@phdthesis{Schulze2014,
  author    = {Schulze, Markus},
  title     = {Role of Chronophin for glioma cell migration and invasion},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-109292},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2014},
  abstract  = {Abstract Glioblastomas, primary brain tumors, represent a tumor entity with a dismal prognosis and a median survival of only about one year. Invasion into the healthy brain parenchyma contributes substantially to the malignancy of this type of brain tumor. Therefore, a better understanding of the mechanisms promoting the invasive behavior of these brain tumors is needed to identify new therapeutic targets. Cofilin, an actin regulatory protein, has been shown to be an important regulator of the invasive behavior of tumor cells in other types of cancer and the actin cytoskeleton is involved in the formation of a variety of cellular structures important for cell migration and invasion. Cofilin is regulated by phosphorylation on a single residue, serine 3. The aim of this thesis was to examine the role of the cofilin regulatory phosphatase chronophin for glioma cell migration and invasion. First, it was established that chronophin depletion in the cell line GBM6840 leads to an increase in the ratio of phosphorylated cofilin to total cofilin. Higher chronophin levels were correlated with a decrease in F-actin in the cell lines GBM6840 and U87 as measured in an actin spin down assay and in a flow cytometry based assay. Furthermore, it was shown that knockdown of chronophin in two different cell lines, GBM6840 and DBTRG-05-MG, strongly increased their invasiveness in vitro. Expression of human chronophin in the cell line U87 decreased its invasiveness substantially. There was no difference in cell proliferation between GBM6840 and DBTRG-05-MG cells expressing a chronophin targeting shRNA or a control shRNA and U87 cells transfected with an empty vector or a human chronophin encoding plasmid. The increase in invasiveness after chronophin depletion could be correlated with an increase in directionality in cell migration under 2D culture conditions in the cell lines U87 and GBM6840. Moreover, treatment with the ROCK inhibitor Y-27632 decreased directionality in GBM6840 cells under 2D culture conditions and reduced the invasiveness of GBM6840 chronophin shRNA cells back to control levels. Expression of a non-phosphorylatable cofilin mutant, the S3A mutant, was able to reduce invasiveness and to reduce directionality under 2D culture conditions back to control levels in GBM6840 chronophin shRNA cells. This provides important evidence for the involvement of cofilin phosphoregulation in the phenotypes described above. In vivo, when injected into NOD-SCID mice, chronophin depleted cells showed a dramatic growth reduction as compared to control and rescue cells. Transciptomic characterization of GBM6840 cells by microarray analysis and subsequent comparison of the data with microarray profiles of normal brain tissues and different glioma entities identified two specifically chronophin regulated transcripts potentially involved in tumor progression and invasion, MXI1 and EDIL3. Moreover, c-myc was identified as a significantly altered transcription factor after chronophin deregulation based on the number of c-myc target molecules in the microarray dataset. MXI1 is a potential negative regulator of c-myc dependent transcription, and was strongly downregulated after chronophin knockdown in GBM6840. In line with this, the activity of a c-myc reporter plasmid was increased after chronophin depletion in GBM6840 and reduced after chronophin expression in U87 cells. However, the protein level of the c-myc protein was reduced after chronophin depletion in GBM6840. Finally, anaylsis of the expression of proteases known to be important for glioblastoma pathogenesis revealed no major changes in protease expression between chronophin depleted and control cells. Therefore, a comprehensive analysis of chronophin in the context of glioma pathogenesis has been performed in this thesis. It has been shown that chronophin depletion strongly enhanced invasiveness of glioma cells and that it induced transcriptomic changes potentially involved in tumor progression. The proteins regulating cofilin phosphorylation are therefore valuable therapeutic targets for anti-invasive therapy in glioblastomas. Inhibitors for kinases upstream of cofilin, e.g. LIMKs and ROCKs, are available, and might be promising agents for anti-invasive therapy.},
