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This dissertation focuses on Mip (macrophage infectivity potentiator protein) inhibitors in response to increasing antibiotic resistance. The study follows an antivirulence approach, which aims to inhibit the non-essential Mip protein without exerting too much selective pressure. Three focus areas were (1) development and synthesis of a fluorescent probe for screening Mip inhibitors via fluorescence polarization; (2) design and synthesis of broad spectrum Mip inhibitors bearing a side chain; and (3) understanding the metabolism of Mip inhibitors and identification of active metabolites.
A sub-study addressed the biotinylation of anti-leishmanial compounds from Valeriana wallichii rhizomes, with three tracer molecules synthesized for future pull-down experiments.
Die Inzidenz invasiver H. influenzae-Infektionen in Deutschland steigt seit Jahren an. Die akkurate Identifizierung und Resistenztestung dieses Erregers sind von großer klinischer und epidemiologischer Bedeutung. Daher wurden im Rahmen der vorliegenden Promotionsarbeit umfangreiche Untersuchungen zur Diagnostik und zur Epidemiologie von Antibiotikaresistenzen bei H. influenzae durchgeführt.
Es konnte gezeigt werden, dass die in der Routinediagnostik mittlerweile weit verbreitete MALDI-TOF-MS-Diagnostik durch das VITEK MS IVD nur eingeschränkt zur sicheren Unterscheidung von H. influenzae und H. haemolyticus einsetzbar ist. H. influenzae-Isolate erkannte das System mit einer Genauigkeit von 100 %. Bei H. haemolyticus-Isolaten wurden dagegen 42 % der untersuchten Stämme fälschlicherweise als H. influenzae erkannt. Dieser Fragestellung wurde mit der bisher umfangreichsten molekularbiologisch charakterisierten Studienpopulation beider Bakterienspezies nachgegangen.
Die kalkulierte antibiotische Therapie einer Sepsis oder Meningitis erfolgt häufig mit Carbapenemen, die leitliniengerechte Therapie invasiver H. influenzae-Infektionen mit Drittgenerations-Cephalosporinen. Imipenem und Cefotaxim gehören zu den Hauptvertretern dieser Gruppen. Bezüglich der Antibiotikaresistenztestung wurde erstmalig für H. influenzae herausgefunden, dass die routinemäßig verwendete Gradientenagardiffusion (GAD) bei der Testung von Cefotaxim im Vergleich zum Goldstandard Bouillon-Mikrodilution gleichwertig und bei Imipenem sogar sensitiver in der Detektion von Heteroresistenzen ist.
Die Epidemiologie dieser Resistenzen wurde in dieser Arbeit erstmalig für Deutschland systematisch erfasst, indem alle verfügbaren invasiven Isolate gemeldeter H. influenzae-Infektionen der Jahre 2016 (Imipenem) beziehungsweise 2016-2019 (Cefotaxim) untersucht wurden. Es wurde eine hohe Prävalenz einer Imipenem-Resistenz von 13,5 % festgestellt. Die Prävalenz einer Cefotaxim-Resistenz lag bei 0,9 %.
Zur molekularen Typisierung wurde bei den Imipenem-resistenten Isolaten eine Multilocus-Sequenztypisierung, bei den Cefotaxim-resistenten Stämmen eine Sequenzierung des vollständigen Genoms durchgeführt. Hierbei wurde eine hohe genetische Diversität der Stämme festgestellt, was die Schlussfolgerung zulässt, dass resistente Mutanten sporadisch entstehen. Die Untersuchung möglicher spatio-temporaler Cluster führte zum Nachweis einer sehr selten vorkommenden Übertragung eines Imipenem-resistenten Stamms. Durch die Sequenzierung von Resistenzgenen wurde die Epidemiologie und Relevanz bekannter Aminosäuresubstitutionen beleuchtet. Unter anderem wurde für die PBP3-Substitutionen L389F und Y557H eine hochsignifikante Korrelation mit dem Auftreten von Cefotaxim-Resistenzen nachgewiesen. Die gewonnenen Genomdaten bieten die Grundlage für die Forschung an weiteren Antibiotikaresistenzdeterminanten von H. influenzae.
A part of the plant kingdom consists of a variety of carnivorous plants. Some trap their prey
using sticky leaves, others have pitfall traps where prey cannot escape once it has fallen inside.
