TY - THES A1 - Bruttel, Valentin Stefan T1 - Soluble HLA-G binds to dendritic cells which likely suppresses anti-tumour immune responses in regional lymph nodes in ovarian carcinoma T1 - Lösliches HLA-G wird von dendritischen Zellen gebunden, was beim Ovarialkarzinom zur Hemmung von Immunraktionen in regionalen Lymphknoten führen kann N2 - Zusammenfassung Einleitung HLA-G, ein nicht-klassisches HLA bzw. MHC Klasse Ib Molekül, kann sowohl als membrangebundenes als auch als lösliches Molekül verschiedenste Immunzellpopulationen effektiv inhibieren. Unter physiologischen Bedingungen wird HLA-G vor allem in der Plazenta exprimiert, wo es dazu beiträgt den semiallogenen Embryo vor einer Abstoßung durch das mütterliche Immunsystem zu beschützen. Außerdem wird HLA-G in einer Vielzahl von Tumoren wie zum Beispiel in Ovarialkarzinomen überexprimiert. Ziel dieser Arbeit war es besonders die Rolle von löslichem HLA-G im Ovarialkarzinom und die Expression von HLA-G in verschiedenen Subtypen des Ovarialkarzinoms genauer zu untersuchen. Ergebnisse Anhand eines Tissue Microarrays wurde bestätigt dass HLA-G unter physiologischen Bedingungen nur in sehr wenigen Geweben wie Plazenta oder Testes exprimiert wird. Außerdem wurden erstmals auch im Nebennierenmark hohe Expressionslevel detektiert. Im Gegensatz zur physiologischen Expression wurde HLA-G in serösen, muzinösen, endometrioiden und Klarzellkarzinomen und somit in Tumoren aller untersuchten Subtypen des Ovarialkarzinoms detektiert. Am häufigsten war HLA-G in hochgradigen serösen Karzinomen überexprimiert. Hier konnte gezeigt werden dass auf Genexpressionslevel in Ovarialkarzinomen die Expression des immunsuppressiven HLA-G mit der Expression von klassischen MHC Molekülen wie HLA-A, -B oder -C hochsignifikant korreliert. Außerdem konnte in Aszitesproben von Patientinnen mit Ovarialkarzinomen hohe Konzentrationen von löslichem HLA-G nachgewiesen werden. Auch auf metastasierten Tumorzellen in regionalen Lymphknoten war HLA-G nachweisbar. Überraschenderweise wurde aber besonders viel HLA-G auf Dendritischen Zellen in Lymphknoten detektiert. Da in Monozyten und Dendritischen Zellen von gesunden Spendern durch IL-4 oder IL-10 im Gegensatz zu Literatur keine Expression von HLA-G induzierbar war, untersuchten wir ob Dendritische Zellen lösliches HLA-G binden. Es konnte gezeigt werden, dass besonders Dendritische Zellen die in Gegenwart von IL-4, IL-10 und GM-CSF aus Monozyten generiert wurden (DC-10) effektiv lösliches HLA-G über ILT Rezeptoren binden. In Abhängigkeit von ihrer Beladung mit HLA-G hemmen auch fixierte DC-10 Zellen noch die Proliferation von zytotoxischen CD8+ T Zellen. Zudem wurden regulatorische T Zellen induziert. Schlussfolgerungen Besonders in den am häufigsten diagnostizierten hochgradigen serösen Ovarialkarzinomen ist HLA-G in den meisten Fällen überexprimiert. Durch die Expression immunsuppressiver MHC Klasse Ib Moleküle wie HLA-G können wahrscheinlich auch Tumore wachsen, die noch klassische MHC Moleküle exprimieren und aufgrund ihrer Mutationslast eigentlich vom Immunsystem erkannt und eliminiert werden müssten. Lösliches HLA-G könnte zudem lokal Immunantworten gegen Tumorantigene unterdrücken indem es an Dendritische Zellen in regionalen Lymphknoten bindet. Diese Zellen präsentieren nomalerweise zytotoxischen T Zellen Tumorantigene und spielen daher eine entscheidende Rolle in der Entstehung von protektiven Immunantworten. Mit löslichem HLA-G beladene Dendritische Zellen hemmen jedoch die Proliferation von CD8+ T Zellen und induzieren regulatorische T Zellen. Dadurch könnten Ovarialkarzinome “aus der Ferne” auch in metastasenfreien Lymphknoten die Entstehung von gegen den Tumor gerichteten Immunantworten unterdrücken. Dieser erstmals beschriebene Mechanismus könnte auch in anderen malignen Erkrankungen eine Rolle spielen, da lösliches HLA-G in einer Vielzahl von Tumorindikationen nachgewiesen wurde. N2 - Abstract Background HLA-G is a non-classical MHC class I molecule which exerts strong immunosuppressive effects on various immune cells. Several membrane-bound and soluble isoforms are known. Physiologically, HLA-G is predominantly expressed in the placenta, where it contributes to protecting the semi-allogeneic embryo from rejection by the maternal immune system. However, HLA-G