The roles of the anaphylatoxin receptors during invasive disease as well as mucosal colonization caused by \(Neisseria\) \(meningitidis\) / Die Rolle der Anaphylatoxinrezeptoren während invasiver Infektion sowie mukosaler Kolonisation verursacht durch \(Neisseria\) \(meningitidis\)

Münstermann, Marcel

January 2022

The human specific gram-negative bacterium Neisseria meningitidis (Nme, meningococci) is a common colonizer of the upper respiratory tract. Upon becoming invasive, Nme can cause meningitis and life-threatening sepsis. The most important immune defense mechanism in invasive meningococcal disease (IMD) is the complement mediated killing of bacteria. The complement cascade is activated through different pathogen associated patterns and finally leads to the lysis of the bacteria by the membrane attack complex. In addition to the direct bacterial killing, the complement system is also an important player in different inflammatory processes. A hallmark of IMD is an overreaction of the immune system and the release of the potent anaphylatoxins C3a and C5a by the complement system is an important factor hereby. There are three anaphylatoxin receptors (ATRs), the C3aR, the C5aR1 and the C5aR2, capable of detecting these anaphylatoxins. It has already been shown that blocking the ATR C5aR1 strongly benefitted the outcome of IMD in a murine sepsis model. However, the roles of ATRs C3aR and C5aR2 in IMD are still unclear. This work aims to analyze the role of these ATRs in meningococcal sepsis and to identify possible underlying mechanisms. Furthermore, a possible involvement of the complement system, the ATRs and the type II CRISPR/Cas system on nasopharyngeal colonization is analyzed. In vivo depletion experiments showed that without neutrophils or monocytes/macrophages the complement system alone was not able to clear a low dose Nme infection, which highlights the importance of cellular components in IMD. Analyzing the role of the ATRs in knock-out mice with high dose Nme infections, revealed that the lack of C5aR2, like the lack of C5aR1, was beneficial for the outcome of meningococcal induced sepsis. In contrast, the lack of C3aR in knock-out mice was detrimental. The positive outcome associated with the C5aRs could be reproduced by using an antagonist against both C5aRs or an antagonist specifically against C5aR1 in WT mice. These findings are giving hope to future therapeutic applications. Next, a possible contribution of neutrophils to this positive outcome was analyzed. Absence of C5aR1 led to a decrease of degranulation by neutrophils in a murine whole blood model, while the other ATRs showed no effect. Neutrophil analysis in human whole blood, on the other hand, revealed a reduced oxidative burst and IL-8 secretion upon inhibition of all three ATRs. A functional difference between the C5aRs and the C3aR in neutrophils was observed in phagocytosis, which was reduced upon C3aR inhibition, but was unaltered with C5aR1 or C5aR2 inhibition. Possible underlying mechanisms in the phosphorylation of ERK1/2 were analyzed in bone marrow derived macrophages isolated from ATR knock-out mice. The later phosphorylation of ERK1/2 in macrophages without C5aR1 or C5aR2 expression might explain, why blocking the C5aRs is beneficial for the outcome of IMD in mice. In contrast to these findings, the colonization of the nasopharynx in huCEACAM 1 expressing mice by Nme did not seem to depend on the Complement system factors C3 and C5 nor the ATRs. Additionally, no difference in the colonization could be observed in this model using Nme mutants lacking different parts of the type 2 CRISPR/Cas system. Conclusively, this work highlights the importance of the complement system, the ATRs and the cellular components in IMD. Contrariwise, these factors did not play a role in the analyzed nasopharyngeal infection model. The beneficial effects of C5aR1 and C5aR2 lack/inhibition in IMD might have medicinal applications, which could support the standard therapies of IMD in the future. / Das human spezifische pathogene Gram-negative Bakterium Neisseria meningitidis (Nme, Meningokokken) ist ein Kommensale angesiedelt im Nasopharynx. Bei invasiver Erkrankung können Nme Meningitis oder eine lebensbedrohliche Sepsis verursachen. Die wichtigste Verteidigung des Immunsystems in invasiver Meningokokken-Erkrankung (IMD) ist die Abtötung von Bakterien durch das Komplementsystem. Die Komplementkaskade wird durch verschiedene pathogenassoziierte Muster in Gang gesetzt und resultiert in dem Aufbau des Membranangriffskomplex, welcher die Bakterien schließlich lysiert. Darüber hinaus spielt das Komplementsystem auch eine wichtige Rolle in verschiedenen inflammatorischen Prozessen im Körper. Ein charakteristisches Merkmal von IMD ist eine übermäßige Reaktion des Immunsystems und dabei ist die Freisetzung der Anaphylatoxine C3a und C5a, durch das Komplementsystem, ein wichtiger Faktor. Es gibt drei Anaphylatoxin Rezeptoren (ATR), den C3aR, den C5aR1 und den C5aR2, welche die jeweiligen Anaphylatoxine erkennen. In murinen Modellen wurde bereits gezeigt, dass die Inhibition des C5aR1 einen positiven Einfluss auf den Verlauf von IMD hat. Im Kontrast dazu sind die Rollen der ATRs C3aR und C5aR2 in IMD weiter unklar. Diese Arbeit hat als Ziel, die Rolle der ATRs in Meningokokken induzierter Sepsis zu untersuchen und mögliche zugrundeliegende Mechanismen zu finden. Des Weiteren soll ein möglicher Einfluss des Komplementsystems, der ATRs und des Typ II CRISPR/Cas Systems auf die Kolonisation durch Nme im Nasopharynx untersuchen werden. In vivo Depletions-Versuche zeigten, dass ohne Neutrophile oder Monozyten/Makrophagen das Komplementsystem allein nicht in der Lage war eine Nme-Infektion mit einer niedrigen Infektionsdosis zu beseitigen. Dies zeigt die Wichtigkeit von Immunzellen neben dem Komplementsystem in IMD. Experimente mit hohen Nme-Dosen in ATR knock-out Mäusen zeigten, dass die fehlende Expression von C5aR2, wie die von C5aR1, sich positiv auf den Ausgang von IMD auswirkte. Im Gegensatz dazu, verschlimmerte das Fehlen des C3aR Rezeptors den Ausgang der IMD. Die positive Wirkung in den C5aR knock-out Mäusen, konnte auch mit der Gabe von einem gegen beide C5aRs oder einem spezifisch gegen C5aR1 gerichteten Antagonisten in WT Mäusen beobachtet werden. Diese Ergebnisse geben Hoffnung auf eine mögliche zukünftige therapeutische Applikation. Als nächstes wurde eine mögliche Beteiligung von Neutrophilen an dem positiven Ausgang von IMD in Abhängigkeit von den ATRs untersucht. Eine fehlende C5aR1 Expression führte zu einer verminderten Degranulation durch Neutrophile in dem verwendeten murinen Vollblutmodel, wohingegen die fehlende Expression der anderen ATRs keinen Effekt zeigte. Im Gegensatz dazu, zeigten Versuche mit humanem Vollblut einen verminderten Oxidativen Burst sowie eine verminderte Ausschüttung von IL-8 bei der Blockade von allen drei ATRs. Ein Unterschied zwischen den C5aRs und dem C3aR zeigte sich hingegen in der Phagozytose, welche mit C3aR Inhibierung reduziert war, aber unverändert nach der Inhibierung von C5aR1 oder C5aR2 blieb. Mögliche zugrundeliegende Mechanismen in der Phosphorylation von ERK1/2 wurden anschließend in Knochenmark-gereiften Makrophagen von ATR knock-out Mäusen untersucht. Ohne C5aR1 oder C5aR2 Expression wurde eine verzögerte Phosphorylierung von ERK1/2 in den Makrophagen beobachtet, was erklären könnte warum die Blockade von C5aRs den Ausgang von Meningokokken induzierter Sepsis in Mäusen positiv beeinflusst. Im Gegensatz zu diesen Ergebnissen wurde die Kolonisation des Nasopharynx durch Nme in huCEACAM-1 exprimierenden Mäusen, weder durch die Komplementfaktoren C3 und C5 noch durch die ATRs beeinflusst. Zusätzlich konnte auch kein Unterschied in der Besiedelung des Nasopharynx durch Nme-Mutanten, die verschiedene Mutationen des Typ 2 CRISPR/Cas Systems besaßen, beobachtet werden. Diese Arbeit zeigt die Wichtigkeit des Komplementsystems, der ATRs und der Immunzellen in IMD. Zusätzlich zeigt diese Arbeit, dass das Komplementsystem und die ATRs jedoch keine Auswirkungen auf die Kolonisation des Nasopharynx in Mäusen haben. Die äußerst positive Auswirkung auf IMD, wenn C5aR1 und C5aR2 nicht gebildet oder blockiert werden, könnte medizinisch von Bedeutung sein und eventuell in der Zukunft die Standarttherapie bei IMD unterstützen.