A rare trap type is the snap-trap: it appears only twice in the plant kingdom, in the genera
Aldrovanda and Dionaea. Even Charles Darwin himself described Dionaea muscipula, the
Venus flytrap, with the following words “This plant, commonly called Venus' fly-trap, from the
rapidity and force of its movements, is one of the most wonderful in the world”. For a long
time now, the mechanisms of Dionaea’s prey recognition, capture and utilization are of
interest for scientists and have been studied intensively.
Dionaea presents itself with traps wide-open, ready to catch insects upon contact. For this,
the insect has to touch the trigger hairs of the opened trap twice within about 20-30 seconds.
Once the prey is trapped, the trap lobes close tight, forming a hermetically sealed “green
stomach”.
Until lately, there was only limited knowledge about the molecular and hormonal mechanisms
which lead to prey capture and excretion of digestive fluids. It is known that the digestion
process is very water-consuming; therefore, the interplay of digestion-inducing and digestion inhibiting
substances was to be analyzed in this work, to elucidate the fine-tuning of the
digestive pathway. Special attention was given to the impact of phytohormones on mRNA
transcript levels of digestion-related proteins after various stimuli as well as their effect on
Dionaea’s physiological responses.
Jasmonic acid (JA) and its isoleucine-conjugated form, JA-Ile, are an important signal in the
jasmonate pathway. In the majority of non-carnivorous plants, jasmonates are critical for the
defense against herbivory and pathogens. In Dionaea, this defense mechanism has been
restructured towards offensive prey catching. One question in this work was how the
frequency of trigger hair bendings is related to the formation of jasmonates and the induction
of the digestion process. Upon contact of a prey with the trigger hairs in the inside of the trap,
the trap closes and jasmonates are produced biosynthetically. JA-Ile interacts with the COI1-
receptor, thereby activating the digestion pathway which leads to the secretion of digestive
fluid and production of transporters needed to take up prey-derived nutrients. In this work it
could be shown that the number of trigger hair bendings is positively correlated with the level
and duration of transcriptional induction of several digestive enzymes/hydrolases.
Abscisic acid (ABA) acts, along with many other functions, as the plant “drought stress
hormone”. It is synthesized either by roots as the primary sensor for water shortage or by
guard cells in the leaves. ABA affects a network of several thousand genes whose regulation
prepares the plant for drought and initiates protective measurements. It was known from
previous work that the application of ABA for 48 hours increased the required amount of
trigger hair bendings to achieve trap closure. As the digestion process is very water-intensive,
the question arose how exactly the interplay between the jasmonate- and the ABA-pathway
is organized, and if ABA could stop the running digestion process once it had been activated.
In the present work it could be shown that the application of ABA on intact traps prior to
mechanically stimulating the trigger hairs (mechanostimulation) already significantly reduced
the transcription of digestive enzymes for an incubation time as short as 4 h, showing that
already short-term exposure to ABA counteracts the effects of jasmonates when it comes to
initiating the digestion process, but does not inhibit trap closure. Incubation for 24 and 48
hours with 100 μM active ABA had no effect on trap reopening, only very high levels of 200
μM of active ABA inhibited trap reopening but also led to tissue necrosis. As the application
of ABA could reduce the transcription of digestive hydrolases, it is likely that Dionaea can stop
the digestion process, if corresponding external stimuli are received.
Another factor, which only emerged later, was the effect of the wounding-induced systemic
jasmonate burst. As efficient as ABA was in inhibiting marker hydrolase expression after
mechanostimulation in intact plants, the application of ABA on truncated traps was not able
to inhibit mechanostimulation-induced marker hydrolase expression. One reason might be
that the ABA-signal is perceived in the roots, and therefore truncated traps were not able to
react to it. Another reason might be that the wounding desensitized the tissue for the ABAsignal.
Further research is required at this point.
Inhibitors of the jasmonate pathway were also used to assess their effect on the regulation of
Dionaea´s hunting cycle. Coronatine-O-methyloxime proved to be a potent inhibitor of
mechanostimulation-induced expression of digestive enzymes, thus confirming the key
regulatory role of jasmonates for Dionaea´s prey consumption mechanism.
In a parallel project, the generation of in vitro cultures from sterilized seeds and single plant
parts proved successful, which may be important for stock-keeping of future transgenic lines.