is also often upregulated during tumourigenesis, such as in ovarian cancer. The aim of this thesis is to investigate how soluble HLA-G may contribute to local immunosuppression in ovarian carcinomas, and to characterize HLA-G expression in different ovarian carcinoma subtypes and metastases. Results As reported by others, physiological HLA-G expression is restricted to few tissues, such as placenta and testes. Here, HLA-G was also detected in the medulla of the adrenal gland. In contrast, HLA-G expression was frequently detected in tumours of all assessed subtypes of ovarian carcinomas (serous, mucinous, endometrioid and clear cell). Highest expression levels were detected in high-grade serous carcinomas. In primary tumours, expression of HLA-G correlated with expression of classical MHC class I molecules HLA-A, -B and -C. Surprisingly, high levels of HLA-G were also detected on dendritic cells in local lymph nodes. As no expression of HLA-G was inducible in monocytes or dendritic cells from healthy donors in response to IL-10 or IL-4, we speculated that tumour-derived soluble HLA-G might be transferred to dendritic cells via the lymphatic system. Accordingly, high levels of tumour-derived soluble HLA-G were detected in ovarian cancer ascites samples. In vitro, dendritic cells expanded in the presence of IL-4, IL-10 and GM-CSF (DC-10) were particularly prone to binding high amounts of soluble HLA-G via ILT receptors. Furthermore, HLA-G loaded DC-10 cells inhibited the proliferation of CD8 effector cells and induced regulatory T cells, even when the DC-10 cells had been fixed with paraformaldehyde. Conclusion The immunosuppressive molecule HLA-G is overexpressed in high-grade serous ovarian carcinomas, which account for the majority of ovarian cancers. In particular tumours with a high mutational burden and intact expression of classical, immunogenic MHC class Ia molecules may use HLA-G to escape from immunosurveillance. Additionally, tumour-derived soluble HLA-G may inhibit adaptive immune responses by binding to dendritic cells in local lymph nodes. Dendritic cells usually play a decisive role in the initiation of adaptive anti-tumour immune responses by presenting tumour antigens to cytotoxic T cells. In contrast, dendritic cells loaded with soluble HLA-G inhibit the proliferation of effector T cells and promote the induction of regulatory T cells. Thus, soluble HLA-G that is transferred to dendritic cells via lymphatic vessels may enable ovarian carcinomas to remotely suppress anti-tumour immune responses in local lymph nodes. This novel immune-escape mechanism may also exist in other solid tumours that express HLA-G. KW - HLA-G KW - HLA-G KW - Dendritische Zelle KW - Eierstocktumor KW - ovarian cancer KW - ovarian carcinoma KW - transfer KW - dendritic cells KW - immune escape Y1 - 2015 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-127252 ER - TY - JOUR A1 - Bruttel, Valentin S. A1 - Wischhusen, Jörg T1 - Cancer Stem Cell Immunology: Key to Understanding Tumorigenesis and Tumor Immune Escape? JF - Frontiers in Immunology N2 - Cancer stem cell (CSC) biology and tumor immunology have shaped our understanding of tumorigenesis. However, we still do not fully understand why tumors can be contained but not eliminated by the immune system and whether rare CSCs are required for tumor propagation. Long latency or recurrence periods have been described for most tumors. Conceptually, this requires a subset of malignant cells which is capable of initiating tumors, but is neither eliminated by immune cells nor able to grow straight into overt tumors. These criteria would be fulfilled by CSCs. Stem cells are pluripotent, immune-privileged, and long-living, but depend on specialized niches. Thus, latent tumors may be maintained by a niche-constrained reservoir of long-living CSCs that are exempt from immunosurveillance while niche-independent and more immunogenic daughter cells are constantly eliminated. The small subpopulation of CSCs is often held responsible for tumor initiation, metastasis, and recurrence. Experimentally, this hypothesis was supported by the observation that only this subset can propagate tumors in non-obese diabetic/scid mice, which lack T and B cells. Yet, the concept was challenged when an unexpectedly large proportion