@phdthesis{Boerner2020,
  author    = {B{\"o}rner, Kevin},
  title     = {How CLEC16A modifies the function of thymic epithelial cells},
  doi       = {10.25972/OPUS-20023},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-200230},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2020},
  abstract  = {Genomweite Assoziationsstudien haben CLEC16A als ein Suszeptibilit{\"a}tsgen f{\"u}r Typ 1 Diabetes und weitere Autoimmunerkrankungen identifiziert. Die genaue Funktion von CLEC16A bleibt jedoch ungekl{\"a}rt. Studien zeigten, dass sowohl das Drosophila Ortholog ema als auch das murine Clec16a eine Rolle in Autophagie spielen. Autophagie tr{\"a}gt zur Beladung der MHC-Klasse-II Molek{\"u}le und somit der Antigenpr{\"a}sentation bei. Dar{\"u}ber hinaus konnten Studien belegen, dass Autophagie zur Antigenpr{\"a}sentation w{\"a}hrend der T-Zell Selektion in Thymus-Epithelzellen ben{\"o}tigt wird. Dies schl{\"a}gt eine m{\"o}gliche Funktion von CLEC16A in Thymus-Epithelzellen w{\"a}hrend der T-Zell Selektion vor. Außerdem berichteten Arbeiten, dass CLEC16A als quantitativer Trait Locus f{\"u}r seine Nachbargene fungiert und dass Clec16a KD in Langerhans Inseln im Pankreas die Insulinsekretion und den Glukosestoffwechsel beeintr{\"a}chtigt. Dieser Arbeit vorausgehend hatten Schuster et al. eine Clec16a KD NOD Maus generiert, welche vor spontanem autoimmunem Diabetes gesch{\"u}tzt war. F{\"u}r diese Arbeit wurde vermutet, dass CLEC16A als Suszeptibilit{\"a}tsgen f{\"u}r Typ 1 Diabetes den Prozess der Autophagie in Thymus-Epithelzellen beeintr{\"a}chtigt und somit Antigenpr{\"a}sentation und das T-Zell Repertoire beeinflusst. Um auf der Vorarbeit von Schuster et al. aufzubauen und diese zu erg{\"a}nzen, zielte diese Arbeit darauf ab, den Einfluss von CLEC16A auf Thymus-Epithelzellen zu untersuchen. Hierf{\"u}r wurde ein CLEC16A KD in menschlichen Zellen mittels RNA Interferenz erzeugt und Autophagie durch Immunoblotting untersucht. Zus{\"a}tzlich wurde die Entz{\"u}ndung im Pankreasgewebe von Clec16a KD NOD M{\"a}usen mittels H.E. F{\"a}rbung beurteilt und bewertet. Thymus-Transplanationen wurden durchgef{\"u}hrt, um zu sehen, ob der Einfluss von Clec16a KD T-Zell intrinsisch ist. Außerdem wurden intraperitoneale Glukosetoleranztests durchgef{\"u}hrt, um den Blutzuckerstoffwechsel in Clec16a KD M{\"a}usen zu beurteilen. Schließlich wurden mittels qPCR Expressionslevel der benachbarten Gene, wie zum Beispiel Dexi und Socs1, erhoben, um die Eigenschaften von CLEC16A als quantitativer Trait Locus einzuordnen. Gemeinsam mit den Ergebnissen von Schuster et al. kann diese Arbeit aufzeigen, dass Clec16a KD die Auspr{\"a}gung von Insulitis im Pankreas reduziert und Clec16a KD NOD M{\"a}use vor spontanem Autoimmundiabetes sch{\"u}tzt. Dieser Schutz vor Erkrankung wird durch beeintr{\"a}chtigte Autophagie in Thymus-Epithelzellen hervorgerufen, welche die T-Zell Selektion beeinflusst und die Reaktivit{\"a}t von T-Zellen reduziert. Der Einfluss des Clec16a KD ist innerhalb des Thymus wirksam. Der Blutzuckerstoffwechsel in Clec16a KD NOD M{\"a}usen bleibt unver{\"a}ndert und kann deshalb als Ursache f{\"u}r den Schutz vor Type 1 Diabetes ausgeschlossen werden. Clec16a und Dexi zeigen {\"a}hnliche Expressionslevel auf, dennoch ben{\"o}tigt es weitere detaillierte Studien, um eine Beziehung zwischen den beiden Genen etablieren zu k{\"o}nnen. Letztlich konnte die Beeintr{\"a}chtigung von Autophagie in menschlichen CLEC16A KD Zellen nachgewiesen werden, was bedeutet, dass die Funktion von CLEC16A evolution{\"a}r konserviert ist und ein m{\"o}glicher Zusammenhang zwischen CLEC16A Polymorphismen und einem erh{\"o}hten Risiko f{\"u}r Typ 1 Diabetes im Menschen besteht.},
  subject      = {Thymus},
  language  = {en}
}
@phdthesis{Carl2019,
  author    = {Carl, Sophia Leonie},