Protoplasts were generated from leaf blade tissue and transiently transformed, expressing the
reporter protein YFP after 24 h of incubation. In the future this might be the starting point for
the generation of transgenic lines or the functional testing of DNA constructs.
Salt formation is a routinely used strategy for poorly water-soluble drugs and traditionally performed with small inorganic counterions. High energy crystal lattices as well as effects on the local pH within the aqueous boundary layer during dissolution drive the increased dissolution rate and apparent solubility. Ionic liquids however, by definition low melting ionic salts with often large organic counterions, combine an increased dissolution rate with solubilization of the drug by the counterion itself. Long lasting supersaturation profiles of increased kinetic solubility were reported for several drugs formulated as ionic liquids increasing their overall bioavailability. Furthermore, aggregation and micellization between highly lipophilic compounds and amphiphilic bile acids was described before, demonstrating the capabilities of the human body itself to utilize solubilization of poorly water-soluble compounds. Development of novel counterions not only tailoring the desired physicochemical properties e.g. dissolution rate of the parent drug but adding – in a best-case scenario synergistic – pharmacological activity has been driven forward in the last years. However, salt formation can only be applied for ionizable i.e. acidic or basic compounds. While co-crystals can be used as a nonionized alternative, their formation is not always successful leading to an urgent need for other formulation strategies. In these lines, development of 2D and 3D printing techniques has been ongoing for the last decades and their pharmaceutical application has been demonstrated. The versatile nature and commercial availability allow a decentralized production further elaborating this technique for a highly flexible and patient-oriented supply with medication.
This thesis focuses on the theoretical background and potential application of salt formation in the pharmaceutical development of a drug candidate. The first section presents the current knowledge and state of the art in preparation of low melting ionic liquids i.e. salts and is translated to the in vitro investigation of molecular interaction between the poorly water-soluble drug imatinib and components of the human intestinal fluid in the second section. Development of novel antibiotic counterions and assessment of their potential use in pharmaceutical formulations with fluoroquinolones is described in the last two sections.
Chapter I describes the application of low melting ionic liquids in pharmaceutical formulation and details their development in the last two decades from versatile organic solvents in chemical synthesis towards amorphous strategies for drug delivery. The chapter gives a general overview on molecular structure and physicochemical properties of several drug containing ionic liquids and details the mechanisms which attribute to a typically fast dissolution, increased aqueous solubility as well as enhanced permeation which was reported in several publications.
Chapter II translates the increased aqueous solubility of drugs by an organic counterion to the human gastrointestinal tract with taurocholate and lecithin as main drivers for the solubilization of highly lipophilic and poorly water-soluble drugs. Investigation of the interaction of imatinib – a poorly water-soluble weak base – with fasted- and fed state simulated intestinal fluids revealed a complex interplay between the components of the intestinal fluid and the drug. Mixed vesicles and micelles were observed in concentration dependent aggregation assays and revealed differences in their size, molecular arrangement as well as composition, depending on the tested drug concentration. Overall, the study outlines the effective interaction of weakly basic drugs with taurocholate and lecithin to minimize recrystallization during intestine passage finally leading to favorable supersaturation profiles.
Chapter III focuses on the development of novel antibiotic counterions which potentially move the evolution of ionic liquids from a pharmaceutical salt with tailored physicochemical properties to a synergistic combination of two active pharmaceutical ingredients. The natural occurring anacardic acid derived from the cashew nut shell inspired a series of antibacterial active acidic compounds with increasing alkyl chain length. Their physicochemical properties, antibacterial activity, bacterial biofilm inhibition and cytotoxicity were detailed and in vivo activity in a Galleria mellonella model was assessed. This group of anacardic acid derivatives is synthetically accessible, easily modifiable and yielded two compounds with favorable activity and physicochemical profile for further drug development.
Chapter IV outlines the potential application of anacardic acid derivatives in pharmaceutical formulations by salt formation with fluoroquinolone antibiotics as well as novel techniques such as 2D/3D printing for preparation of drug imprinted products. Despite anacardic acid derivatives demonstrated promising physicochemical properties, salt formation with fluoroquinolone antibiotics was not feasible. However, 2D/3D printed samples with anacardic acid derivative alone or in combination with ciprofloxacin demonstrated physical compatibility between drug and matrix as well as antibacterial activity against three S. aureus strains in an agar diffusion assay. Conclusively, drug printing can be applied for the herein tested compounds, but further process development is necessary.
