Frauenklinik und Poliklinik
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Gliomas have been classified according to their histological properties. However, their respective cells of origin are still unknown. Neural progenitor cells (NPC) from the subventricular zone (SVZ) can initiate tumors in murine models of glioma and are likely cells of origin in the human disease. In both, p53 signaling is often functionally impaired which may contribute to tumor formation. Also, TGF-beta, which under physiological conditions exerts a strong control on the proliferation of NPCs in the SVZ, is a potent mitogen on glioma cells. Here, we approach on the crosstalk between p53 and TGF-beta by loss of function experiments using NPCs derived from p53 mutant mice, as well as pharmacological inhibition of TGF-beta signaling using TGF-beta receptor inhibitors. NPC derived from p53 mutant mice showed increased clonogenicity and more rapid proliferation than their wildtype counterparts. Further, NPC derived from p53\(^{mut/mut}\) mice were insensitive to TGF-beta induced growth arrest. Still, the canonical TGF-beta signaling pathway remained functional in the absence of p53 signaling and expression of key proteins as well as phosphorylation and nuclear translocation of SMAD2 were unaltered. TGF-beta-induced p21 expression could, in contrast, only be detected in p53\(^{wt/wt}\) but not in p53\(^{mut/mut}\) NPC. Conversely, inhibition of TGF-beta signaling using SB431542 increased proliferation of p53\(^{wt/wt}\) but not of p53\(^{mut/mut}\) NPC. In conclusion, our data suggest that the TGF-beta induced growth arrest in NPC depends on functional p53. Mutational inactivation of p53 hence contributes to increased proliferation of NPC and likely to the formation of hyperplasia of the SVZ observed in p53 deficient mice in vivo.
Dysregulated IGFBP5 expression causes axon degeneration and motoneuron loss in diabetic neuropathy
(2015)
Diabetic neuropathy (DNP), afflicting sensory and motor nerve fibers, is a major complication in diabetes.The underlying cellular mechanisms of axon degeneration are poorly understood. IGFBP5, an inhibitory binding protein for insulin-like growth factor 1 (IGF1) is highly up-regulated in nerve biopsies of patients with DNP. We investigated the pathogenic relevance of this finding in transgenic mice overexpressing IGFBP5 in motor axons and sensory nerve fibers. These mice develop motor axonopathy and sensory deficits similar to those seen in DNP. Motor axon degeneration was also observed in mice in which the IGF1 receptor(IGF1R) was conditionally depleted in motoneurons, indicating that reduced activity of IGF1 on IGF1R in motoneurons is responsible for the observed effect. These data provide evidence that elevated expression of IGFBP5 in diabetic nerves reduces the availability of IGF1 for IGF1R on motor axons, thus leading to progressive neurodegeneration. Inhibition of IGFBP5 could thus offer novel treatment strategies for DNP.
The activation of immune cells by targeting checkpoint inhibitors showed promising results with increased patient survival in distinct primary cancers. Since only limited data exist for human brain metastases, we aimed at characterizing tumor infiltrating lymphocytes (TILs) and expression of immune checkpoints in the respective tumors. Two brain metastases cohorts, a mixed entity cohort (n = 252) and a breast carcinoma validation cohort (n = 96) were analyzed for CD3+, CD8+, FOXP3+, PD-1+ lymphocytes and PD-L1+ tumor cells by immunohistochemistry. Analyses for association with clinico-epidemiological and neuroradiological parameters such as patient survival or tumor size were performed. TILs infiltrated brain metastases in three different patterns (stromal, peritumoral, diffuse). While carcinomas often show a strong stromal infiltration, TILs in melanomas often diffusely infiltrate the tumors. Highest levels of CD3+ and CD8+ lymphocytes were seen in renal cell carcinomas (RCC) and strongest PD-1 levels on RCCs and melanomas. High amounts of TILs, high ratios of PD-1+/CD8+ cells and high levels of PD-L1 were negatively correlated with brain metastases size, indicating that in smaller brain metastases CD8+ immune response might get blocked. PD-L1 expression strongly correlated with TILs and FOXP3 expression. No significant association of patient survival with TILs was observed, while high levels of PD-L1 showed a strong trend towards better survival in melanoma brain metastases (Log-Rank p = 0.0537). In summary, melanomas and RCCs seem to be the most immunogenic entities. Differences in immunotherapeutic response between tumor entities regarding brain metastases might be attributable to this finding and need further investigation in larger patient cohorts.