  title     = {Untersuchungen zum Einfluss serotonerger Genvariationen auf olfaktorische Performanz},
  doi       = {10.25972/OPUS-18541},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-185418},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2019},
  abstract  = {Einige psychiatrische Erkrankungen gehen mit einer Ver{\"a}nderung der Riechfunktion einher. In aktuellen Tiermodellen wurde durch Stimulation der Raphe Kerne, die unter anderem zum Bulbus Olfaktorius projizieren, das serotonerge System als Einflussfaktor der Riechfunktion erkannt. Unsere Hypothese geht davon aus, dass das serotonerge System die Riechleistung beeinflussen k{\"o}nnte. Um diese Hypothese zu {\"u}berpr{\"u}fen, wurden drei Gene des serotonergen Systems und deren psychiatrisch relevante Genpolymorphismen ausgew{\"a}hlt und untersucht: TPH2 (Tryptophanhydroxylase 2, rs4570625), 5-HTTLPR (Serotonintransporter-L{\"a}ngenpolymorphismus) und 5-HT2C (Serotonintransporter, rs3813929). Insgesamt wurden 173 gesunde Kinder eingeschlossen und auf deren Riechleistung (Riechschwelle und Diskrimination) hin mittels des Sniffin'Sticks Tests untersucht. Tr{\"a}ger des T-Allels des TPH2-Polymorphismus sowie Tr{\"a}ger des s-Allels, des 5-HTTLPR wiesen eine signifikant bessere Diskrimination von Ger{\"u}chen auf. Der Effekt des 5-HTTLPR ließ sich auf die M{\"a}dchen in der Stichprobe zur{\"u}ckf{\"u}hren. Der Genpolymorphismus des 5-HT2C Rezeptors wirkte sich nicht signifikant auf die Riechleistung aus. In Bezug auf die Riechsensitivit{\"a}t zeigten sich keine signifikanten Modulationen durch die untersuchten Genvarianten. Gene des serotonergen Systems {\"u}ben bei gesunden Kindern einen modulierenden Einfluss auf die Riechfunktion aus, insbesondere auf die Riechdiskrimination. Von besonderer Bedeutung scheinen in diesem Zusammenhang der Serotonintransporter 5-HTTLPR und das Syntheseenzym TPH2 zu sein.},
  subject      = {Riechen},
  language  = {de}
}
@phdthesis{Roth2020,
  author    = {Roth, Carina},
  title     = {Endovaskul{\"a}re Revaskularisierungsmethoden des vaskul{\"a}ren Notfalls akute Extremit{\"a}tenisch{\"a}mie im Vergleich zu der chirurgischen Therapie},
  doi       = {10.25972/OPUS-21610},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-216103},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2020},
  abstract  = {Die akute Extremit{\"a}tenisch{\"a}mie ist mit einer hohen Amputations- und Mortalit{\"a}tsrate verbunden. Mit dem Ziel die Mortalit{\"a}t und Amputationsraten zu reduzieren, wurden seit den 90er Jahren endovaskul{\"a}re Therapiemethoden weiterentwickelt und verbessert. Jedoch gibt es aktuell keinen allgemeing{\"u}ltigen Therapiealgorithmus unter Einbezug der modernen endovaskul{\"a}ren Therapiemethoden. In dieser Arbeit wurde ein Therapiemanagement mit Favorisierung der endovaskul{\"a}ren Therapiemethoden angewandt. Mittels retrospektiver Datenanalyse wurden die Ergebnisse der endovaskul{\"a}ren Therapie hinsichtlich Mortalit{\"a}t, Amputationsrate, Reinterventionsrate nach 30 Tagen und einem Jahr und technischer und klinischer Erfolg mit der traditionellen chirurgischen Therapie verglichen. W{\"a}hrend dem Studienzeitraum 2012-2014 wurden insgesamt 92 Patienten endovaskul{\"a}r (ET) und 128 Patienten operativ (OT) auf Grund akuter Extremit{\"a}tenisch{\"a}mie an der Uniklinik W{\"u}rzburg behandelt. Der technische und klinische Erfolg war in beiden Therapiegruppen mit an die 90\% hoch und ohne signifikanten Unterschied (technischer Erfolg ET 90,1\%, OT 94,7\%, p=0,211, klinischer Erfolg ET 90,1\%, OT 87,8\%, p=0,602). Die Mortalit{\"a}tsrate nach 30 Tagen und nach einem Jahr war in der ET Gruppe mit 6,3\%/24,1\% signifikant niedriger als in der OT Gruppe (30 Tage 24,1\%, p=0,001; 1 Jahr 39,8\% p=0,014). Die Reinterventionsrate nach 30 Tagen und nach einem Jahr war in der ET Gruppe mit 20,3\%/27,8\% ebenso h{\"o}her als in der OT Gruppe (30 Tage 