Abstract
Glioblastoma (GBM) is a fast-growing primary brain tumor characterized by high invasiveness and resistance. This results in poor patient survival. Resistance is caused by many factors, including cell-extracellular matrix (ECM) interactions. Here, we addressed the role of adhesion protein integrin α2, which we identified in a high-throughput screen for novel potential targets in GBM cells treated with standard therapy consisting of temozolomide (TMZ) and radiation. In our study, we used a range of primary/stem-like and established GBM cell models in vitro and in vivo. To identify regulatory mechanisms, we employed high-throughput kinome profiling, Western blotting, immunofluorescence staining, reporter, and activity assays. Our data showed that integrin α2 is overexpressed in GBM compared to normal brain and, that its deletion causes radiochemosensitization. Similarly, invasion and adhesion were significantly reduced in TMZ-irradiated GBM cell models. Furthermore, we found that integrin α2-knockdown impairs the proliferation of GBM cells without affecting DNA damage repair. At the mechanistic level, we found that integrin α2 affects the activity of activating transcription factor 1 (ATF1) and modulates the expression of extracellular signal-regulated kinase 1 (ERK1) regulated by extracellular signals. Finally, we demonstrated that integrin α2-deficiency inhibits tumor growth and thereby prolongs the survival of mice with orthotopically growing GBM xenografts. Taken together our data suggest that integrin α2 may be a promising target to overcome GBM resistance to radio- and chemotherapy. Thus, it would be worth evaluating how efficient and safe the adjuvant use of integrin α2 inhibitors is to standard radio(chemo)therapy in GBM.
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