der malignen Grunderkrankung bedingen kann. Viele Patienten sprechen aus bisher ungeklärten Gründen nicht auf die klassische immunsuppressive Therapie mit Steroiden oder second-line Therapien an. Neue zelluläre Therapien zur Behandlung der refraktären GvHD sind auf dem Vormarsch, bedürfen aber einer weiterführenden klinischen Testung, auch um die exakten Wirkungsmechanismen zu verstehen. Idealerweise könnten neue Testsysteme das GvHD-Potential von allogenen Stammzellpräparaten oder aber das immunsuppressive Potential von neuen GvHD-Therapien vorhersagen, bevor diese in klinischen Studien eingesetzt werden. Ziel der vorliegenden Arbeit war es, ein erstes, in multiplen Replikaten einsetzbares, humanes organotypisches Gewebemodell zur Simulation einer GvHD-Reaktion am Beispiel der Haut zu etablieren.
Zu diesem Zweck wurden artifizielle humane Hautmodelle unter statischen (KollagenHautmodelle) und dynamischen Kulturbedingungen (vaskularisierte Hautmodelle) generiert. Die Injektion unstimulierter PBMCs (engl. peripheral blood mononuclear cells) führte zu keinen histomorphologischen Veränderungen in den KollagenHautmodellen. Im Gegensatz dazu hatte die Injektion vorstimulierter allogener PBMCs eine Zerstörung der epidermalen Strukturen der Kollagen-Hautmodelle zur Folge, welche vergleichbar waren mit Gewebeschäden bei einer akuten GvHD der Haut. Dieselben Schädigungen der Epidermis wurden durch die Injektion von Mediumüberständen vorstimulierter PBMCs in die Kollagen-Hautmodelle erreicht. Im Kulturmedium der Kollagen-Hautmodelle wurden hohe Konzentrationen von Interleukin 2 und 17, Interferon gamma sowie Tumornekrosefaktor alpha gemessen, wodurch auf die Beteiligung von Zytokinen an der inflammatorischen Reaktion geschlossen werden konnte. Auch im komplexeren vaskularisierten Hautmodell verursachte die Injektion vorstimulierter PBMCs histomorphologische Veränderungen entsprechend einer akuten Haut-GvHD sowie einen zeitabhängigen Anstieg proinflammatorischer Zytokine.
Zusammenfassend zeigen die Resultate dieser Arbeit, dass die Induktion einer starken Inflammations- und Immunreaktion in artifiziellen humanen Hautmodellen, welche histomorphologisch eine GvHD imitiert, möglich ist. Dieses Modell könnte als Grundlage für die Entwicklung eines klinisch relevanten Testsystems zur Bestimmung des GvHD-Restpotentials oder zur Festlegung der immunsuppressiven Kapazität innovativer Zellpräparate dienen. Somit könnten humane artifizielle GvHDModelle in klinischen Studien eingesetzt werden und die Erfahrungen aus Tiermodellen ergänzen sowie erste in vitro Ergebnisse im humanen System liefern, welche dann mit dem tatsächlichen klinischen Resultat verglichen werden könnten.
Based on genetic association and functional imaging studies, reduced function of tryptophan hydroxylase-2 (TPH2) has been shown to be critically involved in the pathophysiology of anxiety-disorders and depression. In order to elucidate the impact of a complete neuronal 5-HT deficiency, mice with a targeted inactivation of the gene encoding Tph2 were generated. Interestingly, survival of Tph2-/- mice, the formation of serotonergic neurons and the pathfinding of their projections was not impaired. Within this thesis, I investigated the influence of 5-HT deficiency on the γ-amino butyric acid (GABA) system. The GABAergic system is implicated in the pathophysiology of anxiety disorders. Therefore, measurement of GABA concentrations in different limbic brain regions was carried out. These measurements were combined with immunohistochemical estimation of GABAergic cell subpopulations in the dorsal hippocampus and amygdala. In Tph2-/- mice GABA concentrations were increased exclusively in the dorsal hippocampus. In heterozygous Tph2+/- mice concentrations of GABA were increased in the amygdala compared to Tph2-/- and wt control mice, while the reverse was found in the prefrontal cortex. The changes in GABA concentrations were accompanied by altered cell density of GABAergic neurons within the basolateral complex of the amygdala and parvalbumin (PV) neurons of the dorsal hippocampus and by adaptational changes of 5-HT receptors. Thus, adaptive changes during the development on the GABA system may reflect altered anxiety-like and depressive-like behavior in adulthood. Moreover, chronic mild stress (CMS) rescues the depressive-like effects induced by 5-HT deficiency. In contrast, 5-HT is important in mediating an increased innate anxiety-like behavior under CMS conditions. This is in line with a proposed dual role of 5-HT acting through different mechanisms on anxiety and depressive-like behavior, which is influenced by gene-environment interaction effects. Further research is needed to disentangle these complex networks in the future.
Cellular membranes form a boundary to shield the inside of a cell from the outside. This is of special importance for bacteria, unicellular organisms whose membranes are in direct contact with the environment. The membrane needs to allow the reception of information about beneficial and harmful environmental conditions for the cell to evoke an appropriate response. Information gathering is mediated by proteins that need to be correctly organized in the membrane to be able to transmit information. Several principles of membrane organization are known that show a heterogeneous distribution of membrane lipids and proteins. One of them is functional membrane microdomains (FMM) which are platforms with a distinct lipid and protein composition. FMM move within the membrane and their integrity is important for several cellular processes like signal transduction, membrane trafficking and cellular differentiation. FMM harbor the marker proteins flotillins which are scaffolding proteins that act as chaperones in tethering protein cargo to FMM. This enhances the efficiency of cargo protein oligomerization or complex formation which in turn is important for their functionality. The bacterium Bacillus subtilis contains two flotillin proteins, FloA and FloT. They form different FMM assemblies which are structurally similar, but differ in the protein cargo and thus in the specific function.
In this work, the mobility of FloA and FloT assemblies in the membrane was dissected using live-cell fluorescence microscopy techniques coupled to genetic, biochemical and molecular biological methods. A characteristic mobility pattern was observed which revealed that the mobility of both flotillins was spatially restricted. Restrictions were bigger for FloT resulting in a decreased diffusion coefficient compared to FloA. Flotillin mobility depends on the interplay of several factors. Firstly, the intrinsic properties of flotillins determine the binding of different protein interaction partners. These proteins directly affect the mobility of flotillins. Additionally, binding of interaction partners determines the assembly size of FloA and FloT. This indirectly affects the mobility, as the endo-cytoskeleton spatially restricts flotillin mobility in a size-dependent manner. Furthermore, the extracellular cell wall plays a dual role in flotillin mobility: its synthesis stimulates flotillin mobility, while at the same time its presence restricts flotillin mobility. As the intracellular flotillins do not have spatial access to the exo-cytoskeleton, this connection is likely mediated indirectly by their cell wall-associated protein interaction partners. Together the exo- and the endo-cytoskeleton restrict the mobility of FloA and FloT.
Similar structural restrictions of flotillin mobility have been reported for plant cells as well, where the actin cytoskeleton and the cell wall restrict flotillin mobility. These similarities between eukaryotic and prokaryotic cells indicate that the restriction of flotillin mobility might be a conserved mechanism.
Chronic Kidney Disease as an Important Co-morbid Condition in Coronary Heart Disease Patients
(2019)
In patients with coronary heart disease (CHD) the control of the modifiable “traditional” cardiovascular risk factors such as hypertension, dyslipidemia, diabetes, achieving/maintaining normal body weight and smoking cessation is of major importance to improve prognosis. Guideline recommendations for secondary CHD prevention include specific treatment targets for blood pressure, lipid levels, and markers of glucose metabolism for both younger and older patients. Chronic kidney disease (CKD) has been identified as a “non-traditional” risk factor for worse outcome in CHD patients, as it is associated with a markedly increased risk for subsequent CV events and mortality.
The specific objectives of the current thesis-project are to investigate (a) the quality of care in a recent sample of German CHD patients and to investigate variation of risk factor control between younger and elder patients (≤70 versus >70 years), (b) to analyze the prevalence of CKD across Europe in stable CHD patients in the outpatient setting and during a hospital stay for CHD, (c) to investigate the level of awareness of CKD in German CHD patients and their treating physicians.
Data from the European-wide EUROASPIRE IV study were used that include data on 7998 CHD patients in the ambulatory setting (study visit) and during a hospital stay for CHD (index). The German EUROASPIRE IV study center in Würzburg recruited 536 patients in 2012-2013. Risk factor control was compared against the current recommendations of the European Society of Cardiology. CKD was described by stages of glomerular filtration rate (eGFR) and albuminuria. German patients were asked in an additional kidney specific module whether they have ever been told by a physician about renal impairment. The fact that CKD or acute kidney injury (AKI) was mentioned in prominent parts of the hospital discharge letter as well as correct ICD-coding of CKD or AKI served as a proxy for physician’s awareness of CKD.