9,1\%, p= 0,045; 1 Jahr 14,0\%, p=0,047). Hinsichtlich der Amputationsrate gab es nach 30 Tagen und nach einem Jahr keinen signifikanten Unterschied (30 Tage ET 5,1\%, OT 2,5\%, p= 0,453; 1 Jahr ET 5,1\%, OT 5,0\%, p=0,805). Mittels Cox Regression wurden weiterhin Pr{\"a}diktoren f{\"u}r die Mortalit{\"a}t und Reintervention innerhalb eines Jahres berechnet, wobei die Schwere der Isch{\"a}mie (Rutherfordstadium IIb und bilatarale Isch{\"a}mie) und das weibliche Geschlecht als Pr{\"a}diktor f{\"u}r Mortalit{\"a}t innerhalb eines Jahres bestimmt wurden. Pr{\"a}diktoren f{\"u}r Reintervention innerhalb eines Jahres waren die Notwendigkeit einer Fasziotomie und endovaskul{\"a}re Therapie als initiale Therapiemethode. Auf Grund eines Bias hinsichtlich der Verteilung der Patienten auf die jeweilige Therapiegruppe mit deutlich schweren Formen der akuten Extremit{\"a}tenisch{\"a}mie (Rutherford IIb und bilaterale Isch{\"a}mie) in der operativen Therapiegruppe, konnte in dieser Studie keine Reduktion der Mortalit{\"a}t durch die weniger invasive endovasku{\"a}re Therapie gezeigt werden. Jedoch f{\"a}llt eine deutliche Empfehlung endovaskul{\"a}rer Therapiemethoden mit guten Studienergebnissen im Literaturvergleich auf, eine Favorisierung der endovaskul{\"a}ren Therapie wie in dieser Studie ist somit weiterhin zu bef{\"u}rworten. Zur Festlegung eines Therapiealgorithmus ist die Durchf{\"u}hrung einer prospektiven randomisierten Studie unter Einbezug der modernen Therapiemethoden n{\"o}tig.},
  subject      = {Kritische Extremit{\"a}tenisch{\"a}mie},
  language  = {de}
}
@phdthesis{Morell2022,
  author    = {Morell, Sarah},
  title     = {Klinische Charakteristika und Mortalit{\"a}t von Nebennieren-Inzidentalomen mit Fokus auf Nicht-Aldosteron-produzierende adrenokortikale Adenome: eine retrospektive Studie mit dem Patientenkollektiv des Universit{\"a}tsklinikums W{\"u}rzburg von 1998 bis 2017},
  doi       = {10.25972/OPUS-29178},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-291784},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2022},
  abstract  = {Nebennieren-Inzidentalome werden durch den zunehmenden Einsatz von bildgebenden Methoden immer h{\"a}ufiger zuf{\"a}llig entdeckt. Hierbei liegen vorrangig klinisch unauff{\"a}llige Nicht-Aldosteron-produzierende adrenokortikale Adenome (NAPACA) vor, wobei Nicht-funktionelle Adenome (NFA) von Tumoren mit (m{\"o}glicher) autonomen Cortisol-Sekretion (MACS und ACS) zu differenzieren sind. Der Verlauf und die Prognose dieser Patienten werden teilweise noch kontrovers diskutiert. Die wesentlichen Fragestellungen dieser Arbeit lauteten, welche Dynamik Nebennieren-Inzidentalome (und hierbei insbesondere die NAPACA) hinsichtlich Hormonsekretion und Malignit{\"a}tspotential aufweisen und welchen Einfluss sie auf das Gesamt{\"u}berleben der Betroffenen aus{\"u}ben. In dieser Studie wurde hierf{\"u}r das Patientenkollektiv des Universit{\"a}tsklinikums W{\"u}rzburg zwischen 1998 und 2017 retrospektiv untersucht. Die Zuordnung zu Entit{\"a}ten und die Interpretation der Daten erfolgte dabei anhand der Empfehlungen der aktuellen Europ{\"a}ischen Leitlinie zum Management von Nebennieren-Inzidentalomen. F{\"u}r diese Arbeit wurden 357 Patienten mit einem Nebennieren-Inzidentalom identifiziert, von denen 263 (73,7 \%) der NAPACA-Gruppe zuzuordnen waren. Im Verlauf kam es bei 39 (10,9 \%) der Patienten zu relevanten Ver{\"a}nderungen der endokrinen Aktivit{\"a}t und bei 4 (1,1 \%) auch der Dignit{\"a}t, wodurch die Zuordnung zu einer anderen Tumorentit{\"a}t notwendig wurde. In den Mortalit{\"a}tsanalysen stellten Hormonaktivit{\"a}t und Malignit{\"a}t relevante prognostische Einfl{\"u}sse bei Patienten mit Nebennieren-Inzidentalom dar. Speziell Patienten mit MACS und ACS wiesen eine h{\"o}here Gesamtmortalit{\"a}t auf als solche mit NFA, wobei das Serumcortisol im Dexamethason-Suppressionstest f{\"u}r die multivariaten Cox-Regressionsanalysen als kontinuierliche und nicht kategoriale Variable betrachtet wurde. NAPACA-Patienten starben vorrangig an malignen, kardiovaskul{\"a}ren und infekti{\"o}sen Ursachen. Zusammenfassend weisen Patienten mit Nebennieren-Inzidentalom im Allgemeinen und mit NAPACA im Speziellen im Verlauf eine geringe endokrinologische und maligne Dynamik auf. Ihr Gesamt{\"u}berleben wird maßgeblich von Hormonaktivit{\"a}t und Dignit{\"a}t bzw. von der H{\"o}he des Serumcortisols im Dexamethason-Hemmtest beeinflusst.},
