The Genomic Analysis of Lactic Acidosis and Acidosis Response in Human Cancers

The tumor microenvironment has a significant impact on tumor development. Two important determinants in this environment are hypoxia and lactic acidosis. Although lactic acidosis has long been recognized as an important factor in cancer, relatively little is known about how cells respond to lactic a...

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Autores principales: Chen, Julia Ling-Yu, Lucas, Joseph E., Schroeder, Thies, Mori, Seiichi, Wu, Jianli, Nevins, Joseph, Dewhirst, Mark, West, Mike, Chi, Jen-Tsan
Formato: Texto
Lenguaje:English
Publicado: Public Library of Science 2008
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2585811/
https://www.ncbi.nlm.nih.gov/pubmed/19057672
http://dx.doi.org/10.1371/journal.pgen.1000293
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author Chen, Julia Ling-Yu
Lucas, Joseph E.
Schroeder, Thies
Mori, Seiichi
Wu, Jianli
Nevins, Joseph
Dewhirst, Mark
West, Mike
Chi, Jen-Tsan
author_facet Chen, Julia Ling-Yu
Lucas, Joseph E.
Schroeder, Thies
Mori, Seiichi
Wu, Jianli
Nevins, Joseph
Dewhirst, Mark
West, Mike
Chi, Jen-Tsan
author_sort Chen, Julia Ling-Yu
collection PubMed
description The tumor microenvironment has a significant impact on tumor development. Two important determinants in this environment are hypoxia and lactic acidosis. Although lactic acidosis has long been recognized as an important factor in cancer, relatively little is known about how cells respond to lactic acidosis and how that response relates to cancer phenotypes. We develop genome-scale gene expression studies to dissect transcriptional responses of primary human mammary epithelial cells to lactic acidosis and hypoxia in vitro and to explore how they are linked to clinical tumor phenotypes in vivo. The resulting experimental signatures of responses to lactic acidosis and hypoxia are evaluated in a heterogeneous set of breast cancer datasets. A strong lactic acidosis response signature identifies a subgroup of low-risk breast cancer patients having distinct metabolic profiles suggestive of a preference for aerobic respiration. The association of lactic acidosis response with good survival outcomes may relate to the role of lactic acidosis in directing energy generation toward aerobic respiration and utilization of other energy sources via inhibition of glycolysis. This “inhibition of glycolysis” phenotype in tumors is likely caused by the repression of glycolysis gene expression and Akt inhibition. Our study presents a genomic evaluation of the prognostic information of a lactic acidosis response independent of the hypoxic response. Our results identify causal roles of lactic acidosis in metabolic reprogramming, and the direct functional consequence of lactic acidosis pathway activity on cellular responses and tumor development. The study also demonstrates the utility of genomic analysis that maps expression-based findings from in vitro experiments to human samples to assess links to in vivo clinical phenotypes.
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spelling pubmed-25858112008-12-05 The Genomic Analysis of Lactic Acidosis and Acidosis Response in Human Cancers Chen, Julia Ling-Yu Lucas, Joseph E. Schroeder, Thies Mori, Seiichi Wu, Jianli Nevins, Joseph Dewhirst, Mark West, Mike Chi, Jen-Tsan PLoS Genet Research Article The tumor microenvironment has a significant impact on tumor development. Two important determinants in this environment are hypoxia and lactic acidosis. Although lactic acidosis has long been recognized as an important factor in cancer, relatively little is known about how cells respond to lactic acidosis and how that response relates to cancer phenotypes. We develop genome-scale gene expression studies to dissect transcriptional responses of primary human mammary epithelial cells to lactic acidosis and hypoxia in vitro and to explore how they are linked to clinical tumor phenotypes in vivo. The resulting experimental signatures of responses to lactic acidosis and hypoxia are evaluated in a heterogeneous set of breast cancer datasets. A strong lactic acidosis response signature identifies a subgroup of low-risk breast cancer patients having distinct metabolic profiles suggestive of a preference for aerobic respiration. The association of lactic acidosis response with good survival outcomes may relate to the role of lactic acidosis in directing energy generation toward aerobic respiration and utilization of other energy sources via inhibition of glycolysis. This “inhibition of glycolysis” phenotype in tumors is likely caused by the repression of glycolysis gene expression and Akt inhibition. Our study presents a genomic evaluation of the prognostic information of a lactic acidosis response independent of the hypoxic response. Our results identify causal roles of lactic acidosis in metabolic reprogramming, and the direct functional consequence of lactic acidosis pathway activity on cellular responses and tumor development. The study also demonstrates the utility of genomic analysis that maps expression-based findings from in vitro experiments to human samples to assess links to in vivo clinical phenotypes. Public Library of Science 2008-12-05 /pmc/articles/PMC2585811/ /pubmed/19057672 http://dx.doi.org/10.1371/journal.pgen.1000293 Text en Chen et al. http://creativecommons.org/licenses/by/4.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are properly credited.
spellingShingle Research Article
Chen, Julia Ling-Yu
Lucas, Joseph E.
Schroeder, Thies
Mori, Seiichi
Wu, Jianli
Nevins, Joseph
Dewhirst, Mark
West, Mike
Chi, Jen-Tsan
The Genomic Analysis of Lactic Acidosis and Acidosis Response in Human Cancers
title The Genomic Analysis of Lactic Acidosis and Acidosis Response in Human Cancers
title_full The Genomic Analysis of Lactic Acidosis and Acidosis Response in Human Cancers
title_fullStr The Genomic Analysis of Lactic Acidosis and Acidosis Response in Human Cancers
title_full_unstemmed The Genomic Analysis of Lactic Acidosis and Acidosis Response in Human Cancers
title_short The Genomic Analysis of Lactic Acidosis and Acidosis Response in Human Cancers
title_sort genomic analysis of lactic acidosis and acidosis response in human cancers
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2585811/
https://www.ncbi.nlm.nih.gov/pubmed/19057672
http://dx.doi.org/10.1371/journal.pgen.1000293
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