The majority of German CHD patients was treated with the recommended drug therapies including e.g. β-blockers, anti-platelets and statins. However, treatment targets for blood pressure and LDL-cholesterol levels were not achieved in many patients (45% and 53%, respectively) and glycemic control in diabetic CHD patients with HbA1-levels <7% was insufficient (61%). A minority of patients reported on current smoking (10%), but unhealthy life-styles e.g. overweight/obesity (85%/37%) were frequent. Patterns of care differed between younger and older CHD patients while older patients were less likely to receive the recommended medical CHD-therapy, were more likely to have uncontrolled blood pressure and also to be diabetic. However, a greater proportion of diabetic patients >70 years was achieving the HbA1c target, and less elder patients were current smokers or were obese. About 17% of patients on average had CKD (eGFR< 60 ml/min/1.73m²) in the entire European sample at the study visit, and an additional 10% had albuminuria despite preserved eGFR, with considerable variation among countries. Impaired kidney function was observed in every fifth patient admitted for CHD in the entire European dataset of the EUROASPIRE IV study. Of the German CHD patients with CKD at the study visit, only a third were aware of their renal impairment. A minority of these patients was being seen by nephrologists, however, with a higher likelihood of CKD awareness and specialist care in more advanced stages of CKD. About a third of patients admitted for CHD showed either CKD or AKI during the hospital stay, but the discharge letter mentioned chronic or acute kidney disease only in every fifth of these patients. In contrast, correct ICD coding of CKD or AKI was more complete, but still suboptimal.
In summary, quality of secondary prevention in German CHD patients indicates considerably room for improvement, with life-style modifications may become an even greater factor in prevention campaigns than medical treatment into certain target ranges. Preventive therapies should also consider different needs in older individuals acknowledging physical and mental potential, other comorbidities and drug-interactions with co-medication. CKD is common in CHD patients, not only in the elderly. Since CHD and CKD affect each other and impact on worse prognosis of each other, raising the awareness of CKD among patients and physicians and considering CKD in medical therapy may improve prognosis and slow disease progression of CHD as well as CKD.
In dieser Arbeit wurden Einzelmolekültechniken zur Untersuchung von G-Protein-gekoppelten Rezeptoren (GPCR) und G-Proteinen in der Zellmembran lebender Zellen etabliert und angewendet. GPCR stellen die größte Familie membrangebundener Rezeptoren dar und leiten Signale über heterotrimere G-Proteine in das Zellinnere weiter. Auch wenn jüngst sowohl inaktive, als auch aktive Konformationen von GPCR und G-Proteinen mittels Röntgenstrukturanalyse aufgelöst werden konnten, sind die Dynamiken ihrer Aktivierung und Deaktivierung bisher nur bruchstückhaft bekannt. In der Vergangenheit wurden die Schritte der Signalkaskade, beginnend mit der Bindung des Rezeptorliganden bis hin zur Bildung von sekundären Botenstoffen, erfolgreich mit Fluoreszenz-Resonanz-Energie-Transfer-Techniken aufgeklärt. Diesen experimentell bestimmten Aktivierungszeiten stehen Daten aus Modellierungsstudien gegenüber, die sehr viel schnellere Konformationsänderungen vorhersagen, welche bereits in Studien mittels Kernspinresonanzspektroskopie nachgewiesen werden konnten. Folglich ist anzunehmen, dass die Zeitdomäne, innerhalb der die Aktivierung der GPCR stattfindet, sehr breit gefächert ist.
Ein Ziel der vorliegenden Arbeit war es, diese mehrere Größenordnungen umfassenden Zeitskalen der GPCR-Aktivierung, welche in der Literatur beschrieben werden, mittels bildgebender Einzelmolekülverfolgung (SPT) und Fluoreszenz-Korrelations-Spektroskopie (FCS) zu untersuchen. Beide Verfahren liefern durch Einzelmolekülspuren oder Korrelationskurven eine Art Fingerabdruck des dynamischen Verhaltens des untersuchten Systems, was jeweils mit Vor- und Nachteilen verbunden ist. Die Stärke der Techniken zeigte sich bei dem vorliegenden Projekt vor allem in ihrer Kombination: Die klassische FCS bietet die Möglichkeit, Dynamiken über einen weiten Zeitraum von Mikrosekunden bis Sekunden auszuwerten, allerdings nur innerhalb eines kleinen, optisch definierten Detektionsvolumens. Die bildgebende Einzelmolekülverfolgung liefert hingegen ein großes Sichtfeld und ermöglicht somit die parallele Analyse vieler Einzelmolekülereignisse über die Zelle verteilt, jedoch auf Kosten der Zeitauflösung.
Durch die Anwendung von SPT und FCS konnte in dieser Arbeit ein Zeitbereich der Rezeptor- (und G-Protein-) Dynamiken von Mikrosekunden bis Sekunden gefunden und diskutiert werden. Um die selektive Anregung der Plasmamembran zu gewährleisten, wurde die Interne Totalreflexionsfluoreszenzanregung verwendet. Diese eignet sich ideal als Grundlage für die spätere Analyse mittels SPT und FCS, welche komplementär nutzbar sind und mit dem gleichen zellulären Assay und unter Verwendung der gleichen Fluoreszenzmarker betrieben werden können.
Die Studie am Beispiel der α2A- und β2-adrenergen Rezeptoren sowie des Gαi1-Proteins demonstrierte das enorme Potential dieser Einzelmolekültechniken für die Untersuchung von GPCR und skizziert die Komplexität deren Dynamik, wie sie auch durch neueste Modellierungsstudien vorhergesagt wird.
Studies on receptor signaling and regulation in platelets and T cells from genetically modified mice
(2014)
Receptors with tyrosine-based signaling motifs control essential functions of hematopoietic cells, including lymphocytes and platelets. Downstream of the platelet receptor glycoprotein (GP) VI and the T cell receptor (TCR) the immunoreceptor tyrosine-based activation motif (ITAM) initiates a signaling cascade that involves kinases, adapter and effector proteins and finally leads to cellular activation. This thesis summarizes the results of three studies investigating different aspects of receptor signaling and regulation in platelets and T cells.
In the first part, the impact of constitutive Ca2+ influx on TCR signaling and T cell physiology was investigated using a transgenic mouse line with a mutation in the Ca2+ sensor stromal interaction molecule 1 (STIM1). The elevated cytoplasmic Ca2+ level resulted in an altered phosphorylation pattern of the key enzyme phospholipase (PL) Cγ1 in response to TCR stimulation, but without affecting its enzymatic activity. Withdrawal of extracellular Ca2+ or inhibition of the phosphatase calcineurin restored the normal phosphorylation pattern. In addition, there was a decrease in the release of Th2-type cytokines interleukin 4, 5 and 13 upon stimulation in vitro.
The second part of the thesis deals with the role of the adapter protein growth factor receptor-bound protein 2 (Grb2) in platelets using a megakaryocyte/platelet-specific knockout mouse line. Loss of Grb2 severely impaired signaling of GPVI and C-type lectin-like receptor 2 (CLEC-2), a related hemITAM receptor. This was attributed to defective stabilization of the linker for activation of T cells (LAT) signalosome and resulted in reduced adhesion, aggregation, Ca2+ mobilization and procoagulant activity downstream of (hem)ITAM-coupled receptors in vitro. In contrast, the signaling pathways of G protein-coupled receptors (GPCRs) and the integrin αIIbβ3, which do not utilize the LAT signalosome, were unaffected. In vivo, the defective (hem)ITAM signaling caused prolonged bleeding times, however, thrombus formation was only affected under conditions where GPCR signaling was impaired (upon acetylsalicylic acid treatment). These results establish Grb2 as an important adapter protein in the propagation of GPVI- and CLEC-2-induced signals.
Finally, the proteolytic regulation of the immunoreceptor tyrosine-based switch motif (ITSM)-bearing receptor CD84 in platelets was investigated. This study demonstrated that in mice CD84 is cleaved by two distinct and independent proteolytic mechanisms upon platelet activation: shedding of the extracellular part, which is exclusively mediated by a disintegrin and metalloproteinase (ADAM) 10 and cleavage of the intracellular C-terminus by the protease calpain. Finally, the analysis of soluble CD84 levels in the plasma of transgenic mice revealed that shedding of CD84 by ADAM10 occurs constitutively in vivo.