Anaphylatoxine

Komplement C3a

Komplement C5a

Neisseria meningitidis

Komplement <Immunologie>

ddc:570

Development of multicellular \(in\) \(vitro\) models of the meningeal blood-CSF barrier to study \(Neisseria\) \(meningitidis\) infection / Entwicklung multizellulärer \(in\) \(vitro\) Modelle der meningealen Blut-Liquor Schranke zur Untersuchung der \(Neisseria\) \(meningitidis\) Infektion

Endres, Leo Maximilian

January 2024

Neisseria meningitidis (the meningococcus) is one of the major causes of bacterial meningitis, a life-threatening inflammation of the meninges. Traversal of the meningeal blood-cerebrospinal fluid barrier (mBCSFB), which is composed of highly specialized brain endothelial cells (BECs), and subsequent interaction with leptomeningeal cells (LMCs) are critical for disease progression. Due to the human-exclusive tropism of N. meningitidis, research on this complex host-pathogen interaction is mostly limited to in vitro studies. Previous studies have primarily used peripheral or immortalized BECs alone, which do not retain relevant barrier phenotypes in culture. To study meningococcal interaction with the mBCSFB in a physiologically more accurate context, BEC-LMC co-culture models were developed in this project using BEC-like cells derived from induced pluripotent stem cells (iBECs) or hCMEC/D3 cells in combination with LMCs derived from tumor biopsies. Distinct BEC and LMC layers as well as characteristic expression of cellular markers were observed using transmission electron microscopy (TEM) and immunofluorescence staining. Clear junctional expression of brain endothelial tight and adherens junction proteins was detected in the iBEC layer. LMC co-culture increased iBEC barrier tightness and stability over a period of seven days, as determined by sodium fluorescein (NaF) permeability and transendothelial electrical resistance (TEER). Infection experiments demonstrated comparable meningococcal adhesion and invasion of the BEC layer in all models tested, consistent with previously published data. While only few bacteria crossed the iBEC-LMC barrier initially, transmigration rates increased substantially over 24 hours, despite constant high TEER. After 24 hours of infection, deterioration of the barrier properties was observed including loss of TEER and altered expression of tight and adherens junction components. Reduced mRNA levels of ZO-1, claudin-5, and VE-cadherin were detected in BECs from all models. qPCR and siRNA knockdown data suggested that transcriptional downregulation of these genes was potentially but not solely mediated by Snail1. Immunofluorescence staining showed reduced junctional coverage of occludin, indicating N. meningitidis-induced post-transcriptional modulation of this protein, as previous studies have suggested. Together, these results suggest a potential combination of transcellular and paracellular meningococcal traversal of the mBCSFB, with the more accessible paracellular route becoming available upon barrier disruption after prolonged N. meningitidis infection. Finally, N. meningitidis induced cellular expression of pro-inflammatory cytokines and chemokines such as IL-8 in all mBCSFB models. Overall, the work described in this thesis highlights the usefulness of advanced in vitro models of the mBCSFB that mimic native physiology and exhibit relevant barrier properties to study infection with meningeal pathogens such as N. meningitidis. / Neisseria meningitidis (der Meningokokkus) ist einer der Hauptursachen bakterieller Meningitis, einer lebensbedrohlichen Entzündung der Hirnhäute. Entscheidend für das für das Voranschreiten der Krankheit ist die Fähigkeit des Erregers, die meningeale Blut-Liquor-Schranke (mBCSFB), bestehend aus spezialisierten Hirnendothelzellen (BECs) und leptomeningealen Zellen (LMCs), zu überwinden und in den submeningealen Raum einzudringen. Da es sich bei N. meningitidis um ein rein humanes Pathogen handelt, beschränkt sich die Erforschung dieser speziellen Interaktion primär auf die Verwendung von in vitro Modellen. Bisher wurden hierfür hauptsächlich periphere oder immortalisierte BECs verwendet, welchen jedoch wichtige Barriere-Eigenschaften fehlen. Um die Interaktion von N. meningitidis mit der mBCSFB in einem physiologisch relevanteren Umfeld zu untersuchen, wurden in dieser Arbeit neuartige BEC-LMC Kokulturmodelle entwickelt. Dabei wurden sowohl BEC-ähnliche Zellen, die aus induzierten pluripotenten Stammzellen generiert wurden (iBECs), als auch hCMEC/D3 Zellen verwendet und zusammen mit LMCs aus Tumorbiopsien kultiviert. Mittels Transmissions-Elektronenmikroskopie und Immunfluoreszenzfärbung konnten die unterschiedlichen Zellschichten und deren Expression charakteristischer zellulärer Marker dargestellt werden. Durchgängige Expression von wichtigen Bestandteilen Barriere-formender Zellverbindungen, sogenannter Tight und Adherens Junctions, wurde in der iBEC-Schicht beobachtet. Die Integrität der zellulären Barriere wurde mittels transendothelialer elektrischer Resistenz (TEER) und Permeabilität gegenüber Natrium-Fluorescein (NaF) bestimmt. Erhöhte TEER-Werte und verringerte NaF-Permeabilität, gemessen über einen Zeitraum von sieben Tagen, zeigten eine durch die Kokultur mit LMCs ausgelöste Steigerung der Dichtigkeit und Stabilität der iBEC-Barriere. Infektionsexperimente mit N. meningitidis zeigten in allen Modellen vergleichbare bakterielle Adhäsion und Invasion der BEC-Schicht. Bakterielle Transmigration durch die gesamten Zellbarriere war im iBEC-LMC Modell kurz nach Infektion nur in geringem Maße detektierbar, nahm jedoch innerhalb von 24 Stunden deutlich zu. Interessanterweise wurde bis zu 24 