Blockade of SOX4 mediated DNA repair by SPARC enhances radioresponse in medulloblastoma
C Chetty, R Dontula, M Gujrati, DH Dinh, SS Lakka - Cancer letters, 2012 - Elsevier
C Chetty, R Dontula, M Gujrati, DH Dinh, SS Lakka
Cancer letters, 2012•ElsevierSPARC is a matricellular glycoprotein and a putative radioresistance-reversal-gene. We
therefore explored the possibility of SPARC expression on medulloblastoma radiosensitivity
in vitro and in vivo. The combined treatment of the SPARC and irradiation resulted in
increased cell death when compared to cells treated with irradiation alone in vitro and in
vivo. SPARC expression prior to irradiation suppressed checkpoints-1,-2 and p53
phosphorylation and DNA repair gene XRCC1. We also demonstrate that SPARC …
therefore explored the possibility of SPARC expression on medulloblastoma radiosensitivity
in vitro and in vivo. The combined treatment of the SPARC and irradiation resulted in
increased cell death when compared to cells treated with irradiation alone in vitro and in
vivo. SPARC expression prior to irradiation suppressed checkpoints-1,-2 and p53
phosphorylation and DNA repair gene XRCC1. We also demonstrate that SPARC …
SPARC is a matricellular glycoprotein and a putative radioresistance-reversal-gene. We therefore explored the possibility of SPARC expression on medulloblastoma radiosensitivity in vitro and in vivo. The combined treatment of the SPARC and irradiation resulted in increased cell death when compared to cells treated with irradiation alone in vitro and in vivo. SPARC expression prior to irradiation suppressed checkpoints-1,-2 and p53 phosphorylation and DNA repair gene XRCC1. We also demonstrate that SPARC expression suppressed irradiation induced SOX-4 mediated DNA repair. These results provide evidence of the anti-tumor effect of combining SPARC with irradiation as a new therapeutic strategy for the treatment of medulloblastoma.
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