Die Unterscheidung zwischen körpereigenen und körperfremden Strukturen ist eine grundlegende Herausforderung der spezifischen Immunantwort. Pathologische Veränderungen dieser Abgrenzung können zu schwerwiegenden Autoimmunerkrankungen wie beispielsweise Diabetes Mellitus, Rheumatischer Arthritis oder Multipler Sklerose führen. Um unerwünschte (Auto-) Immunreaktionen zu verhindern, existieren verschiedene Formen von peripheren Toleranzmechanismen, die durch viele Transkriptionsfaktoren wie z. B. ICER (inducible cAMP early repressor), NFAT (nuclear factor of activated T cells) und Foxp3 (forkhead box protein p3) kontrolliert werden. Foxp3+ regulatorische T-Zellen (Tregs) sind spezialisierte immun-suppressive Lymphozyten, welche die Aktivierung anderer Immunzellen unterdrücken können. Einer der möglichen Mechanismen ist der Transfer zyklischen Adenosin-Monophosphats (cAMP) von Tregs in konventionelle T- und B-Lymphozyten. Die erhöhte intrazelluläre Konzentration an cAMP führt in Effektorzellen zur Induktion und Kerntranslokation von ICER. Der transkriptionelle Repressor ICER supprimiert die Expression vieler NFAT-regulierter Gene und hemmt darüber hinaus die Induktion der NFATc1/αA-Isoform selbst. Diese Isoform wird speziell in pro-inflammatorischen Effektorzellen hochreguliert und ist maßgeblich an deren spezifischem transkriptionellen Programm beteiligt. Foxp3 ist ein zentraler Faktor für die Bildung und Funktion sowohl Thymus-generierter nTregs als auch peripher (TGFβ-) induzierter iTregs. Die Kontrolle des Foxp3-Gens wird in iTregs – überraschenderweise aber nicht in nTregs – durch NFAT-Faktoren reguliert. Allerdings hemmt Foxp3 durch eine negative Rückkopplung wiederum die Induktion und Aktivität von NFATc1/αA. Dies stellt somit ein weiteres Regulativ dar, wobei Foxp3 nicht nur die Plastizität, sondern auch die Funktion von immun-suppressiven T-Zellen steuert. Zusätzlich regulieren die verschiedenen NFAT-Faktoren auch die Antigen präsentierenden dendritischen Zellen (DCs). Während NFATc1 und NFATc2 die Differenzierung und Proliferation von DCs beeinflussen, reguliert NFATc3 deren Zytokinexpression und steuert indirekt auch die nachfolgende T-Zell-Immunantwort. Die Kontrolle der Genregulation in Immunzellen durch die Transkriptionsfaktoren ICER, NFAT und Foxp3 erfüllt somit spezifische Funktionen der Immunität, reguliert aber gleichzeitig wichtige Aspekte der peripheren Toleranz, um schädliche (Auto-) Immunreaktionen zu verhindern.
Insect microbiota plays an essential role on the hosts’ health and fitness, regulating their development, nutrition and immunity. The natural microbiota of bees, in particular, has been given much attention, largely because of the globally reported bee population declines. However, although the worker honey bee has been associated with distinctive and specialized microbiota, the microbiota of solitary bees has not been examined in detail, despite their enormous ecological importance. The main objectives of the present thesis were a) the bacterial community description for various solitary bee species, b) the association of the solitary bee microbiota with ecological factors such as landscape type, c) the relation of the bee foraging preferences with their nest bacterial microbiota, d) the examination of the nest building material contribution to the nest microbiota, e) the isolation of bacterial strains with beneficial or harmful properties for the solitary bee larvae and f) the pathological investigation of bacteria found in deceased solitary bee larvae.
The findings of the present study revealed a high bacterial biodiversity in the solitary bee nests. At the same time, the bacterial communities were different for each bee host species. Furthermore, it was shown that the pollen bacterial communities underwent compositional shifts reflecting a reduction in floral bacteria with progressing larval development, while a clear landscape effect was absent. The examination of the nest pollen provisions showed different foraging preferences for each included bee species. Both the pollen composition and the host species identity had a strong effect on the pollen bacteria, indicating that the pollen bacterial communities are the result of a combinatory process. The introduced environmental material also contributed to the nest natural microbiome. However, although the larval microbiota was significantly influenced by the pollen microbiota, it was not much associated with that of the nest material.
Two Paenibacillus strains isolated from O. bicornis nests showed strong antifungal activities, while several isolated strains were able to metabolize various oligosaccharides which are common in pollen and nectar. Screening for potential pathogenic bacteria in the nests of O. bicornis unveiled bacterial taxa, which dominated the bacterial community in deceased larvae, while at the same time they were undetectable in the healthy individuals.
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Finally, larvae which were raised in vitro developed distinct bacterial microbiomes according to their diet, while their life span was affected.
The present thesis described aspects of the microbiota dynamics in the nests of seven megachilid solitary bee nests, by suggesting which transmission pathways shape the established bacterial communities and how these are altered with larval development. Furthermore, specific bacterial taxa were associated with possible services they might provide to the larvae, while others were related with possible harmful effects. Future studies should integrate microbiota examination of different bee generations and parallel investigation of the microbiota of the nests and their surrounding environment (plant community, soil) to elucidate the bacterial transmission paths which establish the nest microbiota of solitary bees. Functional assays will also allow future studies to characterize specific nest bacteria as beneficial or harmful and describe how they assist the development of healthy bees and the fitness of bee populations.
Investigations into the Pathogenic Antibody-Antigen-Interference of Glycine Receptor Autoantibodies
(2021)
Anti-glycine receptor (GlyR) autoantibodies belong to the novel group of autoantibodies that target neuronal cell-surface antigens (NCS), which are accompanied with various neurologic and neuropsychiatric conditions. The inhibitory ionotropic GlyR is one of the major inhibitory neurotransmitter receptors and therefore involved in maintaining homeostasis of neuronal excitation levels at brain stem and spinal cord. Anti-GlyR autoantibodies are associated with progressive encephalomyelitis with rigidity and myoclonus or stiff person syndrome. These neuromotor disorders are characterized by exaggerated startle, muscle stiffness, and painful spasms, leading to immobility and fatal outcome in some cases. It was hypothesized that imbalance of motoneuronal inhibition by functional impairment of GlyR and receptor internalization are direct consequences of antibody-antigen interference. Here, serum samples of four patients were tested for anti-GlyR autoantibodies and were used for the analysis of the functional impact on the electrophysiological properties of recombinant GlyRs, transiently expressed in HEK293 cells. Furthermore, the recognition pattern of anti- GlyR autoantibodies to human, zebrafish and chimeric GlyRα1 located the epitope to the far N-terminal region. The pathogenicity of anti-GlyR autoantibodies and thereby the autoimmunologic etiology of the disease was confirmed by passive transfer of patient serum to zebrafish (Danio rerio) larvae, that yielded an abnormal escape response – a brain stem reflex that corresponds to the exaggerated startle of afflicted patients. The phenotype was accompanied by profound reduction of GlyR clusters in spinal cord cryosections of treated zebrafish larvae. Together, these novel insights into the pathogenicity of GlyR autoantibodies confirm the concept of a novel neurologic autoimmune disease and might contribute to the development of innovative therapeutic strategies.
