Kristen Olney scite author profile

Kristen Olney

5Publications

113Citation Statements Received

119Citation Statements Given

How they've been cited

106

How they cite others

113

Affiliations

University of Iowa

Publications

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Inhibitors of hydroperoxide metabolism enhance ascorbate-induced cytotoxicity

Olney

Erve

et al. 2013

Free Radical Research

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Pharmacological ascorbate, via its oxidation, has been proposed as a pro-drug for the delivery of H2O2 to tumors. Pharmacological ascorbate decreases clonogenic survival of pancreatic cancer cells, which can be reversed by treatment with scavengers of H2O2. The goal of this study was to determine if inhibitors of intracellular hydroperoxide detoxification could enhance the cytotoxic effects of ascorbate. Human pancreatic cancer cells were treated with ascorbate alone or in combination with inhibitors of hydroperoxide removal including the glutathione disulfide reductase inhibitor 1,3 bis (2-chloroethyl)-1-nitrosurea (BCNU), siRNA targeted to glutathione disulfide reductase (siGR), and 2-deoxy-D-glucose (2DG), which inhibits glucose metabolism. Changes in the intracellular concentration of H2O2 were determined by analysis of the rate of aminotriazole-mediated inactivation of endogenous catalase activity. Pharmacological ascorbate increased intracellular H2O2 and depleted intracellular glutathione. When inhibitors of H2O2 metabolism were combined with pharmacological ascorbate the increase in intracellular H2O2 was amplified and cytotoxicity was enhanced. We conclude that inclusion of agents that inhibit cellular peroxide removal produced by pharmacological ascorbate leads to changes in the intracellular redox state resulting in enhanced cytotoxicity.

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Regulation of pancreatic cancer growth by superoxide

Nelson

Simons

et al. 2012

Molecular Carcinogenesis

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K-ras mutations have been identified in up to 95% of pancreatic cancers, implying their critical role in the molecular pathogenesis. Expression of K-ras oncogene in an immortalized human pancreatic ductal epithelial cell line, originally derived from normal pancreas (H6c7), induced the formation of carcinoma in mice. We hypothesized that K-ras oncogene correlates with increased non-mitochondrial-generated superoxide (O2·−), which could be involved in regulating cell growth contributing to tumor progression. In the H6c7 cell line and its derivatives, H6c7er-Kras+ (H6c7 cells expressing K-ras oncogene), and H6c7eR-KrasT (tumorigenic H6c7 cells expressing K-ras oncogene), there was an increase in hydroethidine fluorescence in cell lines that express K-ras. Western blots and activity assays for the antioxidant enzymes that detoxify O2·− were similar in these cell lines suggesting that the increase in hydroethidine fluorescence was not due to decreased antioxidant capacity. To determine a possible non-mitochondrial source of the increased levels of O2·−, Western analysis demonstrated the absence of NADPH oxidase-2 (NOX2) in H6c7 cells but present in the H6c7 cell lines expressing K-ras and other pancreatic cancer cell lines. Inhibition of NOX2 decreased hydroethidine fluorescence and clonogenic survival. Furthermore, in the cell lines with the K-ras oncogene, overexpression of superoxide dismutases, that detoxify non-mitochondrial sources of O2·−, and treatment with the small molecule O2·− scavenger Tempol, also decreased hydroethidine fluorescence, inhibited clonogenic survival and inhibited growth of tumor xenografts. Thus, O2·− produced by NOX2 in pancreatic cancer cells with K-ras, may regulate pancreatic cancer cell growth.

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Tempol Inhibits Pancreatic Cancer Cell Growth

Olney

Schrock

et al. 2010

Free Radical Biology and Medicine

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Inhibitors of Hydroperoxide Metabolism Enhance Ascorbateinduced Cytotoxicity

Du¹,

Olney²,

Witmer³

et al. 2010

Free Radical Biology and Medicine

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Pharmacological ascorbate, via its oxidation, has been proposed as a pro-drug for the delivery of H 2 O 2 to tumors. Pharmacological ascorbate decreases clonogenic survival of pancreatic cancer cells, which can be reversed by treatment with scavengers of H 2 O 2. The goal of this study was to determine if inhibitors of intracellular hydroperoxide detoxification could enhance the cytotoxic effects of ascorbate. Human pancreatic cancer cells were treated with ascorbate alone or in combination with inhibitors of hydroperoxide removal including the glutathione disulfide reductase inhibitor 1,3 bis (2-chloroethyl)-1-nitrosurea (BCNU), siRNA targeted to glutathione disulfide reductase (siGR), and 2-deoxy-D-glucose (2DG), which inhibits glucose metabolism. Changes in the intracellular concentration of H 2 O 2 were determined by analysis of the rate of aminotriazole-mediated inactivation of endogenous catalase activity. Pharmacological ascorbate increased intracellular H 2 O 2 and depleted intracellular glutathione. When inhibitors of H 2 O 2 metabolism were combined with pharmacological ascorbate the increase in intracellular H 2 O 2 was amplified and cytotoxicity was enhanced. We conclude that inclusion of agents that inhibit cellular peroxide removal produced by pharmacological ascorbate leads to changes in the intracellular redox state resulting in enhanced cytotoxicity.

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The Role of Redox Active Transition Metals in Ascorbate-Induced Cytotoxicity in Pancreatic Cancer

Rawal

Moser

et al. 2012

Free Radical Biology and Medicine

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Kristen Olney

Inhibitors of hydroperoxide metabolism enhance ascorbate-induced cytotoxicity

Regulation of pancreatic cancer growth by superoxide

Tempol Inhibits Pancreatic Cancer Cell Growth

Inhibitors of Hydroperoxide Metabolism Enhance Ascorbateinduced Cytotoxicity

The Role of Redox Active Transition Metals in Ascorbate-Induced Cytotoxicity in Pancreatic Cancer

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