  subject      = {Zellmigration},
  language  = {en}
}
@phdthesis{JarickneeOttmueller2020,
  author    = {Jarick [n{\´e}e Ottm{\"u}ller], Katja Julika},
  title     = {Migration of allogenic T cells in intestinal lymphoid structures during acute Graft-versus-Host Disease},
  doi       = {10.25972/OPUS-17875},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-178758},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2020},
  abstract  = {T cell infiltration into the intestine occurs after priming and activation in the mesenteric lymph nodes and Peyer's patches and subsequent trafficking via the blood circulation. We hypothesized that additionally to the vascular trafficking route, a fraction of T cells in the Peyer's patches directly migrate into the adjacent lamina propria of the small intestine. To test this hypothesis, we employed a mouse model of acute Graft-versus-Host Disease to study the direct T cell migration from the Peyer's patches to the adjacent lamina propria. First, we analyzed the border of Peyer's patches on histological sections and found that the Peyer's patch is not enclosed by a capsule or basement membrane. Thus, the tissue architecture allows for direct access to the surrounding tissue. With whole-mount light sheet fluorescence microscopy we quantified a three-dimensional gradient of T cells around Peyer's patches on day 2.5 and day 3 after transplantation. This gradient evened out at day 4 and day 6 when high numbers of T cells started to evenly infiltrate the intestine from the blood circulation. We confirmed that gradient-forming T cells around Peyer's patches resided within the tissue parenchyma of the lamina propria and not inside lymphatic vessels. To positively prove that the recently activated donor T cells around Peyer's patches have egressed directly from that patch, we established a protocol for intravital photoconversion of T cells inside Peyer's patches. 12 h after photoconversion inside a single Peyer's patch, photoconverted T cells resided only around this particular Peyer's patch and not elsewhere in the small intestine. This indicated that the T cells did not infiltrate via the blood but migrated to the adjacent lamina propria of the small intestine. Dynamic intravital two-photon microscopy revealed that these T cells next to the Peyer's patch migrated in a random pattern. This suggested that these cells did not follow a positive chemoattractive gradient once they had reached the lamina propria. Laser-capture microdissection combined with RNA sequencing of the mucosa near the Peyer's patch identified a wide range of migration-promoting factors. These included chemokines, co-stimulatory receptors and migration-associated intracellular molecules, which are candidates to promote this direct migration from Peyer's patches. Altogether, we demonstrate for the first time that additionally to the vascular trafficking route, a fraction of T cells migrates directly from the Peyer's patch to the surrounding mucosa. This mechanism implies so far unrecognized regional specification of Peyer's-patch-primed T cells. Our findings may impact treatment strategies to avoid intestinal inflammation or foster immunity after oral vaccination.},
  subject      = {T-Lymphozyt},
  language  = {en}
}
@phdthesis{Koenig2022,
  author    = {K{\"o}nig, Anika},
  title     = {The role of the transcriptional regulators NFATc1 and Blimp-1 in follicular T-cells},
  doi       = {10.25972/OPUS-20972},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-209727},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2022},
  abstract  = {The defense against invading pathogens is, amongst other things, mediated via the action of antibodies. Class-switched antibodies and antibodies of high affinity are produced by plasma cells descending from germinal center B (GCB) cells. GCB cells develop in the germinal center (GC), a specialized microstructure found in the B-cell follicle of secondary lymphoid organs. GCB-cell maturation and proliferation are supported by follicular T- helper (Tfh) cells. On the other hand, follicular regulatory T (Tfr) cells control this process in quantity and quality preventing, for instance, the formation of autoantibodies directed against endogenous structures. The development of GCB, Tfh and Tfr cells essentially depends on the