Cisplatin generates oxidative stress which is accompanied by rapid shifts in central carbon metabolism

Cisplatin is commonly utilized in the treatment of solid tumors. Its mechanism of action is complex and multiple mechanisms of resistance have been described. We sought to determine the impact of cisplatin-generated oxidative stress on head and neck squamous cell carcinoma (HNSCC) proliferation, sur...

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Veröffentlicht in:	Scientific reports 2018-03, Vol.8 (1), p.4306-12, Article 4306
Hauptverfasser:	Yu, Wangie, Chen, Yunyun, Dubrulle, Julien, Stossi, Fabio, Putluri, Vasanta, Sreekumar, Arun, Putluri, Nagireddy, Baluya, Dodge, Lai, Stephen Y., Sandulache, Vlad C.
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Schlagworte:	13/106 14/63 631/67/1536 639/638/92/1643 64/60 Carbon Cell death Cell survival Cellular stress response Chemotherapy Cisplatin Citric acid Cytotoxicity Deoxyribonucleic acid DNA Fluctuations Glycolysis Head & neck cancer Humanities and Social Sciences Lactic acid Metabolic flux Metabolism multidisciplinary Neutralization Oxidative stress p53 Protein Pentose phosphate pathway Pyruvic acid Science Science (multidisciplinary) Solid tumors Squamous cell carcinoma Tricarboxylic acid cycle
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description	Cisplatin is commonly utilized in the treatment of solid tumors. Its mechanism of action is complex and multiple mechanisms of resistance have been described. We sought to determine the impact of cisplatin-generated oxidative stress on head and neck squamous cell carcinoma (HNSCC) proliferation, survival and metabolic activity in order to identify a potential metabolic signature associated with cisplatin response. DNA-bound cisplatin represents a small fraction of total intra-cellular cisplatin but generates a robust oxidative stress response. Neutralization of oxidative stress reverses cisplatin toxicity independent of the mechanism of cell death and TP53 mutational status. Cisplatin-induced oxidative stress triggers rapid shifts in carbon flux in 3 commonly utilized catabolic pathways: glycolysis, pentose phosphate pathway and citric acid cycle. Among these metabolic shifts, decreased flux from pyruvate into lactate is the only metabolic effect consistently observed across multiple HNSCC cell lines of varying genomic backgrounds and may reflect differential cisplatin sensitivity. Oxidative stress is a critical component of cisplatin cytotoxicity in HNSCC and is reflected in acute changes in carbon flux from pyruvate into lactate. This suggests that lactate may contribute to a metabolic signature of acute cisplatin toxicity, and could prove useful in optimizing cisplatin-based treatment regimens in HNSCC.
doi_str_mv	10.1038/s41598-018-22640-y
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Its mechanism of action is complex and multiple mechanisms of resistance have been described. We sought to determine the impact of cisplatin-generated oxidative stress on head and neck squamous cell carcinoma (HNSCC) proliferation, survival and metabolic activity in order to identify a potential metabolic signature associated with cisplatin response. DNA-bound cisplatin represents a small fraction of total intra-cellular cisplatin but generates a robust oxidative stress response. Neutralization of oxidative stress reverses cisplatin toxicity independent of the mechanism of cell death and TP53 mutational status. Cisplatin-induced oxidative stress triggers rapid shifts in carbon flux in 3 commonly utilized catabolic pathways: glycolysis, pentose phosphate pathway and citric acid cycle. Among these metabolic shifts, decreased flux from pyruvate into lactate is the only metabolic effect consistently observed across multiple HNSCC cell lines of varying genomic backgrounds and may reflect differential cisplatin sensitivity. Oxidative stress is a critical component of cisplatin cytotoxicity in HNSCC and is reflected in acute changes in carbon flux from pyruvate into lactate. 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Its mechanism of action is complex and multiple mechanisms of resistance have been described. We sought to determine the impact of cisplatin-generated oxidative stress on head and neck squamous cell carcinoma (HNSCC) proliferation, survival and metabolic activity in order to identify a potential metabolic signature associated with cisplatin response. DNA-bound cisplatin represents a small fraction of total intra-cellular cisplatin but generates a robust oxidative stress response. Neutralization of oxidative stress reverses cisplatin toxicity independent of the mechanism of cell death and TP53 mutational status. Cisplatin-induced oxidative stress triggers rapid shifts in carbon flux in 3 commonly utilized catabolic pathways: glycolysis, pentose phosphate pathway and citric acid cycle. Among these metabolic shifts, decreased flux from pyruvate into lactate is the only metabolic effect consistently observed across multiple HNSCC cell lines of varying genomic backgrounds and may reflect differential cisplatin sensitivity. Oxidative stress is a critical component of cisplatin cytotoxicity in HNSCC and is reflected in acute changes in carbon flux from pyruvate into lactate. This suggests that lactate may contribute to a metabolic signature of acute cisplatin toxicity, and could prove useful in optimizing cisplatin-based treatment regimens in HNSCC.</abstract><cop>London</cop><pub>Nature Publishing Group UK</pub><pmid>29523854</pmid><doi>10.1038/s41598-018-22640-y</doi><tpages>12</tpages><oa>free_for_read</oa></addata></record>
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subjects	13/106 14/63 631/67/1536 639/638/92/1643 64/60 Carbon Cell death Cell survival Cellular stress response Chemotherapy Cisplatin Citric acid Cytotoxicity Deoxyribonucleic acid DNA Fluctuations Glycolysis Head & neck cancer Humanities and Social Sciences Lactic acid Metabolic flux Metabolism multidisciplinary Neutralization Oxidative stress p53 Protein Pentose phosphate pathway Pyruvic acid Science Science (multidisciplinary) Solid tumors Squamous cell carcinoma Tricarboxylic acid cycle
title	Cisplatin generates oxidative stress which is accompanied by rapid shifts in central carbon metabolism
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