Ovarian cancer (OvCa) is the tumor with the most unfavourable prognosis among all gynaecological malignancies causing more than 6000 deaths per year in Germany alone. Patients with OvCa show symptoms at very advanced stages of tumor progression when the only available treatments consist on tumor debulking surgery and administration of platinum based chemotherapeutics and anthracyclins. There is an urgent need to develop new therapeutical strategies since the actual 5 year survival rate of OvCa patients does not exceed 20-40%.
Immunotherapy is a promising approach for treatment of ovarian cancer, since it has been observed that immunological parameters can influence the outcome of the patient. The aim of our research is to overcome tumor immune escape by counteracting the immunosuppressive mechanisms developed by the tumor. In particular, this work studies the influence of adenosine generated by the ectonucleotidases CD39 and CD73 in the tumor microenvironment. Cellular expression of CD39 and CD73 contributes to immunosupression as these ectonucleotidases convert immune-stimulatory extracellular ATP into immunosuppressive adenosine. This was primarily described as effector mechanism for regulatory T cells, but may also be important in the tumor microenvironment.
Having found that tumor cells from OvCa-patients express high levels of ATP-depleting ectonucleotidases CD39 and CD73 we set out to investigate a potential immunosuppressive mechanism via adenosine production in the tumor microenvironment. We could measure 30-60 times higher adenosine production by OvCa cell lines and ascites-derived cancer cells as compared to physiological normal conditions. To confirm this putative immune escape mechanism we investigated its effect on several immune cell populations. CFSE-based assays, for example, showed an inhibition of CD4+ T cell proliferation by OvCA cell-derived adenosine. In this context, we have further established an in-vitro assay, where OvCa cells modulate the function of macrophages towards a M2 or tumor associated (TAM) phenotype. Together with the phenotype modulation adenosine exerts chemotactic effects on human monocytes and is thus likely to attract myeloid precursor cells towards the tumor tissue. Moreover, in a microenvironment that is shaped by OvCa cells, human monocytes differentiate into M2 macrophages or TAMs which themselves express significant levels of the adenosine-generating ectonucleotidases CD39 and CD73.
Investigating the regulation of ectonucleotidase expression, we also observed that approaches clinically used to treat OvCa (namely application of doxorubicine or irradiation) influence CD73 and CD39 levels of OvCa and immune cells in vitro. In this study we show how this treatment-induced change in the ATP/adenosine ratio modulates the effector function of different immune cells. Furthermore, we investigate the potential benefit of clinically available small molecule inhibitors for CD39 and CD73 that could relieve immunosuppression in the tumor microenvironment especially in combination with common treatment regimes.
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.
Background
Overexpression of transketolase-like 1 protein TKTL1 in cancer cells has been reported to correlate with enhanced glycolysis and lactic acid production. Furthermore, enhanced TKTL1 expression was put into context with resistance to chemotherapy and ionizing radiation. Here, a panel of human malign and benign cells, which cover a broad range of chemotherapy and radiation resistance as well as reliance on glucose metabolism, was analyzed in vitro for TKTL1 expression.
Methods
17 malign and three benign cell lines were characterized according to their expression of TKTL1 on the protein level with three commercially available anti-TKTL1 antibodies utilizing immunohistochemistry and Western blot, as well as on mRNA level with three published primer pairs for RT-qPCR. Furthermore, sensitivities to paclitaxel, cisplatin and ionizing radiation were assessed in cell survival assays. Glucose consumption and lactate production were quantified as surrogates for the “Warburg effect”.
