TY - THES A1 - Yang, Tao T1 - Functional insights into the role of a bacterial virulence factor and a host factor in Neisseria gonorrhoeae infection T1 - Funktionelle Einblicke in die Rolle eines bakteriellen Virulenzfaktors und eines Wirtsfaktors bei der Infektion mit Neisseria gonorrhoeae N2 - Neisseria gonorrhoeae (GC) is a human specific pathogenic bacterium. Currently, N. gonorrhoeae developed resistance to virtually all the available antibiotics used for treatment. N. gonorrhoeae starts infection by colonizing the cell surface, followed by invasion of the host cell, intracellular persistence, transcytosis and exit into the subepithelial space. Subepithelial bacteria can reach the bloodstream and disseminate to other tissues causing systemic infections, which leads to serious conditions such as arthritis and pneumonia. A number of studies have well established the host-pathogen interactions during the initial adherence and invasion steps. However, the mechanism of intracellular survival and traversal is poorly understood so far. Hence, identification of novel bacterial virulence factors and host factors involved in the host-pathogen interaction is a crucial step in understanding disease development and uncovering novel therapeutic approaches. Besides, most of the previous studies about N. gonorrhoeae were performed in the conventional cell culture. Although they have provided insights into host-pathogen interactions, much information about the native infection microenvironment, such as cell polarization and barrier function, is still missing. This work focused on determining the function of novel bacterial virulence factor NGFG_01605 and host factor (FLCN) in gonococcal infection. NGFG_01605 was identified by Tn5 transposon library screening. It is a putative U32 protease. Unlike other proteins in this family, it is not secreted and has no ex vivo protease activity. NGFG_01605 knockout decreases gonococcal survival in the epithelial cell. 3D models based on T84 cell was developed for the bacterial transmigration assay. NGFG_01605 knockout does not affect gonococcal transmigration. The novel host factor FLCN was identified by shRNA library screening in search for factors that affected gonococcal adherence and/or internalization. We discovered that FLCN did not affect N. gonorrhoeae adherence and invasion but was essential for bacterial survival. Since programmed cell death is a host defence mechanism against intracellular pathogens, we further explored apoptosis and autophagy upon gonococcal infection and determined that FLCN did not affect apoptosis but inhibited autophagy. Moreover, we found that FLCN inhibited the expression of E-cadherin. Knockdown of E- cadherin decreased the autophagy flux and supported N. gonorrhoeae survival. Both non-polarized and polarized cells are present in the cervix, and additionally, E-cadherin represents different polarization properties on these different cells. Therefore, we established 3-D models to better understand the functions of FLCN. We discovered that FLCN was critical for N. gonorrhoeae survival in the 3-D environment as well, but not through inhibiting autophagy. Furthermore, FLCN inhibits the E-cadherin expression and disturbs its polarization in the 3-D models. Since N. gonorrhoeae can cross the epithelial cell barriers through both cell-cell junctions and transcellular migration, we further explored the roles FLCN and E-cadherin played in transmigration. FLCN delayed N. gonorrhoeae transmigration, whereas the knockdown of E-cadherin increased N. gonorrhoeae transmigration. In summary, we revealed roles of the NGFG_01605 and FLCN-E-cadherin axis play in N. gonorrhoeae infection, particularly in relation to intracellular survival and transmigration. This is also the first study that connects FLCN and human-specific pathogen infection. N2 - Neisseria gonorrhoeae (GC) ist ein humanpathogenes Bakterium. Gegen jedes kommerziell erhältliche Antibiotikum konnten bereits Resistenzen entdeckt werden. Die Infektion von Neisserien startet