Die Regulation des Tonus glatter Muskelzellen wird entscheidend von den beiden antagonistisch wirkenden second messengern cAMP und Ca2+ beeinflusst. Ein Ziel dieser Arbeit war herauszufinden, ob diese beiden Botenstoffe auch direkten Einfluss aufeinander haben können und welche Enzyme in diesem Fall an den Prozessen beteiligt sind. cAMP-Signale in intakten Zellen konnten wir in Echtzeit mit Hilfe des FRET-basierten cAMP-Sensors Epac1-camps beobachten; Ca2+-Signale durch Markieren der Zellen mit Fura-2. Anstiege der intrazellulären Ca2+-Konzentration in VSMCs wurden durch Aktivierung von endogen exprimierten, Gq-gekoppelten P2Y6-Rezeptoren mit Uridindiphosphat (UDP) ausgelöst. Durch eine zusätzliche in-vitro Kalibrierung des Epac1-camps konnten darüber hinaus absolute cAMP-Konzentrationen in einzelnen lebenden Zellen berechnet werden. Während ein Anstieg der Ca2+-Konzentration auf nicht vorstimulierte VSMCs keinen signifikante Einfluss auf die intrazellulären cAMP-Konzentrationen hatte, bewirkte die Aktivierung der purinergen Rezeptoren einen deutlichen Rückgang der intrazellulären cAMP-Konzentration in mit Isoproterenol vorstimulierten VSMCs. Dieser Effekt konnte sowohl durch die Komplexierung von Ca2+ mit BAPTA-AM als auch durch die Überexpression der Ca2+-insensitiven AC4 antagonisiert werden. Adenylatcyclase-Aktivitäts-Assays in VSMC-Membranen zeigten ebenfalls einen Rückgang der Cyclaseaktivität nach Zugabe von 2 und 5 μM freiem Ca2+. Die Hemmung der einzigen Ca2+-regulierbaren PDE1 mit dem selektiven PDE1-Inhibitor 8-Methoxymethyl-IBMX (8-MM-IBMX) hatte im Gegensatz dazu keinen Einfluss auf die durch UDP verursachte Änderung der cAMP-Konzentration in vorstimulierten VSMCs. Schließlich bewirkte die Herunterregulation der Ca2+-inhibierbaren AC5 und 6 mit siRNA einen signifikante Hemmung des durch UDP verursachten Effekts. Fasst man alle diese Ergebnisse zusammen, so lässt sich folgende Schlussfolgerung ziehen: Der durch purinerge Stimulation verursachte Rückgang der cAMP-Konzentration in mit Isoproterenol vorstimulierten VSMCs wird durch eine Hemmung der Ca2+-hemmbaren AC5 und 6 vermittelt. Dadurch sind zwei für die Regulation des Tonus wichtige Signalwege in VSMCs miteinander verbunden, die sich somit gegenseitig entscheidend beeinflussen können. Ein weiterer Bestandteil dieser Arbeit war die Entwicklung eines transgenen Mausmodells, das glattmuskelspezifisch den cAMP-Sensor Epac1-camps exprimiert. Mit Hilfe eines solchen Tiermodells könnten in Zukunft cAMP-Änderungen in intakten Geweben und vielleicht sogar in lebenden Tieren beobachtet werden. Durch Anwendung des Cre-loxP-Rekombinationssystems gelang es eine glatt¬muskelspezifische, für den Epac1-camps transgene Mauslinie zu generieren. Mit isolierten VSMCs dieser Tiere konnten bereits erste FRET-Messungen durchgeführt und agonistinduzierte cAMP-Änderungen beobachtet werden.
Maintenance of tumor vasculature integrity is indispensable for tumor growth and thus affects tumor progression. Previous studies have identified platelets as major regulators of tumor vascular integrity, as their depletion selectively renders tumor vessels highly permeable, causing massive intratumoral hemorrhage. While these results establish platelets as potential targets for anti-tumor therapy, depletion is not a treatment option due to the essential role of platelets for hemostasis. This thesis demonstrates for the first time that functional inhibition of glycoprotein (GP) VI on the platelet surface rapidly induces tumor hemorrhage and diminishes tumor growth similar to complete platelet depletion but without inducing systemic bleeding complications. Both, the intratumoral bleeding and tumor growth arrest could be reverted by depletion of Ly6G+ cells confirming them to be responsible for the induction of bleeding and necrosis within the tumor. In addition, GPVI inhibition increased intra-tumoral accumulation of co-administered chemotherapeutic agents, thereby resulting in a profound anti-tumor effect. In summary, this thesis manifests platelet GPVI as a key regulator of vascular integrity specifically in growing tumors, serving as a potential basis for the development of anti-tumor strategies.
In the second part of this thesis, light is shed on the modulating role of bridging integrator 2 (BIN2) in platelet Ca2+ signaling. Stromal interaction molecule 1 (STIM1) mediated store-operated calcium entry (SOCE) is the major route of Ca2+ influx in platelets, triggered by inositol trisphosphate receptor (IP3R)-dependent Ca2+ store release. In this thesis, the BAR domain superfamily member BIN2 was identified as the first Ca2+ signaling modulator, interacting with both, STIM1 and IP3R in platelets. Deletion of BIN2 resulted in reduced Ca2+ store release and Ca2+ influx in response to all tested platelet agonists. These defects were a consequence of impaired IP3R function in combination with defective STIM1-mediated SOC channel activation, while Ca2+ store content and agonist-induced IP3 production were unaltered. These results establish BIN2 as a central regulator of platelet Ca2+ signaling.
The third part of this thesis focuses on the effect of the soluble neuronal guidance protein Sema7A on platelet function. Rosenberger et al. discovered that Sema7A cleavage from red blood cells increases the formation of platelet-neutrophil complexes, thereby reinforcing thrombo-inflammation in myocardial ischemia-reperfusion injury (MIRI). This thesis establishes soluble Sema7A as a stimulator of platelet thrombus formation via its interaction with platelet GPIbα, thereby reinforcing PNC formation. Thus, interfering with the GPIb-Sema7A interaction during MIRI represents a potential strategy to reduce cardiac damage and improve clinical outcome following MI.
The past decades have witnessed the development of new pharmaceutical compounds that modulate receptor function by targeting allosteric sites. Allosteric sites are, by definition, domains topographically distinct from the orthosteric binding pocket where the natural ligand binds. Exploring the possibilities of linking orthosteric and allosteric pharmacophores in one compound to yield ‘bitopic’ compounds is a strategy derived from the “message-address” concept by Schwyzer , first applied to GPCRs by Portoghese et al. This concept explicitly underlines the orthosteric/allosteric combination, in opposite to the more general umbrella term bivalent. The broad possibilities of bitopic ligands in the pharmaceutical field are under continuous study. Bitopic compounds are promising pharmaceutical tools for taking advantage of the allosteric binding to achieve subtype selectivity while preserving high affinity at the receptor. The development of bitopic ligands, based on the idea of combining high affinity (via orthosteric sites) with high selectivity (via allosteric sites), have led to the development of highly selective bivalent ligands for GPCRs , such as for the opioid receptors , muscarinic acetylcholine receptors (mAChRs), serotonin receptors, cannabinoid receptors, and gonadotropin-releasing hormone receptors. This concept has even been extended to other receptors, for examples nicotinic receptors and other proteins, such as acetylcholinesterases and the tyrosine kinase receptors TrkA and TrkC. The reasons to pursue a bitopic ligand approach are various. An improved affinity for the target GPCR and/or an improved selectivity either at the level of receptor subtype, or at the level of signaling pathway. Another advantage of bitopic ligands over purely allosteric ligands is that the former rely on the appropriate presence of endogenous agonist tone to mediate their effects, whereas a bitopic ligand would engage the orthosteric site irrespective of the presence or absence of endogenous tone. By way of introduction to the hybrid approach, a review of the concept of hybrids compounds targeting the cholinergic system is presented in section A of this thesis. Recent updates in hybrid molecule design as a strategy for selectively addressing multiple target proteins involved in Alzheimer's disease (AD) is here reported . This represents the potential and the growing interest in hybrid compound as pharmacological tools to achieve receptor subtype selectivity and/or, to study the overall functional activity of the receptor. Until now, muscarinic acetylcholine receptors (mAChRs) have proved to be a particularly fruitful receptor model for the development and characterization of bitopic ligands. In this thesis, several examples of new muscarinic bitopic approach are reported in the results section. A study of bipharmacophoric ligands composed of the muscarinic positive allosteric modulators (BQCAderived compounds) linked with chain of various lengths to different orthosteric building blocks is reported in the result part 1. Synthesis and examination of the potential pharmacological characteristic of Oxotremorine-BQCAd compounds and Xanomeline-BQCAd hybrid derivatives are described in results parts 2 and 4, respectively. Moreover, the bitopic concept has even been extended to other proteins, such as acetylcholinesterase. In the result part 5 an overview of the new Tacrine-Xanomeline hybrids aiming to improve the inhibitory potency of the acetylcholinesterase and simultaneously to increase the cholinergic tone, via the xanomelinic portion acting on the M1 receptor is given. A new trivalent approach is presented for the first time to deepen the study of the M1 muscarinic receptor in the result part 6. Moreover, the synthesis of a new series of iperoxo-derived alkane, bis(ammonio)alkane-type and rigidified chain ligands is given in the result part 7 together with some prospects for further research.