Results
Considerable amounts of tktl1 mRNA and TKTL1 protein were detected only upon stable transfection of the human embryonic kidney cell line HEK293 with an expression plasmid for human TKTL1. Beyond that, weak expression of endogenous tktl1 mRNA was measured in the cell lines JAR and U251. Western blot analysis of JAR and U251 cells did not detect TKTL1 at the expected size of 65 kDa with all three antibodies specific for TKTL1 protein and immunohistochemical staining was observed with antibody JFC12T10 only. All other cell lines tested here revealed expression of tktl1 mRNA below detection limits and were negative for TKTL1 protein. However, in all cell lines including TKTL1-negative HEK293-control cells, antibody JFC12T10 detected multiple proteins with different molecular weights. Importantly, JAR and U251 did neither demonstrate an outstanding production of lactic acid nor increased resistance against chemotherapeutics or to ionizing radiation, respectively.
Conclusion
Using RT-qPCR and three different antibodies we observed only exceptional occurrence of TKTL1 in a panel of malignant human cell lines in vitro. The presence of TKTL1 was unrelated to either the rate of glucose consumption/lactic acid production or resistance against chemo- and radiotherapy.
Das humane Genom besteht zu ungefähr 8 % aus humanen endogenen Retroviren (HERVs),
jedoch sind viele aufgrund von Mutationen oder Deletionen nicht mehr funktionell. Trotzdem
wurden funktionelle HERV-Proteine gefunden, welche offene Leserahmen (ORFs) besitzen
und für funktionelle Hüll-Glykoproteine wie z.B. Syncytin-1, Syncytin-2 und HML-2
kodieren. Diese HERV-Hüllproteine beinhalten eine suppressive Domäne (SU) und
induzieren möglicherweise eine Immunsuppression diverser Immunzellen während einer
gesunden Schwangerschaft.
In dieser Arbeit wurden spezifisch die modulatorischen Eigenschaften verschiedener HERVHüllproteine
(Syncytin-1, -2 und HML-2) auf Immunzellen untersucht.
Wir konnten zeigen, dass die HERV-Bindungsrezeptoren ASCT-1, -2 und MFSD2A auf der
Oberfläche von T-Zellen und DCs exprimiert werden. Für funktionelle Experimente wurden
HERV-Hüllproteine transgen in CHO-Zellen exprimiert, die als Effektorzellen in Ko-Kultur-
Systemen verwendet wurden. Es konnte keine Hemmung der PMA/Ionomycin-stimulierten
T-Zell-Proliferation durch die Effektorzellen gefunden werden. Darüber hinaus
beeinträchtigten die Effektorzellen nicht die Expression von Reifungsmarkern auf DCs nach
LPS-Aktivierung, induzierten jedoch die Produktion der pro-inflammatorischen Zytokine IL-
12 und TNF-α. Dagegen inhibierten die konstitutiv HERV-Hüllprotein-exprimierenden
Chorionkarzinom-Zelllinien BeWo und JEG die PMA/Ionomycin-stimulierte T-Zell-
Proliferation sehr effektiv. Die Chorionkarzinom-Zelllinien hatten ebenfalls keinen Einfluss
auf die phänotypische LPS-DC-Reifung, modulierten aber die LPS-DC-Zytokin-Antwort sehr
effektiv zu einem suppressiven Profil durch eine Inhibition der pro-inflammatorischen
Zytokine IL-12 und TNF-α sowie einen Anstieg von anti-inflammatorischem IL-10. BeWound
JEG-Zellen, aber auch HERV-Hüllprotein-exprimierende Effektorzellen verändern die
durch LPS-DC-stimulierte allogene T-Zell-Proliferation. Dies war mit einer verringerten
Bildung von DC/T-Zell-Konjugaten sowie mit einer Hemmung der IFN-γ-Sekretion und der
Ca2+-Mobilisation dieser T-Zellen assoziiert. Des Weiteren wurden eine reduzierte p-Tyrosin-
Akkumulation und kein Ausschluss des F-Aktin-Signals in der immunologischen Synapse,
der Kontaktstelle dieser DC/T-Zell-Konjugate, gefunden.
Zusammenfassend lassen diese Ergebnisse vermuten, dass HERV-Hüllproteine die T-Zell-
Proliferation nicht direkt beeinflussen, sich aber modulierend auf DCs auswirken und dadurch
mit deren allogene T-Zell-Proliferation interferieren.