In summary, preparation of low melting ionic liquids, salts or co-crystals is an appropriate strategy to increase the aqueous solubility of poorly water-soluble drugs and tailor physicochemical properties. The counterion itself solubilizes the drug and furthermore potentially interferes with the complex micellar environment in the human intestine. However, salt formation as routinely used formulation strategy is not feasible in every case and development of alternative techniques is crucial to hurdle challenges related to unfavorable physicochemical properties. The outlined techniques for 2D/3D drug printing provide versatile production of drug products while extending the design space for novel drug development.
Zum 01.06.2017 wurde in der Universitätsklinik Würzburg im Rahmen des 'Antimicrobial Stewardship' in der Herzchirurgie die perioperative Antibiotikaprophylaxe von Cefuroxim auf Cefazolin umgestellt. Diese Studie untersucht insgesamt 1029 Patienten vor und nach der Umstellung hinsichtlich ihrer Raten an Wundinfektionen, nosokomialen Infektionen und Risikofaktoren zur Entwicklung einer postoperativen Wundinfektion.
Die Ergebnisse zeigen, dass eine Umstellung der perioperativen Antibiotikaprophylaxe von Cefuroxim, einem Cephalosporin der zweiten Generation, auf Cefazolin, ein Cephalosporin der ersten Generation, zu keinem Anstieg der Wundinfektionen in herzchirurgischen Eingriffen führt.
Insgesamt lag keine signifikante Überlegenheit eines der beiden Antibiotika vor, weder in Hinblick auf die gesamten Wundinfektionen, die tiefen sternalen Wundinfektionen und die Infektionen der Beinwunde, noch bei nosokomialen Infektionen wie der Pneumonie, dem Harnwegsinfekt oder der Sepsis. Im Patientenkollektiv konnten weiterhin einige unabhängige prä-, intra- und postoperative Risikofaktoren ermittelt werden, die zu einer signifikanten Steigerung der Infektionsraten führten. Auch bei der differenzierten Betrachtung der Risikopatienten zeigte sich kein signifikanter Wirkungsunterschied zwischen den beiden untersuchten Antibiotika.
Diese Studie weist mit 1029 Patienten ein zur existierenden Literatur vergleichsweise großes Patientenkollektiv auf. Auch die erhobenen Parameter sind umfangreich gewählt und boten die Möglichkeit tiefergehender Analysen. Limitiert wird die Studie jedoch durch ihr retrospektives Design mit dem Fehlen eines kontrollierten Follow-Ups. Um die Ergebnisse bestätigen und bekräftigen zu können, müsste eine prospektive, randomisierte Studie hieran angeschlossen werden.
Synthetische anorganische Knochenersatzmaterialien auf Calcium-Phosphat- und Magnesium-Phosphat-Basis wurden in der hier vorliegenden Dissertation mit verschiedenen handelsüblichen Antibiotika versetzt und deren Freisetzungsverhalten charakterisiert. Zudem wurde der Einfluss des Antibiotikazusatzes auf bestimmte materialcharakteristische Eigenschaften untersucht, hierbei fanden die Quecksilberporosimetrie, die Röntgendiffraktometrie und die Rasterelektronenmikroskopie ihre Anwendung. Insbesondere für die Knochenersatzmaterialien auf Calcium-Phosphat-Basis sollte eine klinisch praktikable und demnach möglichst einfache Methode etabliert werden, um die Kombination mit einem Antibiotikum durchzuführen. Die Detektion der Antibiotika erfolgte mit Hilfe eines UV/VIS-Spektrophotometers. Zudem wurde für einige ausgewählte Kombinationen aus Antibiotikum und Knochenersatzmaterial durch einen Agardiffusionstest die antibakterielle Wirkung nach der Freisetzung aus dem jeweiligen Trägermaterial bestätigt.
Die Dissertation untersucht die vorstationäre, stationäre und poststationäre antibiotische Therapie bei 1724 Kindern und Jugendlichen mit parapneumonischen Pleuraergüssen/-empyemen in Deutschland. Der Untersuchungszeitraum war von Oktober 2010 bis Juni 2018. Untersucht wurden jeweils die Wirkstoffauswahl der häufigsten Mono- und Mehrfachtherapien, wie oft die Therapie im stationären Verlauf erweitert oder umgestellt wurden, sowie der klinische Verlauf der Patienten.