Chlamydia trachomatis, an obligate intracellular human pathogen, is the world’s leading cause of infection related blindness and the most common, bacterial sexually transmitted disease. In order to establish an optimal replicative niche, the pathogen extensively interferes with the physiology of the host cell. Chlamydia switches in its complex developmental cycle between the infectious non-replicative elementary bodies (EBs) and the non-infectious replicative reticulate bodies (RBs). The transformation to RBs, shortly after entering a host cell, is a crucial process in infection to start chlamydial replication. Currently it is unknown how the transition from EBs to RBs is initiated. In this thesis, we could show that, in an axenic media approach, L glutamine uptake by the pathogen is crucial to initiate the EB to RB transition. L-glutamine is converted to amino acids which are used by the bacteria to synthesize peptidoglycan. Peptidoglycan inturn is believed to function in separating dividing Chlamydia. The glutamine metabolism is reprogrammed in infected cells in a c-Myc-dependent manner, in order to accomplish the increased requirement for L-glutamine. Upon a chlamydial infection, the proto-oncogene c-Myc gets upregulated to promote host cell glutaminolysis via glutaminase GLS1 and the L-glutamine transporter SLC1A5/ASCT2. Interference with this metabolic reprogramming leads to limited growth of C. trachomatis. Besides the active infection, Chlamydia can persist over a long period of time within the host cell whereby chronic and recurrent infections establish. C. trachomatis acquire a persistent state during an immune attack in response to elevated interferon-γ (IFN-γ) levels. It has been shown that IFN-γ activates the catabolic depletion of L-tryptophan via indoleamine 2,3-dioxygenase (IDO), resulting in the formation of non-infectious atypical chlamydial forms. In this thesis, we could show that IFN-γ depletes the key metabolic regulator c-Myc, which has been demonstrated to be a prerequisite for chlamydial development and growth, in a STAT1-dependent manner. Moreover, metabolic analyses revealed that the pathogen de routs the host cell TCA cycle to enrich pyrimidine biosynthesis. Supplementing pyrimidines or a-ketoglutarate helps the bacteria to partially overcome the persistent state. Together, the results indicate a central role of c-Myc induced host glutamine metabolism reprogramming and L-glutamine for the development of C. trachomatis, which may provide a basis for anti-infectious strategies. Furthermore, they challenge the longstanding hypothesis of L-tryptophan shortage as the sole reason for IFN-γ induced persistence and suggest a pivotal role of c-Myc in the control of the C. trachomatis dormancy.
Die bipolare Störung ist eine psychische Erkrankung, die sich durch wiederkehrende depressive und (hypo-) manische Phasen auszeichnet. Neben Stimmungsschwankungen leiden viele Patienten unter kognitiven Beeinträchtigungen, die nicht nur während akuter Episoden, sondern auch in der Remission, d.h. in euthymer Stimmungslage persistieren. Die vorliegende Arbeit beschäftigte sich mit den klinischen Korrelaten von kognitiven Defiziten und der Effektivität eines kognitiven Trainings bei bipolaren Patienten (BP). In der ersten Teilstudie wurde untersucht, wie sich die kognitive Leistung der Patienten von der akuten Phase bis zur Remission verändert. Dazu wurden 55 akut depressive und (hypo-) manische BP und 55 gesunde Kontrollpersonen wiederholt mit einer neuropsychologischen Testbatterie untersucht. 29 Patienten konnten nach mindestens 3-monatiger Remission erneut getestet werden. Die Ergebnisse zeigen, dass die akut kranken BP domänenübergreifend kognitive Störungen im Vergleich zu gesunden Kontrollen aufweisen, wobei die depressiven Patienten eher in der Verarbeitungsgeschwindigkeit, der Aufmerksamkeit und dem Gedächtnis beeinträchtigt waren. Die akut manischen Patienten hatten hingegen auffällige Defizite in den exekutiven Funktionen. Die Performanz der BP besserte sich zwar in der Remission, es waren aber weiterhin im Vergleich zu den Kontrollen Defizite in der psychomotorischen Geschwindigkeit, dem Arbeitsgedächtnis und dem verbalen Gedächtnis festzustellen. Es zeigte sich außerdem, dass die Verarbeitungsgeschwindigkeit, die Aufmerksamkeit und das verbale Gedächtnis in Zusammenhang mit subdepressiven Symptomen und Schlafstörungen standen, wohingegen die exekutiven Testmaße nicht mit diesen „State“-Faktoren assoziiert waren. Diese Ergebnisse lassen vermuten, dass die exekutiven Funktionen als Trait-Merkmale der bipolaren Störung in Frage kommen, wohingegen Aufmerksamkeit und Gedächtnis durch das Vorliegen von Residualsymptomen beeinträchtigt sind.
Ziel des zweiten Teils dieser Arbeit war es, eine kognitive Defizit- vs. Nondefizit Subgruppe innerhalb der BP zu identifizieren, um herauszufinden welche soziodemographischen oder krankheitsrelevanten Charakteristika mit kognitiven Störungen in Zusammenhang stehen. Dazu wurde die neuropsychologische Testleistung von 79 euthymen BP und 70 gesunden Kontrollen verglichen. Es zeigte sich erwartungsgemäß, dass die BP in der psychomotorischen Geschwindigkeit, der Aufmerksamkeit, dem Arbeitsgedächtnis, dem verbalen Gedächtnis, der Wortflüssigkeit und dem problemlösenden Denken trotz stabiler Remission signifikant schlechtere Leistungen erbrachten als die gesunden Kontrollen. Im Anschluss wurde die bipolare Stichprobe anhand ihrer Testleistung in eine Defizit- und eine Nondefizit Gruppe aufgeteilt. Die Ergebnisse zeigen, dass 54% der BP in allen Tests eine völlig normgerechte Leistung erbrachten. Die Studie bestätigte demnach, dass nicht alle Patienten kognitive Defizite aufweisen, sondern Subgruppen bestehen, die sich in verschiedenen Variablen voneinander unterscheiden: Die Defizit-Subgruppe berichtete signifikant mehr subdepressive Symptome und es lagen häufiger persistierenden Schlafstörungen und die Diagnose einer komorbiden Erkrankung vor (Angststörung, ADHS und Migräne). Zudem zeigte sich ein Zusammenhang zwischen Polypharmazie und kognitiven Defiziten. Diese Ergebnisse demonstrieren, dass ein Teil der kognitiven Störungen bei BP durch eine nicht vollständige Remission und sekundäre Symptome bedingt sind. Es ergab sich keine Assoziation zwischen kognitiver Leistung und krankheitsrelevanten Variablen, wie z.B. Anzahl der Phasen, Bipolar-Subtyp oder Ersterkrankungsalter. Diese Daten widersprechen zwar nicht der Hypothese, dass kognitive Störungen durch neurodegenerative Prozesse bedingt sind, sie weisen jedoch darauf hin, dass bei der bipolaren Störung häufig Residualsymptome vorliegen, welche im Rahmen von Studie als auch bei der therapeutischen Arbeit stärker als bisher berücksichtigt werden müssen.
In beiden Teilstudien zeigte sich zudem, dass kognitive Störungen mit einem reduzierten psychosozialen Funktionsniveaus in Verbindung stehen. Dieses Ergebnis steht in Einklang mit bisherigen Untersuchungen, die berichten, dass Patienten mit kognitiven Defiziten soziale und berufliche Einschränkungen aufweisen, die wiederum mit einem schlechteren Krankheitsverlauf assoziiert ist. Aufgrund dessen wurde von einigen Autoren vorgeschlagen, mit Hilfe spezieller Interventionen wie der kognitiven Remediation (KR) die geistigen Funktionen zu rehabilitieren. In der vorliegenden Interventionsstudie wurde deshalb der Frage nachgegangen, ob die neurokognitive Leistungsfähigkeit und das psychosoziale Funktionsniveau der bipolaren Stichprobe durch KR verbessert werden kann. Zudem sollte untersucht werden, inwiefern kognitives Training zu Veränderungen der präfrontalen Hirnaktivität führt. Dafür wurde vor und nach dem Training eine Messung mit der Methode der funktionellen Nahinfrarotspektroskopie (fNIRS) durchgeführt. Das 3-monatige KR-Programm bestand aus einem computerisierten kognitiven Training und der Vermittlung von kognitiven Skills im Rahmen von 12-wöchentlichen Gruppensitzungen. Im Anschluss an das Training wurden die Teilnehmer (26 bipolare und als Vergleichsgruppe 13 unipolare Patienten) im Rahmen einer Post-Messung wiederholt untersucht. Zudem wurde zum Vergleich eine Kontrollgruppe von 10 BP im Abstand von 3 Monaten untersucht, die keine Intervention, sondern die Standardbehandlung erhielt. Aufgrund zahlreicher Drop-Outs konnten am Ende des Erhebungszeitraums die Daten von 16 bipolaren und 10 unipolar depressiven Patienten ausgewertet werden. Die Trainingsteilnehmer erbrachten im Gegensatz zu der Kontrollgruppe signifikante Leistungssteigerungen in den Tests zur Erfassung der psychomotorischen Geschwindigkeit, dem Arbeitsgedächtnisses, dem verbalen Gedächtnis und dem problemlösenden Denken. Zudem zeigte sich nach dem Training eine Verbesserung des psychosozialen Funktionsniveaus und eine Reduktion der subdepressiven Symptomatik. Eine Veränderung der präfrontalen Hirnaktivierung konnte jedoch nicht verifiziert werden. Die Ergebnisse lassen demnach schlussfolgern, dass Patienten mit affektiven Störungen von einem kognitiven Training profitieren, wobei die damit einhergehenden funktionalen Veränderungen der Hirnaktivität in Studien mit größeren Stichproben untersucht werden müssen.