  subject      = {Nebenniere},
  language  = {de}
}
@phdthesis{Stetter2021,
  author    = {Stetter, Maurice},
  title     = {LC3-associated phagocytosis seals the fate of the second polar body in \(Caenorhabditis\) \(elegans\)},
  doi       = {10.25972/OPUS-23198},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-231981},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2021},
  abstract  = {This work investigates the death and degradation of the second polar body of the nematode C. elegans in order to improve our understanding how pluripotent undifferentiated cells deal with dying cells. With the use of fluorescence microscopy this work demonstrates that both polar bodies loose membrane integrity early. The second polar body has contact to embryonic cells and gets internalized, dependent on the Rac1-ortholog CED-10. The polar body gets degraded via LC3-associated phagocytosis. While lysosome recruitment depends on RAB-7, LC3 does not improve lysosome recruitment but still accelerates polar body degradation. This work establishes the second polar body as a genetic model to study cell death and LC3-associated phagocytosis and has revealed further aspects of phagosome maturation and degradation.},
  subject      = {Polk{\"o}rper},
  language  = {en}
}
@phdthesis{Knoepper2022,
  author    = {Kn{\"o}pper, Konrad},
  title     = {Lymph node heterogeneity is imprinted by unconventional T cells that are organized in functional units},
  doi       = {10.25972/OPUS-29694},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-296949},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2022},
  abstract  = {The immune system has the function to defend organisms against a variety of pathogens and malignancies. To perform this task, different parts of the immune system work in concert and influence each other to balance and optimize its functional output upon activation. One aspect that determines this output and ultimately the outcome of the infection is the tissue context in which the activation takes place. As such, it has been shown that dendritic cells can relay information from the infection sites to draining lymph nodes. This way, the ensuing adaptive immune response that is initiated by dendritic cells, is optimized to the tissue context in which the infection needs to be cleared. Here, we set out to investigate whether unconventional T cells (UTC) could have a similar function in directing a site-specific immune response. Using flow cytometry, scRNA-sequencing and functional assays we demonstrated that UTC indeed drive a characteristic immune response in lymph nodes depending on the drained tissues. This function of UTC was directly connected to their lymphatic migration from tissues to draining lymph nodes reminiscent of dendritic cells. Besides these tissue-derived UTC that migrated via the lymph, we further identified circulatory UTC that migrated between lymph nodes via the blood. Functional characterization of UTC following bacterial infection in wt and single TCR-based lineage deficient mice that lacked subgroups of UTC further revealed that both tissue-derived and circulatory UTC were organized in functional units independent of their TCR-based lineage-affiliation (MAIT, NKT, gd T cells). Specific reporter mouse models