Research Papers:
Calpastatin phosphorylation regulates radiation-induced calpain activity in glioblastoma
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Abstract
Emily A. Bassett1, Kamalakannan Palanichamy1, Mitchell Pearson1, Joseph P. McElroy2, Saikh Jaharul Haque1, Erica Hlavin Bell1 and Arnab Chakravarti1
1Department of Radiation Oncology, The Ohio State University Wexner Medical Center, Columbus, OH, USA
2Center for Biostatistics, Department of Biomedical Informatics, The Ohio State University, Columbus, OH, USA
Correspondence to:
Arnab Chakravarti, email: [email protected]
Keywords: glioblastoma; phospho-proteomic profiling; radiation response; calpastatin; casein kinase 2
Received: December 23, 2017 Accepted: February 10, 2018 Epub: February 19, 2018 Published: March 06, 2018
ABSTRACT
Glioblastoma (GBM) is an aggressive, malignant brain tumor that inevitably develops resistance to conventional chemotherapy and radiation treatments. In order to identify signaling pathways involved in the development of radiation resistance, we performed mass spectrometry-based phospho-proteomic profiling of GBM cell lines and normal human astrocytes before and after radiation treatment. We found radiation induced phosphorylation of a number of proteins including calpastatin, specifically in GBM stem cells (GSCs). Herein, we focused on calpastatin, an endogenous inhibitor of calpain proteases. Radiation-induced phosphorylation of calpastatin at Ser-633 within the inhibitory domain was validated with a phospho-specific antibody. In order to test the functional significance of phosphorylated calpastatin, we utilized site-directed mutagenesis to generate phospho-inactive (Ser633Ala) and phospho-mimetic (Ser633Glu) mutant calpastatin. GBM cell lines stably expressing the mutant calpastatin showed that phosphorylation was necessary for radiation-induced calpain activation. We also showed that casein kinase 2, a pro-survival kinase overexpressed in many cancer types, phosphorylated calpastatin at Ser-633. Our results indicate that calpastatin phosphorylation promotes radiation resistance in GBM cells by increasing the activity of calpain proteases, which are known to promote survival and invasion in cancer.
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