Global ETD Search

1	Wirkung von TNF-α und Bestrahlung alleine oder in Kombination auf das Überleben von hepatozellulären und cholangiozellulären Karzinomezelllinien in vitro / Effect of TNF-α and irradiation alone or in combination on the viability of hepatocellular and biliary adenocarcinoma cell lines in vitro Qesaraku, Blendi 03 December 2009 (has links) No description available. 610 Medizin, Gesundheit Innere Medizin (PPN619875747) Medicine Bestrahlung Mikroumgebung klonogenes Überleben Apoptose irradiation TNF-α microenvironment clonogenic survival apoptosis 44.87 Gastroenterologie
2	Assessment of the influence of the tumor microenvironment on the microscopic tumor extension in esophageal cancer patients Igbo, Benjamin Terfa 09 July 2024 (has links) The definition of clinical target volume (CTV) margins around gross tumor volume (GTV) for radiotherapy of esophageal cancer (EC) and many solid tumors is still a challenge hence the currently available in-vivo imaging techniques still fail to detect areas of microscopic tumor extension (MTE). Many parameters of the tumor microenvironment (TME), e.g., tumor cell proliferation, cancer stem cells, hypoxia, kinases, immune architecture and patient-specific parameters are hypothesized as inducers of MTE in esophageal cancer and other tumors. The correlation of these TME biomarkers with MTE before, during or after radiochemotherapy (RCHT) is crucial in the era of image-guided, adaptive high-precision photon or particle therapy. In this thesis, two study cohorts were used to assess some selected TME biomarkers and their predictive value on MTE for an improved CTV definition. The first study used immunohistochemistry analysis for the assessment of TME marker namely HIF-1α, Ki67, p53, CXCR4 and PD1 in a cohort of retrospectively collected formalin-fixed paraffin-embedded (FFPE) blocks of EC patients treated with either neoadjuvant radiochemotherapy plus resection (NRCHT+R) or resection alone (R). The subsequent study employing a multiplex-immunofluorescence technique assessed the expression of various markers, i.e., FAK, ILK, CD44, HIF-1α and Ki67, in a cohort of prospectively prepared FFPE resection specimens of EC patients with implantable fiducial gold markers at the proximal and distal tumor borders illustrating the GTV prior to NRCHT+R and correlated those markers to the MTE. The findings from our first study showed upregulation of HIF-1α, Ki67, p53, CXCR4 and PD1, within squamous cell carcinoma (SCC) and adenocarcinoma (AC) patients treated with R compared to those having undergone NRCHT+R. In the second study higher expression of FAK+, CD44+, HIF-1+, and Ki67+ cells in tumor-nests than in tumor-stroma of both SCC and AC patients was found, although ILK+ cells were higher in tumor stroma. In addition, MTE reaching up to 31 mm beyond the fiducial markers was found in three patients (all cT3N1) with a stronger expression of FAK+, CD44+ and ILK+ cells in tumor-nests in between the fiducial markers (former GTV) and beyond those (former CTV), even after NRCHT. In conclusion, there is thus far no evidence that the TME influences the CTV margin on an individual patient basis, hence differences in the TME between patients with residual tumor cells in the original CTV compared to those without were not detected. info:eu-repo/classification/ddc/610 ddc:610
3	Tumor-associated human dendritic cell subsets: Phenotype, functional orientation, and clinical relevance Plesca, Ioana, Müller, Luise, Böttcher, Jan P., Medyouf, Hind, Wehner, Rebekka, Schmitz, Marc 04 June 2024 (has links) DCs play a pivotal role in orchestrating innate and adaptive antitumor immunity. Activated DCs can produce large amounts of various proinflammatory cytokines, initiate T-cell responses, and exhibit direct cytotoxicity against tumor cells. They also efficiently enhance the antitumoral properties of NK cells and T lymphocytes. Based on these capabilities, immunogenic DCs promote tumor elimination and are associated with improved survival of patients. Furthermore, they can essentially contribute to the clinical efficacy of immunotherapeutic strategies for cancer patients. However, depending on their intrinsic properties and the tumor microenvironment, DCs can be rendered dysfunctional and mediate tolerance by producing immunosuppressive cytokines and activating Treg cells. Such tolerogenic DCs can foster tumor progression and are linked to poor prognosis of patients. Here, we focus on recent studies exploring the phenotype, functional orientation, and clinical relevance of tumor-infiltrating conventional DC1, conventional DC2, plasmacytoid DCs, and monocyte-derived DCs in translational and clinical settings. In addition, recent findings demonstrating the influence of DCs on the efficacy of immunotherapeutic strategies are summarized. info:eu-repo/classification/ddc/610 ddc:610