Stunden nach Infektion noch eine hohe Integrität der Barriere gemessen, welche allerdings im weiteren Verlauf verloren ging. Neben signifikantem TEER-Verlust wurde eine verringerte Expression der Tight und Adherens Junction Proteine ZO-1, claudin-5, und VE-cadherin mittels qPCR festgestellt. qPCR und siRNA Knockdown Experimente deuteten darauf hin, dass dies möglicherweise, aber nicht ausschließlich, auf den Transkriptionsfaktor Snail1 zurückzuführen war. Zusätzlich zu den beobachteten Effekten auf die zelluläre Transkription von Tight Junction Genen, zeigten Immunfluoreszenzfärbungen eine verringerte Expression von Occludin an den Zell-Zell-Verbindungen, was auf eine post-translationale Modulation schließen lässt. Zusammen deuten die Ergebnisse dieser Infektionsstudien auf eine mögliche Kombination aus trans- und parazellulärer bakterieller Transmigration der mBCSFB hin. Zuletzt wurden in dieser Arbeit noch die Immunaktivierung von BECs nach N. meningitidis Infektion in den neuen BEC-LMC Kokulturmodellen untersucht. Hierbei wurde eine erhöhte Expression von Zytokinen, insbesondere Interleukin-8, beobachtet. Insgesamt konnten in dieser Arbeit neue, fortschrittlicher in vitro Modelle der mBCSFB entwickelt werden, welche die humane Physiologie besser widerspiegeln und daher für Infektionsstudien mit Meningitis-verursachenden Erregern wie N. meningitidis von besonderem Nutzen sind.

Bakterielle Hirnhautentzündung

Blut-Liquor-Schranke

Induzierte pluripotente Stammzelle

Neisseria meningitidis

In-vitro-Kultur

ddc:570

Risk Factors Contributing to Transmission Rates of Chlamydia trachomatis and Neisseria gonorrhoeae Among Women in Veron, Dominican Republic

Henson, Camille Jeanette

10 March 2011

Background: Selected factors place Dominican female adolescent and adults at risk for sexually transmitted infections (STIs) such as Chlamydia, causative organism Chlamydia trachomatis, and Gonorrhea, causative organism Neisseria gonorrhoeae. The purpose of this study was to determine the prevalence of Chlamydia and Gonorrhea among adolescent and adult females that utilize the clinic in Veron, Dominican Republic. Clinical standards of care for these STIs and educational programs for prevention were developed from the data gathered from this study. Significance at 0.05 ά of the relationship of educational level, management of risk factors and other selected independent variables on prevalence rate of Chlamydia and Gonorrhea in the clinic population of Veron, Dominican Republic were determined. The objectives of the study were to 1) determine the prevalence of adolescent and young adult females diagnosed with Gonorrhea and Chlamydia who visit the clinic for prenatal visits, annual pap smear exams and gynecological complaints; 2) determine the extent to which educational level is a predictor of positive diagnosis or risk for infection of Chlamydia and Gonorrhea and; 3) determine which selected demographic and risk factors are associated with positive test results for Gonorrhea and Chlamydia. Methods: All adolescent and adult females ages 15 years and older visiting the clinic in Veron for prenatal exams, pap smear exams and gynecological complaints between January 28, 2008 – March 3, 2008 were invited to participate in this prevalence study. Of the 90 invited, the accepting sample was 90 who signed an informed consent form. Prior to STI testing each patient completed a verbal interview and questionnaire on sociodemographic characteristics as well as knowledge, attitudes, and beliefs related to Chlamydia and gonorrhea, sexual experiences and behaviors and illicit drugs use. Specimens collected from the endocervical canal of each female were tested and results provided within two hours, followed by immediate treatment by a licensed Dominican physician and follow-up care based on the guidelines and standards of care. The data were analyzed using descriptive statistics, chi square, t-test and logistic regression. Results: A total of ninety women participated in the study. Chlamydia was detected in 6.7% of the patient population and Gonorrhea was detected in 22.2% of the patient population. Co-infection of both Chlamydia and Gonorrhea was present in 2 cases. Among the positive Chlamydia tests results, 50% had less than a six-year education and 50% had more then six years of education. In addition, 83.3% of the patients with positive Chlamydia results answered "yes", they could read and 16.6% stated they could not read, while 83.3% of the patients with positive Chlamydia results stated they could write and 16.6% stated they could not write (P>0.05). Among the patients that tested positive for Gonorrhea, 55% stated they had less than six years of formal education and 45% had more than six years of formal education (P>0.05). There were 75% of the patients that tested positive for Gonorrhea that stated they could read and 25% who stated they could not read (P>0.05); while 85% of the patients with positive Gonorrhea results stated they could write and 15% stated they could not write (P> 0.05). Conclusion: Educational level and other selected demographic characteristics and risk factors in this study are not a significant predictor of positive diagnosis or risk of infection for Chlamydia or Gonorrhea. We cannot conclude that specific risk factors are associated with positive test results for Gonorrhea and Chlamydia. For the physicians involved in the clinical decision-making regarding the female patients at the Veron clinic, more data are needed to determine appropriate populations for screening of Gonorrhea and Chlamydia as well as appropriate educational tools on sexually transmitted infections. / Ph. D.

