Doctoral Thesis
Refine
Year of publication
- 2022 (4) (remove)
Document Type
- Doctoral Thesis (4) (remove)
Has Fulltext
- yes (4)
Is part of the Bibliography
- no (4)
Keywords
- Immunologie (4) (remove)
IL-21 gehört zur Gruppe der proinflammatorischen Zytokine und ermöglicht als lös-licher Botenstoff eine Interaktion zwischen verschiedenen Zellen innerhalb des Im-munsystems. Unlängst wurde die Rolle von IL-21 bei der Entstehung von Autoim-munerkrankungen beschrieben. Dabei kommt es zur Fehlregulation des Immunsys-tems, so dass infolge körpereigene Strukturen bekämpft werden. Während einer Schwangerschaft kommt es zu umfassenden Anpassungsvorgängen innerhalb des Immunsystems, wobei mögliche Fehlregulationen sowohl für die Mutter als auch für den Fötus verschiedene Komplikationen mit sich bringen kann. Inwieweit IL-21 in-nerhalb dieser Vorgänge und letzten Endes für den erfolgreichen Ausgang einer Schwangerschaft von Bedeutung ist, ist bislang unbekannt und ist Gegenstand der in dieser Arbeit dargestellten Untersuchungsergebnisse.
Die Ergebnisse lassen erkennen, dass B-Zellen der verschiedenen Mausgruppen (NPM=nicht schwanger, GPOM=normale Schwangerschaften und PPOM=komplizierte Schwangerschaften) unterschiedlich sensibel auf IL-21 reagie-ren. Diese Beobachtung fußt auf unterschiedlicher Verteilung des IL-21R. Demnach exprimieren B-Zellen der GPOM-Gruppe niedrigere Level an IL-21R, deren Beein-flussung durch das Zytokin IL-21 als gering zu beurteilen ist und deshalb nachfol-gend relativ seltener in die Apoptose eintreten. Die größten Differenzen bezüglich der Rezeptorexpression konnten innerhalb der MZ B-Zellen beobachtet werden. MZ B-Zellen wird bereits in früheren Arbeiten eine wichtige Rolle für eine erfolgreiche Schwangerschaft zugeschrieben.
Mittels immunologischer Methoden wurde weiterhin die Produktion von IL-10 unter-sucht, die bei GPOM am höchsten war. Dieses Ergebnis deutet darauf hin, dass in dieser Situation B-Zellen sich durch eine Herunterregulierung ihrer IL-21R dem Ein-fluss des Zytokins entziehen und nachfolgend für eine vermehrte Produktion von IL-10 zur Verfügung stehen. Auch IL-10 konnte bereits als ein für eine erfolgreiche Schwangerschaft förderlicher Faktor identifiziert werden.
Als mögliche Quelle von IL-21 und aufgrund der räumlichen Nähe zu den MZ B-Zellen wurden Tfh-Zellen mittels Durchflusszytometer analysiert. Hierbei wurde festgestellt, dass diese Zellen gehäuft in der PPOM-Gruppe vorkommen, wodurch auch diese T-Zell Subpopulation für den Ausgang einer Schwangerschaft mit ver-antwortlich sein kann. Alle Ergebnisse dieser Arbeit sprechen in der Zusammen-schau dafür, dass es zu einer Reduktion des IL-21/IL-21R-Systems kommen muss, um einen erfolgreichen Ausgang der Schwangerschaft zu gewährleisten. Aus die-sem Grund sollte auf der einen Seite das IL-21/IL-21R-System verstärkt in den Fo-kus künftiger Forschung rücken und auf der anderen Seite ist gleichzeitig eine Er-weiterung des für eine Schwangerschaft bestehenden Th1/Th2/Th17/Treg Para-digmas um Tfh-Zellen angezeigt.
The study of host-pathogen interactions is central to a better understanding of the human microbiome, infections and the inner workings of immune cells. One focal point of this research is how the human immune system recognises both harmful and harmless antigens, integrates the resulting signals and forms a response, and how, conversely, microbes can manipulate this reaction.
In this thesis, Pseudomonas aeruginosa (P. aeruginosa), a critical pathogen in chronic and nosocomial infections, was in the focus. The aim was to search for bacterial proteins that favour a type 2 immune response, as it is orchestrated by CD4+ type 2 T helper cells (Th2 cells). The humoral arm of a type 2 response is dominated by IgG4 and IgE. Such immune responses are typically directed against multicellular pathogens like helminths and other parasites. However, type 2 immune responses are suboptimal for the defence against extracellular bacteria like P. aeruginosa. Previous research suggests that some bacterial proteins may promote a switch to such an insufficient immune response as a mechanism of immune evasion.