mit der Kolonisierung der Zelloberfläche, gefolgt von der Invasion in die Zelle, intrazellulärer Persistenz, Transzytose und Verlassen des subepithelen Raums. Subepithele Bakterien können den Blutfluss erreichen und sich somit auf andere Gewebe verbreiten und dadurch schwerwiegende Erkrankungen wie Arthritis und Lungenentzündungen verursachen. Zahlreiche Studien haben die Interaktion zwischen Wirtszelle und Pathogen zwischen Adhärenz und Invasion gut charakterisiert. Allerdings ist der Mechanismus des intrazellulären Überlebens und der Transmigration weitestgehend unbekannt. Um neue therapeutische Ansätze zu definieren ist es deshalb wichtig weitere bakterielle und zelluläre Faktoren verantwortlich für Interaktionen zwischen Wirt und Pathogen zu identifizieren. Außerdem wurden Studien über N. gonorrhoeae bisher in konventioneller Zellkultur durchgeführt. Auch wenn diese weitere Einsichten in Wirt-Pathogen Interaktionen geben, ist viel Information in der nativen Infektionsumgebung, wie Zellpolarisierung oder Barrierefunktionen, bisher nicht bekannt. Diese Arbeit fokussiert sich auf die Bestimmung eines neuen bakteriellen Virulenzfaktors, NGFG_01605, und Wirtsfaktoren (FLCN) in der Infektion von Gonokokken. NGFG_01605 wurde über Screening einer Transposonsammlung identifiziert und ist eine vermeintliche U32 Protease. Im Gegensatz zu anderen Proteinen dieser Familie, wird diese Protease nicht sekretiert und hat keine ex vivo Proteaseaktivität. Der Knockout von NGFG_01605 vermindert die Überlebensrate von Gonokokken in Epithelzellen. 3D-Modelle basierend auf T84-Zellen wurden für die Analyse der bakteriellen Transmigration entwickelt. Der Knockout von NGFG_01605 hat keinen Einfluss auf die Transmigration. Bei der Suche neuer Wirtsfaktoren, die für die Adhärenz und/oder Internalisierung wichtig sind, wurde FLCN durch ein Screening einer shRNA Sammlung entdeckt. Wir konnten zeigen, dass dieser Faktor zwar nicht für die Adhärenz oder Invasion von N. gonorrhoeae, aber für das Überleben der Bakterien in der Wirtszelle essenziell ist. Da der programmierte Zelltod ein typischer Abwehrmechanismus gegen intrazelluläre Bakterien ist, haben wir Apoptose und Autophagie weiter untersucht und konnten zeigen, dass FLCN zwar keinen Effekt auf Apoptose hat, aber Autophagie inhibiert. Außerdem konnten wir zeigen, dass FLCN die Expression von E-cadherin inhibiert. Auch der Knockdown von E-cadherin verringerte Autophagie und erhöhte das Überleben von N. gonorrhoeae. Im Gebärmutterhals sind sowohl polarisierte als auch nicht-polarisierte Zellen präsent. E-cadherin hat zudem unterschiedliche Einflüsse auf diese unterschiedlichen Zellen. Aus diesem Grund haben wir ein 3D-Modell entwickelt, um die Funktionen von FLCN besser zu verstehen. Wir entdeckten, dass FLCN zwar auch im 3D Modell wichtig für das Überleben ist, aber nicht durch Inhibition von Autophagie. Außerdem inhibiert FLCN die Expression und Verteilung von E-cadherin in 3D-Modellen. Da N. gonorrhoeae die Epithelzellbarierre durch sowohl Zell-Zell-Kontakte als auch transzelluläre Migration überwinden kann, untersuchten wir daraufhin die Rollen von FLCN und E-cadherin in der transzellulären Migration. Diese wird durch FLCN verspätet und durch Knockdown von E-cadherin erhöht. Zusammengefasst, haben wir die Rolle von NGFG_01605 und den Zusammenhang von FLCN und E-cadherin während der Infektion von N. gonorrhoeae untersucht. Unser Fokus war hierbei das intrazelluläre Überleben sowie zelluläre Transmigration. Diese Arbeit ist die Erste, die FLCN und humanpathogenspezifische Infektion miteinander in Verbindung bringt. KW - Folliculin KW - autophagy KW - polarized epithelium KW - protease KW - Gonococcal invasion KW - autophagocytose Y1 - 2021 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-208959 ER - TY - JOUR A1 - Yang, Tao A1 - Heydarian, Motaharehsadat A1 - Kozjak-Pavlovic, Vera A1 - Urban, Manuela A1 - Harbottle, Richard P. A1 - Rudel, Thomas T1 - Folliculin Controls the Intracellular Survival and Trans-Epithelial Passage of Neisseria