sexually transmitted infections (STIs)

Chlamydia trachomatis

Neisseria gonorrhoeae

risk factors

Dominican Republic

Optimization of Enantiopure tetrahydro-β-carbolines as Potent Antimalarials and Exploration of salicylic acid analogs for combating multidrug-resistant Neisseria gonorrhoeae

AlMolhim, Hanan Suliman

15 May 2023

The emergence of drug resistance towards existing drugs is a constant challenge in the fight against many diseases including Malaria and gonorrhoeae. To evade resistance, new targets must be engaged, and to do that, new structural classes of anti-infective must be prepared and evaluated. During the course of my PhD journey, I had the opportunity to investigate and optimize the antimalarial candidate (±)-2-3b, and salicylic acid (4-1a) as an anti-gonorrhea treatment. Malaria is a life-threatening mosquito-borne disease. In 2021, there were 247 million cases of malaria and the estimated number of malaria deaths stood at 619,000. Because of the rapid development of resistance to all current antimalarials, discovery of antimalarials with unexploited mechanisms of action is critical to reduce malaria mortality. In the Carlier group, our initial approach focused on discovery of inhibitors of the methylerythritol phosphate (MEP) pathway for isoprenoid precursor biosynthesis, since this pathway is essential for Plasmodium falciparum and absent in human. Application of the isopentenyl pyrophosphate (IPP) chemical rescue screen to the compounds of the Malaria Box, a collection of 400 antimalaria candidates with unknown mechanisms of action, identified tetrahydro-β-carboline 2-1 (MMV008138) as an inhibitor of the MEP pathway. Chapter 2 of this work discusses similarity searching of the Novartis portion of the hit set (5K compounds), from the original 20K compound hit set of the Malaria Box, and identifying tetrahydro-β-carboline GNF-Pf-5009, designated as (±)-2-3b. Preparation of pure enantiomers, by resolution, demonstrated the pharmacological superiority of (R)-2-3b over (S)-2-3b, which was found to have good asexual blood stage (ABS) inhibition potency against malarial parasites P. falciparum, and low general cytotoxicity. However, (R)-2-3b was found not orally efficacious in a P. berghei mouse model of malaria. We concluded that the lack of oral efficacy of (R)-2-3b was due to its poor drug-like qualities, in particular its high molecular weight and low solubility. Chapter 3 of this work explores modifications of (R)-2-3b ((R)-3-5Aa) that were expected to improve its properties. We show that the new compounds (R)-3-5Gm and (R)-3-5Gk not only are more potent in vitro than (R)-2-3b ((R)-3-5Aa), but also have molecular weights < 500 g/mol. Neisseria gonorrhoeae is the causative agent of the sexually transmitted disease gonorrhea. Due to the increased rates of infection as well as the prevalence of multidrug-resistant N. gonorrhoeae strains worldwide, the World Health Organization (WHO) and the U.S. Centers for Disease Control and Prevention (CDC) list N. gonorrhoeae at the highest possible threat level to public health. Dual therapy of azithromycin (AZM) and ceftriaxone has been the standard-of-care for treatment of gonococcal infections. However, due to increasing resistance to azithromycin (>33% in some regions) the CDC removed AZM from the treatment regimen for gonorrhea in 2020. Therefore, ceftriaxone remains the only recommended antibiotic for treatment of gonococcal infections. However, increasing resistance to this treatment option has been reported, consequently there is an urgent need to identify novel therapeutics against N. gonorrhoeae. Drug repurposing is a popular strategy that explores new therapeutic opportunities for approved drugs with available information on their pharmacokinetic data, dosages, and toxicity. Salicylic acid is a highly privileged chemical scaffold. Also, the use of salicylic acid to treat sexually transmitted diseases (including gonorrhea) was reported as early as the 19th century. Recently, Dr. Mohamed N. Seleem reported that salicylic acid (4-1a) exhibited modest activity against N. gonorrhoeae strains including the AZM-resistant strain (CDC-181). Chapter 4 of this work illustrates how the anti-gonococcal activity in this scaffold is easily lost by inopportune substitution. However, we found that substituted naphthyl analogs (4-3b,o,p) have superior activity to salicylic acid itself. In addition, the three analogs showed high selectivity, compared to AZM, against N. gonorrhoeae over the vaginal microbiota. / Doctor of Philosophy / In the fight against malaria and gonorrhea, two different diseases, we face one common challenge, which is the emergence of drug resistance towards existing drugs. Therefore, there is a pressing need for new antimalarial and anti-gonorrhea compounds with novel mechanisms of action. This dissertation encompasses my research on the investigation and optimization of the antimalarial candidate (±)-2-3b and Salicylic acid (4-1a) as anti-gonorrhea treatment. Malaria is a life-threatening mosquito-borne disease. It is transmitted through the bites of infected female Anopheles mosquitoes. In 2021, there were 247 million cases of malaria and the estimated number of malaria deaths stood at 619,000. Children under 5 accounted for about 80% of all malaria deaths. In the Carlier group, compound 2-1 (MMV008138) was identified and thoroughly studied as antimalaria candidate. It was found to be effective in killing the malaria parasite, P. falciparum, in red blood cells, in vitro. However, when tested on P. berghei mouse model of malaria, it was found not effective. Chapter 2 of this work discusses the discovery of (±)-2-3b after searching for a structurally similar analog of 2-1. The compound (±)-2-3b can exist in two distinct spatial arrangements (enantiomers) R and S. After preparation of pure enantiomers, we confirmed the pharmacological superiority of (R)-2-3b over (S)-2-3b. The compound (R)-2-3b showed good activity in vitro against malarial parasites P. falciparum, and low general cytotoxicity. However when tested orally on P. berghei mouse model of malaria, it was found not effective. We concluded that the lack of oral efficacy of (R)-2-3b was due to its poor drug-like qualities, such as high molecular weight and low solubility. Chapter 3 of this work explore modifications of (R)-2-3b ((R)-3-5Aa) that will improve its properties. We show that the new compounds (R)-3-5Gm and (R)-3-5Gk not only are more active in vitro than (R)-2-3b ((R)-3-5Aa), but also have lower molecular weights (< 500 g/mol). Neisseria gonorrhoeae is the causative agent of the sexually transmitted disease gonorrhea. The World Health Organization (WHO) and the U.S. Centers for Disease Control and Prevention (CDC) list N. gonorrhoeae at the highest possible threat level to public health because of the increased rates of infection and the appearance of multidrug-resistant N. gonorrhoeae strains worldwide. Dual therapy of azithromycin (AZM) and ceftriaxone has been the standard-of-care for treatment of gonococcal infections. However, due to increasing resistance to azithromycin the CDC removed AZM from the treatment regimen. Therefore, ceftriaxone remains the only recommended antibiotic for treatment of gonococcal infections. However, increasing resistance to this treatment option has been reported. Drug repurposing is a popular strategy that explores new therapeutic opportunities for approved drugs with available information on their pharmacokinetic data, dosages, and toxicity. Salicylic acid is a highly privileged chemical scaffold that has been used to treat sexually transmitted diseases (including gonorrhea) since the 19th century. Chapter 4 of this work illustrates our efforts to enhance the potency of salicylic acid (4- 1a). I performed chemical modifications on (4-1a) and concluded that anti-gonococcal activity is easily lost by inopportune substitution. However, we found that substituted naphthyl analogs (4-3b,o,p) have superior activity to salicylic acid itself. In addition, the three analogs showed high selectivity, compared to AZM, against N. gonorrhoeae over the vaginal microbiota.