revealed that UTC within the same functional unit were also located in the same microanatomical areas of lymph nodes, further supporting their shared function. Our data show that the numbers and function of UTC were compensated in single TCR-based lineage deficient mice that lacked subgroups of UTC. Taken together, our results characterize the transcriptional landscape and migrational behavior of UTC in different lymph nodes. UTC contribute to a functional heterogeneity of lymph nodes, which in turn guides optimized, site-specific immune responses. Additionally, we propose the classification of UTC within functional units independent of their TCR-based lineage. These results add significantly to our understanding of UTC biology and have direct clinical implications. We hope that our data will guide targeted vaccination approaches and cell-based therapies to optimize immune responses against pathogens and cancer.},
  language  = {en}
}
@phdthesis{Xiao2023,
  author    = {Xiao, Yin},
  title     = {Lack of NFATc1 SUMOylation prevents autoimmunity and alloreactivity},
  doi       = {10.25972/OPUS-32105},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-321054},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2023},
  abstract  = {SUMOylation, as a post-translational modification, plays a crucial role in several biological processes. Small ubiquitin-like modifier (SUMO) proteins can be reversibly linked to the lysine residues located within specific motifs on numerous target proteins, leading to the change of stability, localization, activity of target proteins, mostly by promoting or interfering with the interaction with other molecules. Consequently, it can regulate gene transcription, migration, cell cycle progression, cellular responses to stress, and tumorigenesis. NFATc1 belongs to the Nuclear Factor of Activated T-cells (NFAT) transcription factor family, which is dephosphorylated and translocates to the nucleus upon cell stimulation, which provokes Ca2+ signalling. NFAT plays a crucial role in the development and function of the immune system. NFATc1 has three SUMOylation sites at the position of aa 349, 702, and 914. In our previous study, we demonstrated that point mutations performed on the SUMOylation sites on all three or only at the lysine residues K702 and K914 lead to enhanced expression of IL-2 in vitro. To evaluate the function of SUMOylation of NFATc1 on T cell-mediated immunity in vivo, we not only generated a transgenic mouse strain (NFATc1/ΔS+ mouse) by point mutations from Lysine to Arginine on the two SUMOylation sites within exon 10 of Nfatc1 to prevent their SUMOylation, but in combination created another mouse strain (NFATc1/ΔBC+ mouse) that is completely Nfatc1 exon 10-ablated by using the LoxP/Cre system. In NFATc1/ΔS+ T cells, we observed enhanced IL-2 production and less IL-17A and IFN-γ expression. In line with exon 10 bearing the relevant SUMO sites, NFATc1/ΔBC+ CD4+ T cells behaved similarly as NFATc1/ΔS+ ones. The mechanism is that elevated IL-2 secretion can counteract the expression of IL-17A and IFN-γ via STAT5 and Blimp-1 induction. Afterwards, Blimp-1 suppressed IL-2 itself as well as Bcl2A1. Next, we performed two disease models with our NFATc1/ΔS+ mice. In a major mismatch model for acute graft-versus-host disease, we found that the mice transplanted with NFATc1/ΔS+ CD3+ T cells developed less severe disease, and T cells proliferated less due to increased Tregs. Moreover, when transferring 2D2.NFATc1/ΔS+ Th1 plus Th17 cells to Rag1-/- mice to induce experimental autoimmune encephalitis, we also observed ameliorated disease compared to animals with transferred WT T cells as well as increased Tregs. Taking all data together, the deficiency in SUMOylation of NFATc1 leads to an elevated IL-2 secretion in T cells and subsequent activation of STAT5, which competes