migration into the GC, which is mediated via the expression of the chemokine receptor CXCR5. One transcription factor highly expressed in follicular T cells, comprising Tfh and Tfr cells, is NFATc1. Tfr cells additionally express the transcriptional repressor Blimp-1, which is not expressed in Tfh cells. We found that NFATc1 is transactivating Cxcr5 via response elements in the promoter and enhancer in vitro. Blimp-1 binds to the same elements, transactivating Cxcr5 expression in cooperation with NFATc1, whilst mediating Cxcr5- repression on its own. In Tfr cells Blimp-1 suppresses CXCR5 expression in the absence of NFATc1. Blimp-1 itself is necessary to restrict Tfr-cell frequencies and to mediate Tfr- cell function as in mice with Blimp-1-ablated Tregs high frequencies of Tfr cells do not reduce GCB- or Tfh cell frequencies. NFATc1 and Blimp-1 double deficient Tfr cells show additional loss of function, which becomes visible in clearly expanded antibody titers. To evaluate the function of NFATc1 in Tfr cells, we not only deleted it, but also overexpressed a constitutive active form of NFATc1/aA (caNFATc1/aA) in regulatory T cells (Tregs). The latter is leading to an upregulation of CXCR5 per cell, without changing Tfh or Tfr-cell frequencies. However, the high density of surface CXCR5 enhances the migration of Tfr cells deep into the GC, which results in a tighter control of the antigen- specific humoral immune response. Additionally, caNFATc1/aA increases the expression of genes coding for Tfr effector molecules like Il1rn, Il10, Tigit and Ctla4. Interestingly, this part of the transcriptional change is dependent on the presence of Blimp-1. Furthermore, Blimp-1 regulates the expression of multiple chemokine receptor genes on the background of caNFATc1/aA. In contrast, when caNFATc1/aA is overexpressed in all T cells, the frequencies of Tfh- and GCB cells are dominantly reduced. This effect seems to stem from the conventional T- cell (Tcon) side, most probably originating from increased secretion of interleukin-2 (IL- 2) via the caNFATc1/aA overexpressing Tcons. IL-2 is known to hinder the germinal center reaction (GCR) and it might in its abundance not be neutralizable by Tfr cells. Taken together, NFATc1 and Blimp-1 cooperate to control the migration of Tfr cells into the GC. Tfr cells in the GC depend on NFATc1 and Blimp-1 to perform their proper function. Overexpression of caNFATc1 in Tregs strengthens Tfr function in a Blimp-1-dependent manner, whilst overexpression of caNFATc1 in all T cells dominantly diminishes the GCR.},
  subject      = {Signaltransduktion},
  language  = {en}
}
@phdthesis{FetivaMora2023,
  author    = {Fetiva Mora, Maria Camila},
  title     = {Changes in chromatin accessibility by oncogenic YAP and its relevance for regulation of cell cycle gene expression and cell migration},
  doi       = {10.25972/OPUS-30291},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-302910},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2023},
  abstract  = {Various types of cancer involve aberrant cell cycle regulation. Among the pathways responsible for tumor growth, the YAP oncogene, a key downstream effector of the Hippo pathway, is responsible for oncogenic processes including cell proliferation, and metastasis by controlling the expression of cell cycle genes. In turn, the MMB multiprotein complex (which is formed when B-MYB binds to the MuvB core) is a master regulator of mitotic gene expression, which has also been associated with cancer. Previously, our laboratory identified a novel crosstalk between the MMB-complex and YAP. By binding to enhancers of MMB target genes and promoting B-MYB binding to promoters, YAP and MMB co-regulate a set of mitotic and cytokinetic target genes which promote cell proliferation. This doctoral thesis addresses the mechanisms of YAP and MMB mediated transcription, and it characterizes the role of YAP regulated enhancers in transcription of cell cycle genes. The results reported in this thesis indicate that expression of constitutively active, oncogenic YAP5SA leads to widespread changes in chromatin accessibility in untransformed human MCF10A cells. ATAC-seq identified that newly accessible and active regions include YAP-bound enhancers, while the MMB-bound promoters were found to be already accessible and remain open during YAP induction. By means of CRISPR-interference (CRISPRi) and chromatin