Synthesis

Plasmodium

DMPK

in vivo

Malaria Box

analog by catalog

Neisseria gonorrhoeae

repurposing.

Avaliação da ativação de linfócitos T em indivíduos com infecção anorretal assintomática por Chlamydia trachomatis e/ou Neisseria gonorrhoeae em uma população de homens que fazem sexo com homens / Evaluation of T cell activation in individuals with asymptomatic anorectal Chlamydia trachomatis and/or Neisseria gonorrhoeae in a cohort of men who have sex with men

Vieira, Vinicius Adriano

17 November 2017

A profilaxia pré-exposição (PrEP) ao HIV se consolidou como uma importante estratégia de combate ao avanço da epidemia. Ainda assim, a incidência de casos da infecção vem aumentando na população jovem, assim como a de outras infecções sexualmente transmissíveis (ISTs), que atuam como importante fator de risco para transmissão do HIV-1. Entre as infecções mais frequentemente diagnosticadas estão Chlamydia trachomatis (CT) e Neisseria gonorrhoeae (NG). A presença de lesões na mucosa genital e anal são fatores de risco estabelecidos para a transmissão do HIV-1, porém o impacto das infecções assintomáticas ainda é pouco conhecido. Dados recentes mostram que a ativação sistêmica de linfócitos T é um fator de risco para a aquisição da infecção pelo HIV-1. Nesse estudo, estudamos a ativação de linfócitos T na presença de infecção anorretal assintomática por CT e/ou NG. Células mononucleares do sangue periférico de voluntários do PrEP Brasil, um estudo clínico demonstrativo de PrEP ao HIV em homens que fazem sexo com homens, foram descongeladas para análise da ativação de linfócitos T. Trinta e quatro participantes com swab anorretal positivo para CT e/ou NG foram selecionados, enquanto assintomáticos e negativos para outras ISTs. Trinta e cinco controles foram selecionados randomicamente. Encontramos uma maior frequência de linfócitos T CD8+ HLA-DR+CD38+ (1,5 vs. 0,9% p < 0,005) no grupo com infecção assintomática. Os linfócitos T CD8+ de memória também apresentaram uma maior expressão dos marcadores de ativação. Os marcadores de exaustão e senescência foram significantemente mais expressos no grupo com a infecção. Não foi observado aumento ou diferença nos níveis de CD14 solúvel no plasma. Nossos achados demonstram que as infecções anorretais assintomáticas por CT e NG induzem a ativação sistêmica de linfócitos T CD8+. Considerando a alta prevalência dessas infecções e o risco associado de aquisição da infecção pelo HIV-1, o rastreamento periódico e o tratamento sistemático devem sem explorados em conjunto com as estratégias de prevenção ao HIV / Oral antiretroviral pre-exposure prophylaxis (PrEP) has been established as a pivotal strategy in the prevention against HIV epidemic. However, the incidence of HIV-1 infections has been rising among the youth, as well as other sexually transmitted infections (STIs), acting as an important risk factor for HIV-1 acquisition. Infection by Chlamydia trachomatis (CT) and Neisseria gonorrhoeae (NG) are among the most diagnosed. Although the presence of mucosal lesions is a known risk factor for HIV-1 acquisition, the potential increase in risk associated with asymptomatic STIs is not completely understood. Recent data defined higher T cell activation as a single risk factor for sexually acquired HIV-1 infection. We examined the effect of asymptomatic CT and/or NG anorectal infection on immune activation. Peripheral blood mononuclear cells from participants of PrEP Brasil, a study of daily oral PrEP among healthy men who have sex with men, were analyzed for T cell activation by flow cytometry. Thirty-four participants with positive anorectal swab for CT and/or NG were selected, while negative for other STIs and without any reported symptoms. Thirty-five controls were randomly selected. We found a higher frequency of CD8+ HLA-DR+CD38+ T cells (1.5 vs. 0.9% p < 0.005) in the group with CT and/or NG infection and a greater median proportions of activation markers expression in CD8+ T cells with memory phenotype. Exhaustion and senescence markers were also significant higher in the infected group. No difference was observed in the soluble CD14 levels. Our findings suggest that asymptomatic CT and NG anorectal infection lead to a systemic activation of the T cell compartment. Considering the high prevalence of asymptomatic infection and the risk of HIV-1 acquisition associated, regular screening and treatment should be explored as an adjuvant tool for HIV prevention