gonorrhoeae JF - Frontiers in Cellular and Infection Microbiology N2 - Neisseria gonorrhoeae, a Gram-negative obligate human pathogenic bacterium, infects human epithelial cells and causes sexually transmitted diseases. Emerging multi-antibiotic resistant gonococci and increasing numbers of infections complicate the treatment of infected patients. Here, we used an shRNA library screen and next-generation sequencing to identify factors involved in epithelial cell infection. Folliculin (FLCN), a 64 kDa protein with a tumor repressor function was identified as a novel host factor important for N. gonorrhoeae survival after uptake. We further determined that FLCN did not affect N. gonorrhoeae adherence and invasion but was essential for its survival in the cells by modulating autophagy. In addition, FLCN was also required to maintain cell to cell contacts in the epithelial layer. In an infection model with polarized cells, FLCN inhibited the polarized localization of E-cadherin and the transcytosis of gonococci across polarized epithelial cells. In conclusion, we demonstrate here the connection between FLCN and bacterial infection and in particular the role of FLCN in the intracellular survival and transcytosis of gonococci across polarized epithelial cell layers. KW - gonococcal invasion KW - folliculin KW - autophagy KW - polarized epithelium KW - polarized cell culture Y1 - 2020 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-211372 SN - 2235-2988 VL - 10 IS - 422 ER - TY - JOUR A1 - Heydarian, Motaharehsadat A1 - Yang, Tao A1 - Schweinlin, Matthias A1 - Steinke, Maria A1 - Walles, Heike A1 - Rudel, Thomas A1 - Kozjak-Pavlovic, Vera T1 - Biomimetic human tissue model for long-term study of Neisseria gonorrhoeae infection JF - Frontiers in Microbiology N2 - Gonorrhea is the second most common sexually transmitted infection in the world and is caused by Gram-negative diplococcus Neisseria gonorrhoeae. Since N. gonorrhoeae is a human-specific pathogen, animal infection models are only of limited use. Therefore, a suitable in vitro cell culture model for studying the complete infection including adhesion, transmigration and transport to deeper tissue layers is required. In the present study, we generated three independent 3D tissue models based on porcine small intestinal submucosa (SIS) scaffold by co-culturing human dermal fibroblasts with human colorectal carcinoma, endometrial epithelial, and male uroepithelial cells. Functional analyses such as transepithelial electrical resistance (TEER) and FITC-dextran assay indicated the high barrier integrity of the created monolayer. The histological, immunohistochemical, and ultra-structural analyses showed that the 3D SIS scaffold-based models closely mimic the main characteristics of the site of gonococcal infection in human host including the epithelial monolayer, the underlying connective tissue, mucus production, tight junction, and microvilli formation. We infected the established 3D tissue models with different N. gonorrhoeae strains and derivatives presenting various phenotypes regarding adhesion and invasion. The results indicated that the disruption of tight junctions and increase in interleukin production in response to the infection is strain and cell type-dependent. In addition, the models supported bacterial survival and proved to be better suitable for studying infection over the course of several days in comparison to commonly used Transwell® models. This was primarily due to increased resilience of the SIS scaffold models to infection in terms of changes in permeability, cell destruction and bacterial transmigration. In summary, the SIS scaffold-based 3D tissue models of human mucosal tissues represent promising tools for investigating N. gonorrhoeae infections under close-to-natural conditions. KW - 3D tissue model KW - small intestinal submucosa scaffold KW - co-culture KW - infection KW - Neisseria gonorrhoeae Y1 - 2019 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-197912 SN - 1664-302X VL - 10 IS - 1740 ER -