Mass spectrometry-based quantification of steroids for the diagnostic workup of adrenal tumors
(2023)
Tumors of the adrenal gland belong to the most frequent neoplasms in humans with a prevalence of 3–10 % in adults. The aim of the diagnostic workup is the identification of potentially hormone-secreting and / or malignant tumors, because most of these tumors will require surgical resection. Malignant adrenocortical carcinomas (ACC) are very rare and associated with a poor prognosis in advanced stages, therefore, an early and accurate diagnosis is crucial.
Within this thesis, two liquid chromatography tandem mass spectrometry (LC-MS/MS) methods for the quantification of steroids in different biomaterials were developed to improve the diagnostic workup of adrenal tumors.
First, an LC-MS/MS method for the simultaneous quantification of cortisol and dexamethasone in serum samples after dexamethasone suppression test (DST) was developed, validated, and applied to 400 clinical samples. Newly established method-specific threshold concentrations for cortisol and dexamethasone increased DST specificity from 67.5 % to 92.4 % while preserving 100 % sensitivity.
Second, an LC-MS/MS method for the quantification of eleven urinary steroids was developed and validated to improve the differentiation between ACC and adrenocortical adenomas (ACA). A decision tree requiring only two steroids was trained for classification and tested based on 24 h urine samples from 268 patients with adrenal tumor. Malignancy was excluded with a negative predictive value of 100 % in an independent validation cohort of 84 samples of 24-h urine. A newly proposed simplified diagnostic workflow with urinary steroid profiling as first tier test could obviate additional adrenal-specific imaging in 42 of 64 patients with ACA.
The new DST method is already in clinical use at the University Hospital Würzburg, whereas the classification model based on urinary steroid profiling will require prospective validation in a larger cohort.
While the healthy brain works through balanced synaptic communication between
glutamatergic and GABAergic neurons to coordinate excitation (E) and inhibition (I), disruption
of E/I balance interferes with synaptic communication, information processing, and ultimately
cognition. Multiple line of evidence indicates that E/I imbalance represents the
pathophysiological basis of a wide spectrum of mental disorders. Genetic screening
approaches have identified Cadherin-13 (CDH13). as a risk gene across neurodevelopmental
and mental disorders. CDH13 regulates several cellular and synaptic processes in brain
development and neuronal plasticity in adulthood. In addition to other functions, it is specifically
localized at inhibitory synapses of parvalbumin- and somatostatin-expressing GABAergic
neurons. In support of CDH13’s function in moderating E/I balance, electrophysiological
recordings of hippocampal slices in a CDH13-deficient mouse model revealed an increase in
basal inhibitory but not excitatory synaptic transmission. Moreover, the search for genetic
variants impacting functional expression of the CDH13 gene identified SNP (single nucleotide
polymorphism)) rs2199430 in intron 1 to be associated with differential mRNA concentrations
in human post-mortem brain across the three genotypes CDH13G/G, CDH13A/G and CDH13A/A
.
This work therefore aimed to further validate these findings in a complementary human model
by using induced pluripotent stem cells (iPSCs). The application of human iPSCs in research
has replaced the use of embryonic cells, resolving the ethical conflict of destructive usage of
human embryos. Investigating CDH13’s mode of action in inhibitory synapses was predicted
to facilitate mechanistic insight into the effects of CDH13 gene variants on E/I network activity,
which can then be targeted to reinstate balance.
Genome-wide association studies have identified rare copy number variants (CNVs) resulting
in a deletion (or duplication) of CDH13. To reduce genetic background variance, a set of
isogenic iPSC lines with a gene dose-dependent deficiency of CDH13 (CDH13-/- and CDH13+/-
) was generated by using the Clustered Regulatory Interspaced Short Palindromic
Repeats/CRISPR-associated protein 9 (CRISPR/Cas9) system. These CRISPRed iPSCs
carrying a single or two allele(s) with CDH13 inactivation facilitate investigation of CDH13
function in cellular processes, at inhibitory synapses and in neuronal network activity. In
addition, iPSCs carrying allelic SNP rs2199430 variants were used to study the effects of
common genetic variation of CDH13. These cell lines were differentiated into pure
glutamatergic and GABAergic neurons and co-cultured to generate neuronal networks allowing
its activity to be measured and correlated with electrophysiological signatures of differential
CDH13 genotypes. The work towards assessment of neuronal network activity of the iPSC
lines was subdivided into three major steps: first, generating rtTA/Ngn2 and rtTA/Ascl1-positive
iPSCs via a lentivirus-mediated approach; second, differentiating pure glutamatergic and
GABAergic neurons from the genetically transduced iPSCs and co-culturing of pure
glutamatergic and GABAergic neurons in a pre-established ratio (65:35) by direct
differentiation upon supplementation with doxycycline and forskolin on a microelectrode array
(MEA) chip; and, finally, recording of neuronal network activity of iPSC lines after 49 days in
vitro, followed by extraction and analyses of multiple MEA parameters.
x
Based on the MEA parameters, it was confirmed that complete CDH13 knockout as well as
heterozygous deficiency influence E/I balance by increasing inhibition. It was further revealed
that common SNP variation alters the signature of neuronal network activity. Specifically,
CDH13 deficiency resulted in a significant reduction in network burst duration (NBD), reduced
number of detected spikes within a network burst and reduction in network burst rate (NBR)
compared to the control (CDH13G/G). CDH13A/G and CDH13A/A showed similarities with the
CRISPRed CDH13-deficient networks by showing a significant reduction in the NBD and a
reduced number of detected spikes within a network compared to CDH13G/G. Strikingly. there
was a significant increase in the NBR of the CDH13A/G and CDH13A/A compared to CDH13G/G
networks. CDH13A/G networks exhibited significant differences in both parameters. At the
cellular level, this indicates that signalling pathways which determine the length and frequency
of network bursts differ among allelic variants of SNP rs2199430, thus confirming functional
relevance of this intronic SNP.
In summary, CDH13-deficient isogenic iPSC lines were generated using CRISPR/Cas9, iPSCs
were genetically transduced via a lentivirus approach, direct differentiation of
glutamatergic/GABAergic neurons derived from transduced iPSCs were used to establish a
scalable co-culture system, and network activity was recorded by MEA using pre-established
parameters to extract and analyze activity information. The results indicate that iPSC-derived
neuronal networks following CRISPR/Cas9-facilitated CDH13 inactivation, as well as networks
with allelic SNP variants of CDH13, moderate E/I balance, thus advancing understanding of
CDH13 function at inhibitory synapses and elucidating the effects of rare and common CDH13
gene variation.
Cellular proteome profiling revealed that most biomolecules do not exist in isolation, but rather are incorporated into modular complexes. These assembled complexes are usually very large, consisting of 10 subunits on an average and include either proteins alone, or proteins and nucleic acids. Consequently, such macromolecular assemblies rather than individual biopolymers perform the vast majority of cellular activities. The faithful assembly of such molecular assemblies is often aided by trans-acting factors in vivo, to preclude aggregation of complex components and/or non-cognate interactions. A paradigm for an assisted assembly of a macromolecular machine is the formation of the common Sm/LSm core of spliceosomal and histone-mRNA processing U snRNPs. The key assembly factors united in the Protein Arginine Methyltransferase 5 (PRMT5) and the Survival Motor Neuron (SMN) complexes orchestrate the assembly of the Sm/LSm core on the U snRNAs. Assembly is initiated by the PRMT5-complex subunit pICln, which pre-arranges the Sm/LSm proteins into spatial positions occupied in the mature U snRNPs. The SMN complex subsequently binds these Sm/LSm units, displaces pICln and catalyses the Sm ring closure on the Sm-site of the U snRNA.
The SMN complex consists of the eponoymous SMN protein linked in a modular network of interactions with eight other proteins, termed Gemins 2-8 and Unrip. Despite functional and structural characterisation of individual protein components and/or sub-complexes of this assembly machinery, coherent understanding of the structural framework of the core SMN complex remained elusive. The current work, employing a combined approach of biochemical and structural studies, aimed to contribute to the understanding of how distinct modules within the SMN complex coalecse to form the macromolecular SMN complex.
