Abstract
Abstract Glioblastoma remains to be one of the most lethal solid cancers and novel therapies are urgently needed. There is increasing interest in the role of the HGF/MET pathway in the response of glioblastoma to radiotherapy. c-MET-mediated radioresistance may be partially induced via proinvasive and DNA damageresponse pathways and HGF may be involved in the regulation of immune responses. Here, we explored the role of the c-MET pathway in response to radiotherapy and investigated potential modes of action that mediate synergistic effects of MET pathway inhibition and irradiation in syngeneic murine glioma models in vitro and in vivo. Murine glioma cells express HGF and c-MET and respond with c-MET phosphorylation upon exposure to exogenous HGF. In vitro, glioma cell viability and proliferation are not affected by pharmacological or genetic c-MET pathway interference, and the c-MET inhibitor tepotinib fails to sensitize glioma cells to irradiation. Conversely, in vivo c-MET inhibition combined with focal radiotherapy synergistically prolongs survival in two syngeneic orthotopic glioma models compared with either treatment alone. Complementary studies demonstrated that synergy was lost when gliomas were established and treated in immunodeficient mice, and importantly, also when c-MET gene expression was disrupted in the tumor. Thus, synergistic suppression of experimental syngeneic glioma growth by irradiation and c-MET inhibition requires at least two mechanisms, expression of c-MET in the tumor and a functional immune system. In summary, our data suggest clinical evaluation of c-MET pathway inhibition in combination with radiotherapy in human glioblastoma.
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