To optimise the sensitivity of the search for type 2 response inducing proteins of P. aeruginosa, cystic fibrosis (CF) patients were studied, as many are exposed to the pathogen in their airways over prolonged time periods. As such, the humoral immune response of 9 CF patients to their own P. aeruginosa strain was examined. For this, the secretomes of 9 clinical P. aeruginosa isolates from CF patients and the P. aeruginosa reference strain PAO-1 were studied by 2D-immunoblotting for their ability to be bound by IgG4 and IgG1 from respective patient sera. IgG4 served as a proxy for IgE, as assays analysing IgE binding suffer from low sensitivity because of low serum concentrations of IgE. Antibody reactive P. aeruginosa proteins were then identified by liquid chromatography tandem mass spectrometry and the results were compared with proteomics data from literature.
In total, 308 distinct protein spots were analysed. These belonged to 17 bacterial proteins, which comprise the entire known P. aeruginosa secretome. Of these spots, 232 were bound by IgG4, and 24 by IgG1 only. Notably proteases like serralysin and P. aeruginosa elastase presented with an IgG4 bias. This is concordant with previous research linking proteases to a type 2 immune response. Moreover, structural proteins like
agellins were also immunodominant. Flagellins are known as common targets of immune detection in bacteria. These proteins also demonstrated a clear IgG4 bias.
Thus, the search for secreted P. aeruginosa proteins that elicit an IgG4-dominated antibody response was successful. It remains to be shown whether these bacterial proteins are also recognized by IgE and Th2 cells, meaning whether they are truly driving a type 2 immune response in CF patients. It is also an open question whether the observed IgG4 bias in the antibody response to the exoproteome of P. aeruginosa is specific to CF or a general feature of the human immune response to the pathogen.
The order of bats (Chiroptera) account for ~20% of all mammalian species and attracted immense global attention due to their identification as important viral reservoir. Bats can harbour a plethora of high-impact zoonotic viruses, such as filoviruses, lyssaviruses, and coronaviruses without displaying clinical signs of disease themselves. Given this striking diversity of the bat virome, their ability of self-powered flight, and global distribution, understanding chiropteran immunity is essential to facilitate assessment of future spillover events and risks.
However, scarcity of bat-specific or cross-reactive tools and standardized model systems impede progress until today. Furthermore, the richness of species led to generation of isolated datasets, hampering data interpretation and identification of general immune mechanisms, applicable for various chiropteran suborders/families. The key to unlocking bat immunity are coordinated research approaches that comprehensively define immunity in several species. In this work, an in-depth study of innate and adaptive immune mechanisms in the fructivorous Egyptian Rousette bat (Rousettus aegyptiacus, ERB) is presented.
Detailed stability analyses identified EEF1A1 as superior reference gene to ACTB, and GAPDH, which rendered unstable upon temperature increase or presence of type-I-IFN. Since the body core temperatures of pteropid bats reach from 35°C to 41°C and it has been postulated that bats display constitutive expression of IFNs, a suitable reference gene has to be stable under these physiologically relevant conditions. To study cellular innate immunity in detail, cell lines from the nasal epithelium, the olfactory compartment and the cerebrum were generated. To include immune responses of epithelia cells, essential for immunity at sites of primary viral infection, primary epithelia cells from the nasal epithelium, trachea, lung and small intestine were generated. Cellular identities were determined by comprehensive analyses of transcripts and proteins expressed by each cell line. The capacity of each cell line to produce type-I- and III-IFNs was assessed at 37°C and 40°C upon stimulation with viral mimetics. This revealed cell type-dependent differences is the capability to express IFNs upon stimulation. Furthermore, the constitutive expression of type-I- and III-IFNs was significantly elevated in higher temperatures and quantified at mRNA copy levels. To characterize ERB innate immunity upon infection with high-impact zoonotic viruses, cells from the nasal epithelium, the olfactory system, and the brain were infected with several lyssaviruses. This revealed striking differences in susceptibility: cells from the nasal epithelium rendered least whereas cells from the olfactory epithelium rendered most susceptible to viral infection and replication. Additionally, due to a lack of IFN expression in infected cells, it could be shown that LBV possibly possesses advanced strategies to ensure successful replication in ERB cells. Since the current SARS-CoV-2 pandemic put bats even further in the focus of zoonotic research, primary epithelial cells and animals were infected with this virus to monitor ERB-specific immune transcripts in cells and tissues. These studies revealed a notably early IFNG expression in the respiratory tract of infected individuals.