A novel atomic resolution (1.5 Å) structure of the human Gemin8:7:6 sub-complex, illustrates how the peripheral Gemin7:6 module is tethered to the SMN complex via Gemin8’s C-terminus. In this model, Gemin7 engages with both Gemin6 and Gemin8 via the N- and C-termini of its Sm-fold like domain. This highly conserved interaction mode is reflected in the pronounced sequence conservation and identical biochemical behaviour of similar sub-complexes from divergent species, namely S. pombe and C. elegans.
Despite lacking significant sequence similarity to the Sm proteins, the dimeric Gemin7:6 complex share structural resemblance to the Sm heteromers. The hypothesis that the dimeric Gemin7:6 functions as a Sm-surrogate during Sm core assembly could not be confirmed in this work. The functional relevance of the structural mimicry of the dimeric Gemin7:6 sub-complex with the Sm heterodimers therefore still remains unclear.
Reduced levels of functional SMN protein is the cause of the devastating neurodegenerative disease, Spinal Muscular Atrophy (SMA). The C-terminal YG-zipper motif of SMN is a major hot-spot for most SMA patient mutations. In this work, adding to the existing inventory of the human and fission yeast YG-box models, a novel 2.2 Å crystal structure of the nematode SMN’s YG-box domain adopting the glycine zipper motif has been reported. Furthermore, it could be assessed that SMA patient mutations mapping to this YG-box domain greatly influences SMN’s self-association competency, a property reflected in both the human and nematode YG-box biochemical handles. The shared molecular architecture and biochemical behaviour of the nematode SMN YG-box domain with its human and fission yeast counterparts, reiterates the pronounced conservation of this oligomerisation motif across divergent organisms.
Apart from serving as a multimerization domain, SMN’s YG-box also acts as interaction platform for Gemin8. A systematic investigation of SMA causing missense mutations uncovered that Gemin8’s incorporation into the SMN complex is influenced by the presence of certain SMA patient mutations, albeit independent of SMN’s oligomerisation status. Consequently, loss of Gemin8 association in the presence of SMA patient mutations would also affect the incorporation of Gemin7:6 sub-complex. Gemin8, therefore sculpts the heteromeric SMN complex by bridging the Gemin7:6 and SMN:Gemin2 sub-units, a modular feature shared in both the human and nematode SMN complexes.
These findings provide an important foundation and a prospective structural framework for elucidating the core architecture of the SMN complex in the ongoing Cryo-EM studies.
Angsterkrankungen stellen mit einer 12-Monats-Prävalenz von 14% die häufigsten psychischen Erkrankungen in der westlichen Gesellschaft dar. Angesichts der hohen querschnittlichen wie sequentiellen Komorbidität von Angsterkrankungen, der ausgeprägten individuellen Einschränkungen sowie der hohen ökonomischen Belastung für das Gesundheitssystem ist neben therapeutischen Behandlungsansätzen die Entwicklung von kurzzeitigen, kostengünstigen und leicht zugänglichen Präventionsmaßnahmen von großer Bedeutung und steht zunehmend im Fokus des gesundheitspolitischen Interesses, um die Inzidenz von Angsterkrankungen zu reduzieren. Voraussetzung für die Entwicklung von gezielten und damit den effektivsten Präventionsmaßnahmen sind valide Risikofaktoren, die die Entstehung von Angsterkrankungen begünstigen. Ein Konstrukt, das in der Literatur als subklinisches Symptom in Form einer kognitiven Vulnerabilität für Angsterkrankungen und damit als Risikofaktor angesehen wird, ist die sogenannte Angstsensitivität (AS). AS umfasst die individuelle Tendenz, angstbezogene körperliche Symptome generell als bedrohlich einzustufen und mit aversiven Konsequenzen zu assoziieren.
Das Ziel der vorliegenden Arbeit war daher die Etablierung und Validierung eines Präventionsprogramms zur Reduktion der AS an einer nicht-klinischen Stichprobe von 100 Probanden (18-30 Jahre) mit einer erhöhten AS (Anxiety Sensitivity Index [ASI-3] ≥17) sowie die Rekrutierung von 100 alters- und geschlechtsangeglichenen Probanden mit niedriger Angstsensitivität (ASI-3 <17). In einem randomisiert-kontrollierten Studiendesign durchliefen die Probanden mit hoher AS entweder das über fünf Wochen angelegte „Kognitive Angstsensitivitätstraining“ (KAST) als erste deutschsprachige Übersetzung des Computer-basierten „Cognitive Anxiety Sensitivity Treatment“ (CAST) von Schmidt et al. (2014) oder wurden der Wartelisten-Kontrollgruppe zugeteilt. Das KAST Training bestand aus einer einmaligen Vermittlung kognitiv-behavioraler Psychoedukation zum Thema Stress und Anspannung sowie deren Auswirkungen auf den Körper und der Anleitung von zwei interozeptiven Expositionsübungen (‚Strohhalm-Atmung‘ und ‚Hyperventilation‘), die über den anschließenden Zeitraum von fünf Wochen in Form von Hausaufgaben wiederholt wurden.
Es konnte gezeigt werden, dass die Teilnehmer des KAST-Programms nach Beendigung des Trainings (T1) eine signifikant niedrigere AS-Ausprägung im Vergleich zur Wartelisten-Kontrollgruppe aufwiesen und diese Reduktion auch über den Katamnese-Zeitraum von sechs Monaten (T2) stabil blieb. Ergänzend wurde auch die Targetierbarkeit weiterer intermediärer Risikomarker wie der Trennungsangst (TA), des Index der kardialen Sensitivität sowie der Herzratenvariabilität (HRV) untersucht, die jedoch nicht durch das KAST-Training direkt verändert werden konnten. Im Vergleich der Subgruppen von Probanden mit hoher AS und gleichzeitig hoher TA (Adult Separation Anxiety Questionnaire [ASA-27] ≥22) und Probanden mit hoher AS, aber niedriger TA (ASA-27 <22) zeigte sich, dass die AS-TA-Hochrisikogruppe ebenfalls gut von der KAST-Intervention profitieren und eine signifikante Reduktion der AS erzielen konnte, indem sie sich bei T1 dem Niveau der Gruppe mit niedriger TA anglich. Zudem korrelierte die prozentuale Veränderung der Einstiegswerte der inneren Anspannung während der Strohhalm-Atmungsübung positiv mit der prozentualen Veränderung der dimensionalen TA bei T1.
Zusammenfassend weisen die Ergebnisse der vorliegenden Arbeit erstmalig auf die Wirksamkeit der deutschsprachigen Übersetzung des CAST-Programms (Schmidt et al., 2014), eines Computer-basierten, und damit leicht zu implementierenden sowie kostengünstigen Programms, in Bezug auf die Reduktion der AS sowie indirekt der TA hin und können damit zur indizierten und demnach besonders effektiven Prävention von Angsterkrankungen in Hochrisikogruppen beitragen.
b-adrenergic receptors (b-ARs) participate strongly in the development of cardiac hypertrophy and human heart failure. Stimulation of b-adrenergic receptors with catecholamines as well as cardiac overexpression of b1-ARs or of Gas-proteins in transgenic mice induces cardiac hypertrophy. However, direct activation of their downstream targets, such as adenylyl cyclase (AC) or protein kinase A do not promote a significant degree of cardiac hypertrophy. These findings suggest that additional events may occur and that these events require Gas-protein activation. A hypertrophic pathway involving Gaq-protein coupled receptors has recently been described. Upon activation of Gaq-coupled receptors Gbg-subunits are released from Gaq and bind directly to the activated Raf/Mek/Erk cascade. Direct interaction between bg-subunits and activated Erk1/2 leads to an additional autophosphorylation of Erk2 at threonine 188, which mediates cardiac hypertrophy. Murine hearts, as well as isolated cardiomyocytes present an increase in Erk2Thr188-phosphorylation upon b-AR activation. Similarly overexpression of phosphorylation deficient Erk2 mutants (Erk2T188S and Erk2T188A) reduces b-AR mediated cardiomyocyte hypertrophy. Increase in left ventricular wall thickness, fibrosis and up-regulation of natriuretic peptide synthesis, which are physiological features for cardiac hypertrophy, are strongly inhibited in transgenic mice with a cardiac expression of Erk2T188S after two weeks of sustained isoproterenol treatment. It could further be shown in this work that b-AR mediated cardiac hypertrophy requires two distinct pathways initiated by Gs-protein activation: the canonical phosphorylation of Erk1/2 via adenylyl cyclase and the direct interaction of released bg-subunits with activated Erk1/2. Coincidence of both events leads to Erk2Thr188-phosphorylation, which activates then different transcription factors responsible for cardiac hypertrophy. Sequestration of bg-subunits by overexpression of the C-terminus of GRK2 bark-ct and inhibition of adenylyl cyclase efficiently reduced the hypertrophic response to isoproterenol, whereas direct activation of AC by forskolin failed to induce Erk2Thr188-phosphorylation and cardiomyocyte hypertrophy. These findings may help to develop new therapeutic strategies for the prevention of cardiac hypertrophy and maladaptive remodeling of the heart.