Ativação celular

Ativação linfocitária

Cellular activation

Chamydia trachomatis

Chlamydia trachomatis

HIV

HIV

Homossexualidade masculina

Immunity cellular

Imunidade celular

Linfócitos T

Neisseria gonorrhoeae

Neisseria gonorrhoeae

Pre-exposure prophylaxis

Profilaxia préexposição

T-lymphocyte

Avaliação da ativação de linfócitos T em indivíduos com infecção anorretal assintomática por Chlamydia trachomatis e/ou Neisseria gonorrhoeae em uma população de homens que fazem sexo com homens / Evaluation of T cell activation in individuals with asymptomatic anorectal Chlamydia trachomatis and/or Neisseria gonorrhoeae in a cohort of men who have sex with men

Vinicius Adriano Vieira

17 November 2017

A profilaxia pré-exposição (PrEP) ao HIV se consolidou como uma importante estratégia de combate ao avanço da epidemia. Ainda assim, a incidência de casos da infecção vem aumentando na população jovem, assim como a de outras infecções sexualmente transmissíveis (ISTs), que atuam como importante fator de risco para transmissão do HIV-1. Entre as infecções mais frequentemente diagnosticadas estão Chlamydia trachomatis (CT) e Neisseria gonorrhoeae (NG). A presença de lesões na mucosa genital e anal são fatores de risco estabelecidos para a transmissão do HIV-1, porém o impacto das infecções assintomáticas ainda é pouco conhecido. Dados recentes mostram que a ativação sistêmica de linfócitos T é um fator de risco para a aquisição da infecção pelo HIV-1. Nesse estudo, estudamos a ativação de linfócitos T na presença de infecção anorretal assintomática por CT e/ou NG. Células mononucleares do sangue periférico de voluntários do PrEP Brasil, um estudo clínico demonstrativo de PrEP ao HIV em homens que fazem sexo com homens, foram descongeladas para análise da ativação de linfócitos T. Trinta e quatro participantes com swab anorretal positivo para CT e/ou NG foram selecionados, enquanto assintomáticos e negativos para outras ISTs. Trinta e cinco controles foram selecionados randomicamente. Encontramos uma maior frequência de linfócitos T CD8+ HLA-DR+CD38+ (1,5 vs. 0,9% p < 0,005) no grupo com infecção assintomática. Os linfócitos T CD8+ de memória também apresentaram uma maior expressão dos marcadores de ativação. Os marcadores de exaustão e senescência foram significantemente mais expressos no grupo com a infecção. Não foi observado aumento ou diferença nos níveis de CD14 solúvel no plasma. Nossos achados demonstram que as infecções anorretais assintomáticas por CT e NG induzem a ativação sistêmica de linfócitos T CD8+. Considerando a alta prevalência dessas infecções e o risco associado de aquisição da infecção pelo HIV-1, o rastreamento periódico e o tratamento sistemático devem sem explorados em conjunto com as estratégias de prevenção ao HIV / Oral antiretroviral pre-exposure prophylaxis (PrEP) has been established as a pivotal strategy in the prevention against HIV epidemic. However, the incidence of HIV-1 infections has been rising among the youth, as well as other sexually transmitted infections (STIs), acting as an important risk factor for HIV-1 acquisition. Infection by Chlamydia trachomatis (CT) and Neisseria gonorrhoeae (NG) are among the most diagnosed. Although the presence of mucosal lesions is a known risk factor for HIV-1 acquisition, the potential increase in risk associated with asymptomatic STIs is not completely understood. Recent data defined higher T cell activation as a single risk factor for sexually acquired HIV-1 infection. We examined the effect of asymptomatic CT and/or NG anorectal infection on immune activation. Peripheral blood mononuclear cells from participants of PrEP Brasil, a study of daily oral PrEP among healthy men who have sex with men, were analyzed for T cell activation by flow cytometry. Thirty-four participants with positive anorectal swab for CT and/or NG were selected, while negative for other STIs and without any reported symptoms. Thirty-five controls were randomly selected. We found a higher frequency of CD8+ HLA-DR+CD38+ T cells (1.5 vs. 0.9% p < 0.005) in the group with CT and/or NG infection and a greater median proportions of activation markers expression in CD8+ T cells with memory phenotype. Exhaustion and senescence markers were also significant higher in the infected group. No difference was observed in the soluble CD14 levels. Our findings suggest that asymptomatic CT and NG anorectal infection lead to a systemic activation of the T cell compartment. Considering the high prevalence of asymptomatic infection and the risk of HIV-1 acquisition associated, regular screening and treatment should be explored as an adjuvant tool for HIV prevention

Ativação celular

Ativação linfocitária

Chamydia trachomatis

HIV

Homossexualidade masculina

Imunidade celular

Linfócitos T

Neisseria gonorrhoeae

Profilaxia préexposição

Cellular activation

Chlamydia trachomatis

HIV

Immunity cellular

Neisseria gonorrhoeae

Pre-exposure prophylaxis

T-lymphocyte

Structural And Functional Studies Of Neisserial Lactoferrin Binding Proteins

Ravi Yadav (11850101)