To understand immunomaturation in bats, the immune cell landscape in periphery and various tissue in adult and juvenile ERB was analyzed by flow cytometry and scRNA-seq, revealing intriguing, age-dependent variations in the abundance of granulocytes and lymphocytes. Flow cytometry revealed a significantly higher number of granulocytes in adults, as well as higher numbers of B cells in juveniles. scRNA-seq allowed detailed identification of different leukocyte subsets, uncovering the presence of highly-abundant NKT-like cells and a unique PLAC8 expressing B cell population. A functional characterization of phagocytic cells and lymphocytes derived from adult and juvenile ERB revealed no significant differences in cellular functionality.
In conclusion, the presented work demonstrated suitability of all established ERB cell lines to study bat immunity in vitro, which led to striking findings regarding IFN expression at steady state, or upon stimulation or viral infection. In addition, established qRT-PCR protocols allowed definition of constitutive and temperature-dependent elevation of IFN expression magnitudes, as well as insights into expression of immune-related transcripts in SARS-CoV-2 infected ERB. Finally, based on optimized scRNA-seq technologies and flow cytometry, frequencies and absolute cell counts could be determined in ERB of different ages, revealing e.g. age-dependent variations in leukocyte profile compositions.
The success of pregnancy depends on precisely adjusted, local immune mechanisms. In early pregnancy, fetal trophoblast cells implant into the endometrium to build and anchor the placenta. Simultaneously, they mediate fetal tolerance and defense against infections. To cover these versatile requirements, local immune factors must be in balance. A too tolerogenic milieu can lead to an inadequate placentation; while a too inflammatory milieu can cause rejection of the semi-allogenic fetus. Bacterial infections can provoke these inflammatory pregnancy complications as well. Therefore, the pregnant uterus was long thought to be sterile. Descriptions of a placental microbiome opened a scientific discourse, which is unsolved due to contrary studies. The colonization of the non-pregnant endometrium is, however, confirmed. It is supposed to affect both, uterine pathologies and fertility. Precise data are lacking. Aim of this work was to assess if and under which circumstances a bacterial colonization would be tolerable.
One of the described species in placental and endometrial samples is Fusobacterium nucleatum. It is an opportunistic bacterium, which is known from the human oral cavity and associated with the development of colon carcinomas. F. nucleatum supports tumorigenesis by the induction of epithelial proliferation, survival, migration and invasion as well as angiogenesis and tumor tolerance. Since similar processes are required for implantation and placentation, F. nucleatum might support these as well. In this work, the effects of F. nucleatum on leukocyte-trophoblast-interactions, especially of macrophages and innate lymphoid cells type 3 (ILC3), were assessed.
The monocytic cells (THP-1) were differentiated into inflammatory M1 (IFN-γ) or tissue-repairing and tolerogenic M2a (IL-4) and M2c (TGF-β) macrophages. Inactivated F. nucleatum, LPS or E. coli was added. Only small concentrations of inactivated bacteria were used (bacteria:leukocyte ratio of 0.1 or 1), since it was not the aim to analyze infections. Conditioned medium of treated leukocytes was added to trophoblastic cells (HTR-8/SVneo). Migratory, invasive and tube formation behavior of trophoblastic cells was quantified.
Treated M1 macrophages impaired trophoblast function, whereas M2a macrophages induced trophoblast invasion. M2c macrophages supported trophoblast migration and tube formation if treated with the smaller, but not with the higher concentration of F. nucleatum. This treatment induced the accumulation of HIF-1α and the secretion of VEGF-A in M2c macrophages as well. Moreover, the higher concentration of F. nucleatum caused rather inflammatory responses (NF-κB activation and cytokine expression). The activation of the HIF-1α-VEGF-A axis under the influence of TGF-β might serve as a mild immune stimulation by low abundant commensal bacteria supporting placentation.
In contrast to macrophages, the function of ILC3s during pregnancy is still unknown. In general, ILC3s are located in mucosal tissue, such as the gut. They participate in tolerance mechanisms and form the local micromilieu by the secretion of cytokines and the presentation of antigens. In order to characterize local, uterine ILC3s, murine ILC3s were compared to peripheral, splenic ILC3s. Uterine ILC3s were more activated and produced higher levels of IL-17 compared to splenic ILC3s. However, uterine ILC3s barely expressed MHCII on their surface. A reduced antigen presentation potential was confirmed in human ILC3s differentiated from cord blood stem cells by the addition of TGF-β or hCG. The treatment with bacteria increased MHCII expression, but not to the initial level. The higher bacterial concentration induced IL-8 secretion and led to an increased trophoblast invasion. ILC3s were less sensitive to bacterial stimulation than macrophages.
Recent studies on the uterine or placental presence of bacteria during pregnancy are discrepant. The results of this project indicate that bacteria or bacterial residues might serve as a mild stimulus under certain circumstances to support implantation without negative effects. The current discussion must therefore not only be expanded by additional studies, but especially include differentiated local conditions. In this context, the sheer presence of bacteria or bacterial components must not be equated with an infection representing a known hazard.