4	Targeting B non-Hodgkin lymphoma and tumor-supportive follicular helper T cells with anti-CXCR5 CAR T cells Pfeilschifter, Janina Marie 09 September 2021 (has links) CAR-T-Zell-Therapie ist eine vielversprechende neuartige Behandlungsform für Patienten mit aggressiven B-Zell Non-Hodgkin-Lymphomen (B-NHL). In dieser Arbeit wurde die anti-CXCR5 CAR-T-Zell-Therapie als Alternative zur anti-CD19 CAR-T-Zell-Therapie für die Behandlung von reifen B-NHLs untersucht. CXCR5 ist ein B-Zell-homing Rezeptor, der von reifen B Zellen und follikulären T-Helferzellen (TFH Zellen) exprimiert wird. TFH Zellen wurden als tumor-unterstützend in chronisch lymphatischer Leukämie (CLL) und im follikulären Lymphom (FL) beschrieben. Dieses Expressionsmuster erlaubt es, auf einzigartige Weise zeitgleich die malignen Zellen und die tumorunterstützende Mikroumgebung mithilfe von CAR-T-Zell-Therapie gerichtet gegen einen Chemokinrezeptor anzugreifen. Die wichtigsten Ergebnisse dieser Arbeit waren, dass (1) die anti-CXCR5 CAR T-Zellen zielgerichtet CXCR5 positive reife B-NHL Zelllinien und Patientenproben in vitro eliminierten und eine starke anti-Tumor Reaktivität in einem immundefizienten Xenotransplantationsmausmodell zeigten, (2) die anti-CXCR5 CAR T-Zellen zielgerichtet die tumorunterstützenden TFH Zellen in CLL und FL Patientenproben in vitro erkannten und dass (3) CXCR5 ein sicheres Expressionsprofil zeigte. CXCR5 war stark und häufig auf B-NHL exprimiert und die Expression auf gesundem Gewebe war auf lymphoide Zellen beschränkt. Zusammenfassend lässt sich sagen, dass die anti-CXCR5 CAR-T-Zell-Therapie eine neue Behandlungsmöglichkeit für Patienten mit reifen B-NHL darstellt, indem durch die anti-CXCR5 CAR-T Zellen sowohl der Tumor als auch ein Anteil der tumorunterstützende Mikroumgebung eliminiert werden. Im zweiten Teil der Arbeit wurde das Eμ-Tcl1 murine CLL Lymphommodell genutzt um die Auswirkung der Lymphomentwicklung auf die CXCR5+ T Zellen zu untersuchen. Mittels RNA-Einzelzell-Sequenzierung konnte ein profunder Einfluss des Lymphomwachstums auf das T Zell-Kompartiment der Mäuse, denen Eμ-Tcl1 Zellen gespritzt wurden, gezeigt werden. / CAR T cell therapy is a promising new treatment option for patients suffering from aggressive B non-Hodgkin lymphomas (NHLs). In CAR T cell therapy, patient-derived T cells are genetically modified to express a chimeric receptor commonly directed towards a surface antigen expressed by neoplastic cells. In this thesis, anti-CXCR5 CAR T cell therapy was investigated as an alternative to anti-CD19 CAR T cell therapy for the treatment of mature B-NHLs. CXCR5 is a B cell homing receptor expressed by mature B cells and follicular helper T (TFH) cells. TFH cells were described to support the tumor cells in chronic lymphocytic leukemia (CLL) and follicular lymphoma (FL). This expression pattern allows simultaneous targeting of the malignant cells and the tumor-supporting microenvironment by CAR T cell therapy against a chemokine receptor in an unprecedented manner. Main findings included that (1) anti-CXCR5 CAR T cells targeted specifically CXCR5 expressing mature B-NHL cell lines and patient samples in vitro and showed strong in vivo anti-tumor reactivity in an immunodeficient xenograft mouse model, (2) anti-CXCR5 CAR T cells targeted tumor-supportive TFH cells derived from CLL and FL patient samples in vitro and (3) CXCR5 showed a safe expression profile. CXCR5 was strongly and frequently expressed by B-NHLs and its expression on healthy tissue was restricted to lymphoid cells. In summary, anti-CXCR5 CAR T cell therapy presents a novel treatment option for patients suffering from mature B-NHLs by eliminating the tumor and part of the tumor-supportive microenvironment. The second part of the project, the Eμ-Tcl1 murine lymphoma model, which mimics human CLL, was used to study the impact of lymphomagenesis on CXCR5+ T cells. Using single cell RNA sequencing, a profound influence of lymphoma growth on the T cell compartment in Eμ-Tcl1 tumor-challenged mice could be shown. CAR-T-Zell-Therapie B-Zell Non-Hodgkin-Lymphome NHL B-NHL follikulären T-Helferzellen TFH Zellen anti-CXCR5 CAR-T-Zell-Therapie CAR-T-Zellen Mikroumgebung Murines Lymphommodell Chemokinrezeptor chronisch lymphatische Leukämie follikuläres Lymphom anti-CD19 CAR-T-Zell-Therapie Eμ-Tcl1 CXCR5 CAR T cell therapy B non-Hodgkin lymphoma B-NHL NHL CAR T cells CXCR5 chemokine receptor anti-CXCR5 CAR T cell therapy follicular helper T cells TFH cells Eμ-Tcl1 murine lymphoma model microenvironment chronic lymphocytic leukemia follicular lymphoma anti-CD19 CAR T cell therapy 570 Biologie YC 2704 YC 2712 YC 2715 ddc:570

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