with STAT3 to inhibit IL-17A production and promotes Treg expansion, as well as to an enforcement of Blimp-1 expression, which suppresses IFN-γ and IL-2 expression. Consequently and despite a short phase of enhanced IL-2 secretion, the deficiency of SUMOylation on NFATc1 can protect from autoreactive and alloreactive diseases. Moreover, to further understand the function of SUMOylation of NFATc1 in humans, we started by establishing an in vitro 3D culture system for tonsil organoids, which was successful in the presence of feeder cells, along with IL-4 and IL-7 cytokines. To confirm that our 3D tonsil organoids can respond to real antigens, we used CMV peptides and peptides of spike proteins from Covid-19 as real antigens, and co-cultured with tonsil organoids, which indeed can generate memory cells and plasmablasts. In the end, we also compared 3D to 2D cultures. Although the total numbers of all B cell subsets were much less in 3D culture than that in 2D culture, still, it indicates that this in-vitro culture system has its limitation, while being usable to produce the similar results as 2D did. Therefore, this 3D culture system can be used as a platform to investigate NFATc1/ΔS+ or NFATc1/ΔBC+ TFH and TFR cells in the dynamic of human GC responses.},
  language  = {en}
}
@phdthesis{Ruettger2023,
  author    = {R{\"u}ttger, Lennart},
  title     = {Regulatory T cells limit antiviral CD8 T cell responses through IL-2 competition},
  doi       = {10.25972/OPUS-29674},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-296747},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2023},
  abstract  = {Regulatory T cells (Treg) are critical immune cells to ensure immune homeostasis. Treg do so by establishing tolerance to self-antigens as well as food-derived antigens. Additionally, they fine-tune immune responses to limit the damage caused by inevitable inflammation during the resolution of an ongoing infection or anti-tumor response. Despite countless efforts to gain a detailed understanding of the mechanisms Treg utilize to regulate adaptive immune responses, in vivo evidence is rather limited. We were interested in the cell-cell interactions of Treg and their spatio-temporal dynamics during a viral infection. We sought to address Interleukin-2 (IL-2) competition as a viable mechanism to control anti-viral CD8 T cell responses. We used intra-vital 2-photon imaging to analyze the interactions between Treg and activated T cells during viral infection. Additionally, we performed multiple loss- and gain-of-function experiments, addressing the IL-2 active signaling of CD8, CD4, and regulatory T cells to understand the competitive sensing of IL-2. Finally, we performed single-cell RNA sequencing to understand the cell-intrinsic differences in Treg caused by infection. We found that IL-2 competition by Treg limits the CD8 T cell response and can alter the differentiation of CD8 T cells. Furthermore, we show that Treg do not arrest in proximity to CD8 T cells for prolonged periods and therefore are unlikely to regulate CD8 T cells via contact-dependent mechanisms previously proposed. Our data support an area control model in which Treg scavenge IL-2 while actively migrating through the LN, constantly limiting access to IL-2. Establishing CD4 T cells as the major source of IL-2 during the later phases of infection, we provide direct evidence that Treg compete with CD8 T cells for CD4-derived IL-2. Finally, we show that IL-2 limitation is in correlation with CD25 expression levels and has an impact on the differentiation of CD8 T cells. Altering the differentiation of CD8 T cells to increase effector or memory functions has huge implications in clinical treatments, e.g 'checkpoint immunotherapy'. Especially in scenarios like checkpoint immunotherapy, where an efficient expansion of CD8 T cells is vital to the