17 December 2021

<p>Two species of <i>Neisseria</i>, <i>N. meningitidis</i> and <i>N. gonorrhoeae</i>, are obligate human pathogens that cause meningitis and gonorrhea, respectively. Although generally asymptomatic, <i>N. meningitidis</i> can cause invasive meningococcal disease with high mortality rate. Due to emerging antibiotic resistance strains of <i>N. gonorrhoeae</i>, the Centers for Disease Control and Prevention (CDC) have designated it as an urgent threat to public health. Therefore, immediate interventions are required for fight against these Neisserial pathogens. Iron is an essential nutrient for all bacteria, including <i>Neisseria</i>. However, free iron is scarce in human, therefore, <i>Neisseria</i> have evolved to acquire iron from host proteins. These iron acquisition systems are immunogenic and important for infection and are promising therapeutic targets.</p> <p> In the host, lactoferrin sequesters free iron and limits iron availability to pathogens. However, <i>Neisseria</i> have evolved machinery to hijack iron directly from lactoferrin itself. Lactoferrin binding proteins, LbpA and LbpB, are outer membrane proteins that together orchestrate the acquisition of iron from lactoferrin. Additionally, LbpB serves an additional role in providing protection against host cationic antimicrobial peptides and innate immune response. Despite studies aimed at deciphering the roles of LbpA and LbpB, the molecular mechanisms underpinning iron acquisition and immune protection remain unknown. Here, we investigated the role of the lactoferrin binding proteins in iron acquisition and protection against cationic antimicrobial peptides. We obtained three-dimensional structures of <i>Neisseria</i> LbpA and LbpB in complex with lactoferrin using cryo-electron microscopy and X-ray crystallography. These structures show that both LbpA and LbpB bind to C-lobe of lactoferrin, albeit at distinct sites. Structural analyses show that while lactoferrin maintains its iron-bound closed conformation in the LbpB-lactoferrin complex, it undergoes a large conformational change from an iron-bound closed to an iron-free open conformation upon binding to LbpA. This observation suggest that LbpA alone can trigger the extraction of iron from lactoferrin. Our studies also provide an explanation for LbpB’s preference towards holo-lactoferrin over apo-lactoferrin and LbpA’s inability to distinguish between holo- and apo-lactoferrin. Furthermore, using mutagenesis and binding studies, we show that anionic loops in the C-lobe of LbpB contribute to binding the cationic antimicrobial peptide lactoferricin. Solution scattering studies of the LbpB-lactoferricin complex showed that LbpB undergoes a small conformational change upon peptide binding.</p> Together, our studies provide structural insights into the role of the lactoferrin binding proteins in iron acquisition and evasion of the host immune defenses. Moreover, this work lays the foundation for structure-based design of therapeutics against <i>Neisseria</i> targeting the lactoferrin binding proteins.

Biophysics

Infectious Diseases

Receptors and Membrane Biology

Host-Parasite Interactions

Neisseria meningitidis

Neisseria gonorrhoeae

Iron transport systems

Lactoferrin

Lactoferrin-binding proteins

Lipoprotein

Membrane protein

Host-pathogen interactions

X-ray crystallography

Cryo-Electron Microscopy

Epidémie clonale d'infections invasives à méningocoque de groupe B en Normandie : caractérisation d'un facteur de virulence - HmbR, système d'acquisition du fer via l'hémoglobine - et analyse de la protection conférée par un vaccin à base de vésicules de membrane externe / Clonal epidemic of group B meningococcal disease in Normandy : characterisation of a virulence factor – HmbR, the hemoglobin receptor allowing iron acquisition – and analysis of the protection conferred by an outer membrane vesicle vaccine

Sevestre, Julien

22 June 2018

Ce travail de thèse comporte deux volets ayant pour trait commun l’analyse a posteriori d’une épidémie d’infection invasive à méningocoque (IIM) survenue en Normandie entre 2003 et 2012 et liée à l’expansion d’un clone hypervirulent particulier (B:14:P1.7,16/ST-32 ). Le premier travail (publié dans Virulence : Sevestre et al 2018 ;9 :923-929) s’est focalisé sur les déterminants de la virulence de « B14 » en comparant 6 isolats identifiés les uns d’IIM, les autres de portage pharyngé sain (ces derniers exprimant ou non la capsule). Apparemment identiques selon le typage classique (immunotypage et génotypage par MLST), ces 3 groupes bactériens se sont révélés distincts après analyse génomique et comparaison gène par gène (plus de 600 gènes au profil génétique variable entre les groupes) conduisant à identifier le rôle majeur de l’acquisition du fer dans la virulence et en particulier celui du système HmbR, un récepteur de l’hémoglobine. Dans un modèle murin (souris transgéniques rendues sensibles à l’infection humaine) les 3 groupes de souches sont aussi apparus distincts, avec une hiérarchie des marqueurs d’infectiosité (titres bactériens, taux de cytokines). La restauration du système HmbR (souches de portage capsulées « Off » dérivées en « On ») a restauré le pouvoir invasif in vitro et chez l’animal. Si le fer était déjà connu comme facteur de virulence pour différentes espèces bactériennes, l’originalité ici est d’avoir identifié le rôle de la variation de phase du gène hmbR au sein d’un même clone épidémique, permettant l’adaptation au portage, condition sine qua non de la transmission d’individu en individu. Le second travail (publié dans Vaccine : Sevestre et al 2017 ;35 :4029-4033) s’est intéressé à la durabilité et à l’ampleur de la protection vaccinale du MenBvac®, vaccin à base de vésicules de membranes externes (Outer Membrane Vesicles, OMV) utilisé jadis pour contrôler l’épidémie. Ceci a pu être réalisé grâce à deux cohortes d’enfants vaccinés par un schéma à 4 doses et prélevés pour les uns 1 an après la dernière dose et pour les autres 4 an après. L’immunogénicité (étude de l’activité bactéricide du sérum vis-à-vis du clone ciblé) s’est avérée de durabilité moyenne avec 48% des enfants protégés à 1 an et 31% à 4 ans, un résultat en phase avec les données de la littérature sur les vaccins OMV. Un effet bactéricide fut observé très au-delà de « B14 », du fait d’une immunité croisée aux souches avec une homologie au moins partielle de la porine PorA (principal déterminant antigénique des vaccins OMV) soit pour le MenBvac® 15% des clones virulents B actuellement circulants en France, un résultat davantage original car ayant jusqu’alors que peu investigué. / This thesis work includes two studies which both contribute to analyze a posteriori an outbreak of invasive meningococcal diseases (IMD) that had occurred in Normandy from 2003 to 2012 due to the expansion of a single hypervirulent clone (B:14:P1.7,16/ST-32 ). The first work (published in Virulence: Sevestre et al 2018 ;9 :923-929) focused on the virulence determinants of “B14” by comparing 6 isolates, either from IMD or from asymptomatic carriage (these latter expressing or not the capsule). Apparently identical on the basis of classical typing methods (immunotyping and MLST genotyping), these 3 groups of isolates were markedly different by whole genome analysis and on gene by gene comparison (more than 600 genes presenting a variable genetic profile). This analysis leaded to identify the crucial implication of iron acquisition in virulence and in particular the place of the HmbR system, an hemoglobin receptor. In a murine model (transgenic mice made susceptible to infection), these 3 groups also appeared separated, with a distinct infectivity hierarchy (bacterial counts, levels of cytokines). The restoration of the HmbR system in the capsulated carriage isolates (switch from Off phase to On phase) also restored their invasiveness in vitro and in vivo. Even if iron is already known to be a determining factor in the virulence of many bacterial species, our results clearly indicate the importance of the hmbR phase variation among clonal epidemic isolates, allowing adaptation to carriage, sine qua non condition for people to people transmission. The second work (published in Vaccine: Sevestre et al 2017 ;35 :4029-4033) concerned the durability and the cross-protection of the MenBvac®, an OMV vaccine (Outer Membrane Vesicles), used in the past to control the outbreak. This work has been done thanks to 2 cohorts of children vaccinated with 4 doses and sampled either 1 year or 4 years after the last dose. The efficacy (serum bactericidal activity against the epidemic strain) was short lasting, with 48% of children protected after 1 year and 31% after 4 years, a result in accordance with OMV literature. A bactericidal effect was observed far beyond “B14”, by cross-immunity with strains harboring homologies, even partials of the porin PorA (main antigenic determinant in OMV vaccine), indicating a coverage for 15% of virulent isolates B circulating in France, an original result as until then not so far investigated.