Small proteins, often defined as shorter than 50 amino acids, have been implicated
in fundamental cellular processes. Despite this, they have been largely understudied throughout all domains of life, since their size often makes their identification and characterization challenging.
This work addressed the knowledge gap surrounding small proteins with a focus
on the model bacterial pathogen Salmonella Typhimurium. In a first step,
new small proteins were identified with a combination of computational and experimental approaches. Infection-relevant datasets were then investigated with
the updated Salmonella annotation to prioritize promising candidates involved in virulence.
To implement the annotation of new small proteins, predictions from the algorithm
sPepFinder were merged with those derived from Ribo-seq. These were added to the Salmonella annotation and used to (re)analyse different datasets. Information
regarding expression during infection (dual RNA-seq) and requirement for virulence (TraDIS) was collected for each given coding sequence. In parallel,
Grad-seq data were mined to identify small proteins engaged in intermolecular
interactions.
The combination of dual RNA-seq and TraDIS lead to the identification of small
proteins with features of virulence factors, namely high intracellular induction
and a virulence phenotype upon transposon insertion. As a proof of principle of
the power of this approach in highlighting high confidence candidates, two small
proteins were characterized in the context of Salmonella infection.
MgrB, a known regulator of the PhoPQ two-component system, was shown to be essential for the infection of epithelial cells and macrophages, possibly via its stabilizing effect on flagella or by interacting with other sensor kinases of twocomponent
systems. YjiS, so far uncharacterized in Salmonella, had an opposite role in infection, with its deletion rendering Salmonella hypervirulent. The mechanism underlying this, though still obscure, likely relies on the interaction with
inner-membrane proteins.
Overall, this work provides a global description of Salmonella small proteins in
the context of infection with a combinatorial approach that expedites the identification
of interesting candidates. Different high-throughput datasets available for
a broad range of organisms can be analysed in a similar manner with a focus on small proteins. This will lead to the identification of key factors in the regulation
of various processes, thus for example providing targets for the treatment of bacterial
infections or, in the case of commensal bacteria, for the modulation of the microbiota composition.
New insights into the histone variant H2A.Z incorporation pathway in \(Trypanosoma\) \(brucei\)
(2022)
The histone variant H2A.Z is a key player in transcription regulation in eukaryotes. Histone acetylations by the NuA4/TIP60 complex are required to enable proper incorporation of the histone variant and to promote the recruitment of other complexes and proteins required for transcription initiation. The second key player in H2A.Z-mediated transcription is the chromatin remodelling complex SWR1, which replaces the canonical histone H2A with its variant. By the time this project started little was known about H2A.Z in the unicellular parasite Trypanosoma brucei. Like in other eukaryotes H2A.Z was exclusively found in the transcription start sites of the polycistronic transcription units where it keeps the chromatin in an open conformation to enable RNA-polymerase II-mediated transcription. Previous studies showed the variant colocalizing with an acetylation of lysine on histone H4 and a methylation of lysine 4 on histone H3. Data indicated that HAT2 is linked to H2A.Z since it is required for acetylation of lyinse 10 on histone H4. A SWR1-like complex and a complex homologous to the NuA4/TIP60 could not be identified yet. This study aimed at identifying a SWR1-like remodelling complex in T. brucei and at identifying a protein complex orthologous to NuA4/TIP60 as well as at answering the question whether HAT2 is part of this complex or not. To this end, I performed multiple mass spectrometry-coupled co-Immunoprecipitation assays with potential subunits of a SWR1 complex, HAT2 and a putative homolog of a NuA4/TIP60 subunit. In the course of these experiments, I was able to identify the TbSWR1 complex. Subsequent cell fractionation and chromatin immunoprecipitation-coupled sequencing analysis experiments confirmed, that this complex is responsible for the incorporation of the histone variant H2A.Z in T. brucei. In addition to this chromatin remodelling complex, I was also able to identify two histone acetyltransferase complexes assembled around HAT1 and HAT2. In the course of my study data were published by the research group of Nicolai Siegel that identified the histone acetyltransferase HAT2 as being responsible for histone H4 acetylation, in preparation to promote H2A.Z incorporation. The data also indicated that HAT1 is responsible for acetylation of H2A.Z. According to the literature, this acetylation is required for proper transcription initiation. Experimental data generated in this study indicated, that H2A.Z and therefore TbSWR1 is involved in the DNA double strand break response of T. brucei. The identification of the specific complex composition of all three complexes provided some hints about how they could interact with each other in the course of transcription regulation and the DNA double strand break response. A proximity labelling approach performed with one of the subunits of the TbSWR1 complex identified multiple transcription factors, PTM writers and proteins potentially involved in chromatin maintenance. Overall, this work will provide some interesting insights about the composition of the complexes involved in H2A.Z incorporation in T. brucei. Furthermore, it is providing valuable information to set up experiments that could shed some light on RNA-polymerase II-mediated transcription and chromatin remodelling in T. brucei in particular and Kinetoplastids in general.
The biogenesis of spliceosomal UsnRNPs is a highly elaborate cellular process that occurs both in the nucleus and the cytoplasm. A major part of the process is the assembly of the Sm-core particle, which consists of a ring shaped heptameric unit of seven Sm proteins (SmD1•D2•F•E•G•D3•B) wrapped around a single stranded RNA motif (termed Sm-site) of spliceosomal UsnRNAs. This process occurs mainly in the cytoplasm by the sequential action of two biogenesis factors united in PRMT5- and SMN-complexes, respectively. The PRMT5-complex composed of the three proteins PRMT5, WD45 and pICln is responsible for the symmetric dimethylation of designated arginine residues in the C-terminal tails of some Sm proteins. The action of the PRMT5- complex results in the formation of assembly incompetent Sm-protein intermediates sequestered by the assembly chaperone pICln (SmD1•D2•F•E•G•pICln and pICln•D3•B). Due to the action of pICln, the Sm proteins in these complexes fail to interact with UsnRNAs to form the mature Sm-core. This kinetic trap is relieved by the action of the SMN-complex, which removes the pICln subunit and facilitates the binding of the Sm-core intermediates to the UsnRNA, thus forming the mature Sm-core particle. The human SMN complex consists of 9 subunits termed SMN, Gemin2-8 and Unrip. So far, there are no available atomic structures of the whole SMN-complex, but structures of isolated domains and subunits of the complex have been reported by several laboratories in the past years. The lack of structural information about the entire SMN complex most likely lies in the biophysical properties of the SMN complex, which possesses an oligomeric SMN core, and many unstructured and flexible regions. These were the biggest roadblocks for its structural elucidation using traditional methods such as X-ray crystallography, NMR or CryoEM. To circumvent these obstacles and to obtain structural insight into the SMN-complex, the Schizosaccharomyces pombe SMN complex was used as a model system in this work. In a collaboration with the laboratory of Dr. Remy Bordonne (IGMM, CNRS, France), we could show that the SpSMN complex is minimalistic in its composition, consisting only of SpSMN, SpGemin2, SpGemin8, SpGemin7 and SpGemin6. Using biochemical experiments, an interaction map of the SpSMN complex was established which was found to be highly similar to the reported map of the human SMN complex. The results of this study clearly show that SpSMN is the oligomeric core of the complex and provides the binding sites for the rest of the subunits. Through biochemical and X-ray scattering experiments, the properties of the SpSMN subunit such as oligomerization viii and intrinsic disorder, were shown to determine the overall biophysical characteristics of the whole complex. The structural basis of SpSMN oligomerization is presented in atomic detail which establishes a dimeric SpSMN as the fundamental unit of higher order SpSMN oligomers. In addition to oligomerization, the YG-box domain of SpSMN serves as the binding site for SpGemin8. The unstructured region of SpSMN imparts an unusual large hydrodynamic size, intrinsic disorder, and flexibility to the whole complex. Interestingly, these biophysical properties are partially mitigated by the presence of SpGemin8•SpGemin7•SpGemin6 subunits. These results classify the SpSMN complex as a multidomain entity connected with flexible linkers and characterize the SpSMN subunit to be the central oligomeric structural organizer of the whole complex.