success of the treatment, it is invaluable to understand the spatio-temporal dynamics of Treg. Not only can the expansion phase be optimized, but also side effects can be better controlled by ensuring the adequate timing of treatments and boosting the anti-inflammatory response after the initial establishment of CD8 T cells. On top of this, the gained understanding of the regulatory mechanism of Treg can help to enhance the efficacy of autoimmune disorder treatments. Overall, this study addressed highly relevant questions in the Treg field and answered aspects of Treg regulation, refining their mode of action and the spatio-temporal dynamics during viral infection, providing evidence for IL-2 competition as a major regulatory mechanism controlling antiviral CD8 T cell responses.},
  subject      = {Regulatorischer T-Lymphozyt},
  language  = {en}
}
@phdthesis{CruzdeCasas2024,
  author    = {Cruz de Casas, Paulina},
  title     = {Sphingolipids as modulators of T cell function},
  doi       = {10.25972/OPUS-35969},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-359698},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2024},
  abstract  = {The immune system is responsible for the preservation of homeostasis whenever a given organism is exposed to distinct kinds of perturbations. Given the complexity of certain organisms like mammals, and the diverse types of challenges that they encounter (e.g. infection or disease), the immune system evolved to harbor a great variety of distinct immune cell populations with specialized functions. For instance, the family of T cells is sub-divided into conventional (Tconv) and unconventional T cells (UTCs). Tconv form part of the adaptive arm of the immune system and are comprised of αβ CD4+ or CD8+ cells that differentiate from na{\"i}ve to effector and memory populations upon activation and are essential during infection and cancer. Furthermore, UTCs, which include γδ T cells, NKT and MAIT, are involved in innate and adaptive immune responses, due to their dual mode of activation, through cytokines (innate-like) or TCR (adaptive), and function. Despite our understanding of the basic functions of T cells in several contexts, a great number of open questions related to their basic biology remain. For instance, the mechanism behind the differentiation of na{\"i}ve CD4+ and CD8+ T cells into effector and memory populations is not fully understood. Moreover, the exact function and relevance of distinct UTC subpopulations in a physiological context have not been fully clarified. Here, we investigated the factors mediating na{\"i}ve CD8+ T cell differentiation into effector and memory cells. By using flow cytometry, mass spectrometry, enzymatic assays, and transgenic mouse models, we found that the membrane bound enzyme sphingomyelin-phosphodiesterase acid-like 3b (Smpdl3b) is crucial for the maintenance of memory CD8+ T cells. Our data show that the absence of Smpdl3b leads to diminished CD8+ T cell memory, and a loss of stem-like memory populations due to an aggravated contraction. Our scRNA-seq data suggest that Smpdl3b could be involved in clathrinmediated endocytosis through modulation of Huntingtin interacting protein 1 (Hip1) levels, likely regulating TCR-independent signaling events. Furthermore, in this study we explored the role of UTCs in lymph node-specific immune responses. By using transgenic mouse models for photolabeling, lymph node transplantation models, infection models and flow cytometry, we demonstrate that S1P regulates the migration of tissue-derived UTC from tissues to draining lymph nodes, resulting in heterogeneous immune responses mounted by lymph nodes draining different tissues. Moreover, our unbiased scRNAseq and single lineage-deficient mouse models analysis revealed that all UTC lineages (γδ T cells, NKT and MAIT) are organized in