Neisseria meningitidis

Virulence

Séquençage génomique

Modèle in vivo

Acquisition du fer

Vaccin OMV

Efficacité vaccinale

Protection vaccinale croisée

Neisseria meningitidis

Virulence

Whole genome sequencing

In vivo model

Iron acquisition

OMV vaccine

Vaccine efficiency

Vaccine cross protection

616.81

615.37

Epidemiologic Approaches to Understanding Gonorrhea Transmission Dynamics and the Development of Antimicrobial Resistance

2016 February 1900

Globally, the incidence of infection caused by Neisseria gonorrhoeae is the second highest among the bacterial sexually transmitted infections. In Canada, declining rates during the 1990s suggested progress toward curbing gonorrhea; however, those have been increasing since 1999, with rates in Saskatchewan among the highest in the country. Infection can cause serious complications in men and women, and reported resistance to third-generation cephalosporins could lead to potentially untreatable infections. Increased understanding of gonorrhea transmission dynamics, sexual networks, and predictors of antimicrobial resistance development is needed to inform the development of improved approaches to prevention and treatment. The research presented herein draws upon data from Shanghai, China, and Saskatchewan, Canada, to compare and contrast varying epidemiologic approaches to enhancing understanding of gonorrhea in the two settings. Using traditional statistical approaches, multi-level statistical modeling, social network analysis, and dynamic simulation modeling, questions related to sexual behavior, partner presentation, and antimicrobial resistance development are explored. Each technique is evaluated for its potential contribution to overall understanding of the issues related to the ongoing gonorrhea epidemic, globally, and in Saskatchewan. The relative strengths and limitations of the application of the analytical approaches in the different settings are described. Socio-demographic characteristics provided useful indicators of antimicrobial resistant infection among patients with gonorrhea from Shanghai. Further, socio-demographic characteristics were also useful for predicting presentation of a partner for testing and treatment and the use of condoms during intercourse, among this study population. In Saskatchewan, socio-demographic characteristics were useful in predicting coinfection with gonorrhea and chlamydia at the time of diagnosis as well as repeat infection with gonorrhea. Social network analysis of the Saskatchewan dataset provided little additional understanding of the gonorrhea epidemic in the province. This result was largely related to how STI data are collected and stored in the province. The utility of dynamic simulation modeling to investigate the potential impact of antimicrobial resistance in Saskatchewan was also limited due to the same data constraints. However, the insight gained from the model building process and findings from the working model did offer a starting point for conversations around the best ways to postpone the development of antimicrobial resistance in N. gonorrhoeae in Saskatchewan, as well as contribute additional information about how the ways in which STI data are collected and stored in the province considerably restrict the applicability of otherwise powerful epidemiologic tools. With persistently high rates of disease transmission, and the threat of untreatable infections due to antimicrobial resistance, N. gonorrhoeae remains a substantial public health threat locally and globally. The research presented herein describes various approaches to understanding and controlling this disease, applied in contrasting settings. There are a wide variety of elements that should be considered when choosing the appropriate tool(s) to address gonorrhea in a given population; there is no “one size fits all” solution. The local epidemiology of disease, cultural and behavioural norms, the characteristics of the notifiable disease reporting and information systems, and the availability of suitable data all affect the relative strengths and weaknesses of the available analytic methods and disease control approaches.

Neisseria gonorrhoeae

gonorrhea

antimicrobial resistance

AMR

sexually transmitted infection

STI

system dynamics modeling

social network analysis

multi-level modeling

Multilocus sequence analysis of the pathogen Neisseria meningitidis

Wilson, Daniel John

January 2005

Neisseria meningitidis is the bacterium responsible for meningococcal meningitis and septicaemia in humans. Meningococcal disease is primarily a disease of young children, characterized by rapid deterioration from first symptoms to death, with an 11% fatality rate and a global distribution. Patterns of genetic diversity in meningococcal populations provide an account of their evolutionary history and structure, which can be inferred by population genetics modelling. Understanding these phenomena can inform control and prevention strategies, and provides interesting case studies in evolution. The aim of this thesis is to develop population genetics techniques for inferring the evolutionary history of meningococci. I begin by reviewing the field, and justifying the use of coalescent methods in modelling microparasite populations. Inference on carriage populations of meningococci under the standard neutral model and the neutral microepidemic model is performed using a modification to approximate Bayesian computation. AMOVA and Mantel tests are used to quantify the differentiation between carriage and disease populations, and the extent to which geography and host age structure carriage populations. The results are used to propose revised coalescent models for meningococcal evolution. The role of natural selection in shaping meningococcal diversity is investigated using a novel method that utilises an approximation to the coalescent and reversible-jump Markov chain Monte Carlo to detect sites under selection in the presence of recombination. Having performed a simulation study to assess the statistical properties of the method, I apply it to the porB antigen locus and seven housekeeping loci in N. meningitidis. There is strong evidence for selection imposed by the host immune system in the antigen locus, but not the housekeeping loci which are functionally constrained. Finally I discuss the future direction of population genetic approaches to understanding infectious disease.

616.82