Abstract

HIF-1α is a transcriptional regulator that functions in the adaptation of cells to hypoxic conditions; it strongly impacts the prognosis of patients with cancer. High-dose, intravenous, pharmacological ascorbate (P-AscH-), induces cytotoxicity and oxidative stress selectively in cancer cells by acting as a pro-drug for the delivery of hydrogen peroxide (H2O2); early clinical data suggest improved survival and inhibition of metastasis in patients being actively treated with P-AscH-. Previous studies have demonstrated that activation of HIF-1α is necessary for P-AscH- sensitivity. We hypothesized that pancreatic cancer (PDAC) progression and metastasis could be be targeted by P-AscH- via H2O2-mediated inhibition of HIF-1α stabilization. Our study demonstrates an oxygen- and prolyl hydroxylase-independent regulation of HIF-1α by P-AscH-. Additionally, P-AscH- decreased VEGF secretion in a dose-dependent manner that was reversible with catalase, consistent with an H2O2-mediated mechanism. Pharmacological and genetic manipulations of HIF-1α did not alter P-AscH--induced cytotoxicity. In vivo, P-AscH- inhibited tumor growth and VEGF expression. We conclude that P-AscH- suppresses the levels of HIF-1α protein in hypoxic conditions through a post-translational mechanism. These findings suggest potential new therapies specifically designed to inhibit the mechanisms that drive metastases as a part of PDAC treatment.

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