Diese Arbeit ist eine epidemiologische, deskriptive Beobachtungsstudie mit retrospektiver Datenerhebung. Sie stellt das bakterielle Erreger- und Resistenzspektrum von pädiatrischen Patienten mit Blutkultur-positiver Sepsis in Innsbruck dar.
Dazu wurden 797 positive Blutkulturen von pädiatrischen Patienten des Departments für Pädiatrie der Medizinischen Universität Innsbruck, bei denen gemäß Patientenakte eine Sepsis diagnostiziert wurde, im Zeitraum von Januar 2000 bis Dezember 2008 an der Sektion für Hygiene und Medizinische Mikrobiologie der Medizinischen Universität Innsbruck bezüglich der Erregerverteilung und des Resistenzspektrums untersucht. In einem weiteren Schritt wurde im Rahmen einer statistischen Auswertung überprüft, inwieweit patientenbezogene Daten (Geschlecht, Alter, Begleiterkrankung) sowie der Infektionsort (nosokomial oder ambulant erworben), die Entnahmestelle der Blutkultur und der Zeitraum das Erreger- und Resistenzspektrum beeinflussen.
Assay and impurity profiling of the pharmaceuticals are the key routine quality control methods employed worldwide for which High Performance Liquid Chromatography (HPLC) is the most widely used technique. The ability to carry out these routine laboratory procedures in low- and middle- income countries (LMICs) need the methods to be based upon simple instruments manageable with moderate levels of personnel skill and costs involved.
Simple, convenient, and cost effective reverse phase HPLC methods were developed using phosphate buffer and methanol as mobile phase with C18 column as stationary phase for the impurity profiling and assay of beta lactam antibiotics. Isocratic elution and UV detection was employed in these methods. Impurity profiling method was developed for coamoxiclav tablets and ceftriaxone bulk drug. The method for ceftriaxone included a supplementary method to quantify one of its known impurity (Impurity D of ceftriaxone). This method involved use of acetonitrile where as the two main methods were achieved on the targeted method design, described above. With the exception of impurity A of ceftriaxone, the methods developed can successfully quantify impurities to the concentration as low as ≤0.05%, which is in accordance with the current guidelines for the impurity profiling of antibiotics issued by European Medicines Agency.
As ensuring cost reduction was one of the key objectives of carrying out the method development exercise, in situ methods for the preparation of impurities were also identified and some new methods were introduced. The stability of beta lactam antibiotics and the choice of solvent were given due attention during the process of method development revealing information on the presence of new impurities. Deacetyl cefotaxime and 2-mercaptobenzathiazole were identified in this process as new impurities of ceftriaxone currently not listed under known impurities by United States Pharmacopoeia and European Pharmacopoeia. However, deacetyl cefotaxime is a known impurity of cefotaxime whereas the latter molecule is a degradation product of one of the synthesis impurities of ceftriaxone. This substance is reported to be carcinogenic and is resolved using the supplementary method developed for ceftriaxone, hence making its detection and quantification possible. A known inactive impurity of ceftriaxone (Impurity A, E-isomer of ceftriaxone) was` also shown to be produced by exposure to day light, thus warranting the light protection of the ceftriaxone solution, an information that is of critical importance in the clinical settings.
A series of experimentation was carried out on the finished products of beta lactam antibiotics sampled from Pakistan and few other countries, to identify key quality issues in the samples. Though the limited sample size and convenient sampling did not provide results that could yield a decisive figure for the country status for prevalence of substandard and falsified medical products, but the experiments have clearly indicated that the problems in drug quality do exist and beta lactam antibiotics form a class of high-risk medicine with respect to surveillance for poor-quality medicines. Isolation of unknown impurities was also carried out along with the introduction of new and modified methods for preparation of impurities of beta-lactam antibiotics.
In addition, detailed literature survey was carried out for understanding the complex problem of the poor-quality medicine, impact of poor quality antimicrobials on health care system and the magnitude of the problem at the global level. The country status of Pakistan regarding quality of medicines was recorded based upon the available documentary evidence. The current technologies and strategic options available for low- and middle-income countries in aiding fight for combating poor quality medicines was also laid down to design recommendations for Pakistan. A comprehensive review of the information technology tools used for identification and control of substandard and falsified medicines was also conducted.