functional units, based on transcriptional homogeneity, shared microanatomical location and migratory behavior, and numerical and functional redundancy. Taken together, our studies describe additional cell intrinsic (Smpdl3b) and extrinsic (S1Pmediated migration) functions of sphingolipid metabolism modulating T cell biology. We propose the S1P/S1PR1/5 signaling axis as the potential survival pathway for Smpdl3b+ memory CD8+ T cells and UTCs, mainly in lymph nodes. Possibly, Smpdl3b regulates S1P/S1PR signaling by balancing ligandreceptor endocytosis, while UTCs migrate to lymph nodes during homeostasis to be exposed to specific levels of S1P that assure their maintenance. Our results are clinically relevant, since several drugs modulating the S1P/S1PR signaling axis or the levels of Smpdl3b are currently used to treat human diseases, such as multiple sclerosis and B cell-mediated diseases. We hope that our discoveries will inspire future studies focusing on sphingolipid metabolism in immune cell biology.},
  subject      = {T-Lymphozyt},
  language  = {en}
}
@phdthesis{PenaMosca2024,
  author    = {Pe{\~n}a Mosca, Mar{\´i}a Josefina},
  title     = {Local regulation of T-cell immunity in the intestinal mucosa},
  doi       = {10.25972/OPUS-35266},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-352665},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2024},
  abstract  = {After priming in Peyer's patches (PPs) and mesenteric lymph nodes (mLN) T- cells infiltrate the intestine through lymphatic draining and homing through the bloodstream. However, we found that in mouse models of acute graft-versus-host disease (GvHD), a subset of alloreactive T-cells directly migrates from PPs to the adjacent intestinal lamina propria (LP), bypassing the normal lymphatic drainage and vascular trafficking routes. Notably, this direct migration occurred in irradiated and unirradiated GvHD models, indicating that irradiation is not a prerequisite for this observed behavior. Next, we established a method termed serial intravascular staining (SIVS) in mouse models to systematically investigate the trafficking and migration of donor T- cells in the early stages of acute GvHD initiation. We found that the direct migration of T-cells from PPs to LP resulted in faster recruitment of cells after allogeneic hematopoietic cell transplantation (allo-HCT). These directly migrating T-cells were found to be in an activated and proliferative state, exhibiting a TH1/TH17-like phenotype and producing cytokines such as IFN-γ and TNF-α. Furthermore, we observed that the directly migrating alloreactive T-cells expressed specific integrins (α4+, αE+) and chemokine receptors (CxCR3+, CCR5+, and CCR9+). Surprisingly, blocking these integrins and chemokine-coupled receptors did not hinder the direct migration of T- cells from PPs to LP, suggesting the involvement of alternative mechanisms. Previous experiments ruled out the involvement of S1PR1 and topographical features of macrophages, leading us to hypothesize that mediators of cytoskeleton reorganization, such as Coro1a, Dock2, or Cdc42, may play a role in this unique migration process. Additionally, we observed that directly migrating T-cells created a local inflammatory microenvironment, which attracts circulating T-cells. Histological analysis confirmed that alloreactive PPs-derived T-cells and bloodborne T-cells colocalized. We employed two experimental approaches, including either photoconversion of T-cells in PPs or direct transfer of activated T-cells into the vasculature, to demonstrate this colocalization. We hypothesize that cytokines released by migrating T-cells, such as IFN-γ and TNF-α, may play a role in recruiting T-cells from the vasculature, as inhibiting chemokine-coupled receptors did not impair recruitment.},
  subject      = {T-Lymphozyt},
  language  = {en}
}