of melanoma cells were found to be capable of seeding complex tumors in mice which further lack NK cells. Moreover, the link between stem cell-like properties and tumorigenicity was not sustained in these highly immunodeficient animals. In humans, however, tumor-propagating cells must also escape from immune-mediated destruction. The ability to persist and to initiate neoplastic growth in the presence of immunosurveillance - which would be lost in a maximally immunodeficient animal model - could hence be a decisive criterion for CSCs. Consequently, integrating scientific insight from stem cell biology and tumor immunology to build a new concept of "CSC immunology" may help to reconcile the outlined contradictions and to improve our understanding of tumorigenesis. KW - tumor immunology KW - tumor immunosurveillance KW - tumor-propagating cells KW - cancer stem cell immunology KW - cancer stem cells KW - latency KW - tumor dormancy KW - tumor immune escape Y1 - 2014 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-120699 SN - 1664-3224 VL - 5 IS - 360 ER - TY - JOUR A1 - Diessner, Joachim A1 - Bruttel, Valentin A1 - Becker, Kathrin A1 - Pawlik, Miriam A1 - Stein, Roland A1 - Häusler, Sebastian A1 - Dietl, Johannes A1 - Wischhusen, Jörg A1 - Hönig, Arnd T1 - Targeting breast cancer stem cells with HER2-specific antibodies and natural killer cells JF - American Journal of Cancer Research N2 - Breast cancer is the most common cancer among women worldwide. Every year, nearly 1.4 million new cases of breast cancer are diagnosed, and about 450.000 women die of the disease. Approximately 15-25% of breast cancer cases exhibit increased quantities of the trans-membrane receptor tyrosine kinase human epidermal growth factor receptor 2 (HER2) on the tumor cell surface. Previous studies showed that blockade of this HER2 proto-oncogene with the antibody trastuzumab substantially improved the overall survival of patients with this aggressive type of breast cancer. Recruitment of natural killer (NK) cells and subsequent induction of antibody-dependent cell-mediated cytotoxicity (ADCC) contributed to this beneficial effect. We hypothesized that antibody binding to HER2-positive breast cancer cells and thus ADCC might be further improved by synergistically applying two different HER2-specific antibodies, trastuzumab and pertuzumab. We found that tumor cell killing via ADCC was increased when the combination of trastuzumab, pertuzumab, and NK cells was applied to HER2-positive breast cancer cells, as compared to the extent of ADCC induced by a single antibody. Furthermore, a subset of \(CD44^{high}CD24^{low}HER2^{low}\) cells, which possessed characteristics of cancer stem cells, could be targeted more efficiently by the combination of two HER2-specific antibodies compared to the efficiency of one antibody. These in vitro results demonstrated the immunotherapeutic benefit achieved by the combined application of trastuzumab and pertuzumab. These findings are consistent with the positive results of the clinical studies, CLEOPATRA and NEOSPHERE, conducted with patients that had HER2-positive breast cancer. Compared to a single antibody treatment, the combined application of trastuzumab and pertuzumab showed a stronger ADCC effect and improved the targeting of breast cancer stem cells. KW - trastuzumab KW - breast cancer KW - tumor stem cells KW - ADCC KW - pertuzumab Y1 - 2013 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-128633 VL - 3 IS - 2 ER - TY - JOUR A1 - Schmitt, Jessica A1 - Eckardt, Sigrid A1 - Schlegel, Paul G A1 - Sirén, Anna-Leena A1 - Bruttel, Valentin S A1 - McLaughlin, K John A1 - Wischhusen, Jörg A1 - Müller, Albrecht M T1 - Human parthenogenetic embryonic stem cell-derived neural stem cells express HLA-G and show unique resistance to NK cell-mediated killing JF - Molecular Medicine N2 - Parent-of-origin imprints have been implicated in the regulation of neural differentiation and brain development. Previously we have shown that, despite the lack of a paternal genome, human parthenogenetic (PG) embryonic stem cells (hESCs) can form proliferating neural stem cells (NSCs) that are capable of differentiation into physiologically functional neurons while maintaining allele-specific expression of imprinted genes. Since biparental ("normal") hESC-derived NSCs (N NSCs) are targeted by immune cells, we characterized the immunogenicity of PG NSCs. Flow cytometry and immunocytochemistry revealed that both N NSCs and PG NSCs exhibited surface expression of human leukocyte antigen (HLA) class I but not HLA-DR molecules. Functional analyses using an in vitro mixed lymphocyte reaction assay resulted in less proliferation of peripheral blood mononuclear cells (PBMC) with PG compared with N NSCs. In addition, natural killer (NK) cells cytolyzed PG less than N NSCs. At a molecular level, expression analyses of immune regulatory factors revealed higher HLA-G levels in PG compared with N NSCs. In line with this finding, MIR152, which represses HLA-G expression, is less transcribed in PG compared with N cells. Blockage of HLA-G receptors ILT2 and KIR2DL4 on natural killer cell leukemia (NKL) cells increased cytolysis of PG NSCs. Together this indicates that PG NSCs have unique immunological properties due to elevated HLA-G expression. KW - brain development KW - immune response KW - T lymphocytes KW - blastocysts KW - lines KW - HLA-G gene KW - mhc molecules KW - nervous system KW - in vitro KW - stem/progenitor cells Y1 - 2015 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-149170 VL - 21 IS - 2101185 ER - TY - JOUR A1 - Karikari, Akua A. A1 - McFleder, Rhonda L. A1 - Ribechini, Eliana A1 - Blum, Robert A1 - Bruttel, Valentin A1 - Knorr, Susanne A1 - Gehmeyr, Mona A1 - Volkmann, Jens A1 - Brotchie, Jonathan M. A1 - Ahsan, Fadhil A1 - Haack, Beatrice A1 - Monoranu, Camelia-Maria A1 - Keber, Ursula A1 - Yeghiazaryan, Rima A1 - Pagenstecher, Axel A1 - Heckel, Tobias A1 - Bischler, Thorsten A1 - Wischhusen, Jörg A1 - Koprich, James B. A1 - Lutz, Manfred B. A1 - Ip, Chi Wang T1 - Neurodegeneration by α-synuclein-specific T cells in AAV-A53T-α-synuclein Parkinson’s disease mice JF - Brain, Behavior, and Immunity N2 - Background Antigen-specific neuroinflammation and neurodegeneration are characteristic for neuroimmunological diseases. In Parkinson’s disease (PD) pathogenesis, α-synuclein is a known culprit. Evidence for α-synuclein-specific T cell responses was recently obtained in PD. Still, a causative link between these α-synuclein responses and dopaminergic neurodegeneration had been lacking. We thus addressed the functional relevance of α-synuclein-specific immune responses in PD in a mouse model. Methods We utilized a mouse model of PD in which an Adeno-associated Vector 1/2 serotype (AAV1/2) expressing human mutated A53T-α-Synuclein was stereotactically injected into the substantia nigra (SN) of either wildtype C57BL/6 or Recombination-activating gene 1 (RAG1)\(^{-/-}\) mice. Brain, spleen, and lymph node tissues from different time points following injection were then analyzed via FACS, cytokine bead assay, immunohistochemistry and RNA-sequencing to determine the role of T cells and inflammation in this model. Bone marrow transfer from either CD4\(^{+}\)/CD8\(^{-}\), CD4\(^{-}\)/CD8\(^{+}\), or CD4\(^{+}\)/CD8\(^{+}\) (JHD\(^{-/-}\)) mice into the RAG-1\(^{-/-}\) mice was also employed. In addition to the in vivo studies, a newly developed A53T-α-synuclein-expressing neuronal cell culture/immune cell assay was utilized. Results AAV-based overexpression of pathogenic human A53T-α-synuclein in dopaminergic neurons of the SN stimulated T cell infiltration. RNA-sequencing of immune cells from PD mouse brains confirmed a pro-inflammatory gene profile. T cell responses were directed against A53T-α-synuclein-peptides in the vicinity of position 53 (68–78) and surrounding the pathogenically relevant S129 (120–134). T cells were required for α-synuclein-induced neurodegeneration in vivo and in vitro, while B cell deficiency did not protect from dopaminergic neurodegeneration. Conclusions Using T cell and/or B cell deficient mice and a newly developed A53T-α-synuclein-expressing neuronal cell culture/immune cell assay, we confirmed in vivo and in vitro that pathogenic α-synuclein peptide-specific T cell responses can cause dopaminergic neurodegeneration and thereby contribute to PD-like pathology. KW - Parkinson’s disease KW - α-synuclein-specific T cells KW - neurodegeneration Y1 - 2022 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-300600 VL - 101 SP - 194 EP - 210 ER -