immuniprecipitation (ChIP), we identified a role of YAP-bound enhancers in recruitment of CDK7 to MMB-regulated promoters and in RNA Pol II driven transcriptional initiation and elongation of G2/M genes. Moreover, by interfering with the YAP-B-MYB protein interaction, we can show that binding of YAP to B-MYB is also critical for the initiation of transcription at MMB-regulated genes. Unexpectedly, overexpression of YAP5SA also leads to less accessible chromatin regions or chromatin closing. Motif analysis revealed that the newly closed regions contain binding motifs for the p53 family of transcription factors. Interestingly, chromatin closing by YAP is linked to the reduced expression and loss of chromatin-binding of the p53 family member Np63. Furthermore, I demonstrate that downregulation of Np63 following expression of YAP is a key step in driving cellular migration. Together, the findings of this thesis provide insights into the role of YAP in the chromatin changes that contribute to the oncogenic activities of YAP. The overexpression of YAP5SA not only leads to the opening of chromatin at YAP-bound enhancers which together with the MMB complex stimulate the expression of G2/M genes, but also promotes the closing of chromatin at ∆Np63 -bound regions in order to lead to cell migration.},
  subject      = {Chromatin},
  language  = {en}
}
@phdthesis{Scheller2023,
  author    = {Scheller, Lukas},
  title     = {Migrationsf{\"o}rdernde Faktoren im intestinalen T-Zell-Homing w{\"a}hrend der akuten Graft-versus-Host Erkrankung},
  doi       = {10.25972/OPUS-29290},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-292909},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2023},
  abstract  = {Die akute Graft-versus-Host Erkrankung (GvHD), insbesondere die Darm GvHD, stellt weiterhin eine der Hauptursachen f{\"u}r Mortalit{\"a}t und Morbidit{\"a}t nach allogener SZT dar. Aktivierte, alloreaktive Spender T-Zellen infiltrieren dabei {\"u}ber die Blutbahn die intestinale Lamina Propria. Erst k{\"u}rzlich konnten wir zeigen, dass neben der vaskul{\"a}ren Migration ein Teil der Spender T-Zellen auch direkt aus den PP in die angrenzende Lamina Propria migrieren. Um Faktoren, die diese direkte Migration f{\"o}rdern, zu untersuchen und die direkt migrierenden T-Zellen genauer zu charakterisieren, verwendeten wir ein MHC-inkompatibles Mausmodell zur Induktion einer akuten GvHD. Durch RNA Sequenzierung und Massenspektrometrie lasermikrodissezierter Darmschleimhautproben konnte eine starke Expression der Chemokine CXCL9, CXCL10, CXCL11, CCL3, CCL4 und CCL5 w{\"a}hrend der akuten intestinalen GvHD aufgezeigt werden. Neben CCL4 und XCL1 wiesen verschiedene Faktoren der T-Zellaktivierung, wie CD3ζ, LAT, Lck und ZAP70, sowie Faktoren der zytoskelettalen Reorganisation, wie Dock2, Coro1α und Parvin-γ, eine vermehrte Expression insbesondere nahe der PP auf. Die Expression der migrationsf{\"o}rdernden Faktoren Coro1α und Parvin-γ in Spender T-Zellen nahe der PP konnte anschließend mittels histologischen Immunfluoreszenzf{\"a}rbungen best{\"a}tigt werden. Durchflusszytometrische Analysen konnten weiterhin eine vermehrte Expression von CCR5, CCR9 und Intgerin α4β7 auf den vornehmlich Tbet+ Spender T-Zellen nahe der PP nachweisen. Funktionelle in vitro Migrationsversuche zeigten abschließend, dass in vivo aktivierte Spender T-Zellen eine gerichtete Migration in Richtung auf CXCL11 und zu sp{\"a}terem Zeitpunkt auch auf CCL4 vollziehen k{\"o}nnen. Zusammenfassend zeigt diese Arbeit die Bedeutung zahlreicher Chemokine f{\"u}r das sequenzielle T-Zell-Homing w{\"a}hrend der akuten intestinalen GvHD. Neben der insbesondere durch Faktoren der zytosekeletalen Reorganisation vermittelten amoeboiden Migration kann auch eine mesenchymale Fortbewegung {\"u}ber Faktoren wie CCR5, CCR9 und Integrin α4β7 die direkte Migration der T-Zellen f{\"o}rdern. Den direkt migrierenden vornehmlich TH1 polarisierten Zellen folgen weitere, CD27 und Integrin αLβ2 exprimierende, zytotoxische T-Zellen aus der Blutbahn. Die direkt migrierenden Zellen k{\"o}nnten als Initiator und Potentiator der intestinalen T-Zell Infiltration wirken und m{\"u}ssen f{\"u}r zuk{\"u}nftige therapeutische Strategien nicht nur der Darm GvHD, sondern der intestinalen Inflammation im Allgemeinen mitber{\"u}cksichtigt werden.},
  subject      = {T-Lymphozyt},
  language  = {de}
}
@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}
}