Integrated Pharmacodynamic Analysis Identifies Two Metabolic Adaption Pathways to Metformin in Breast Cancer

Late-phase clinical trials investigating metformin as a cancer therapy are underway. However, there remains controversy as to the mode of action of metformin in tumors at clinical doses. We conducted a clinical study integrating measurement of markers of systemic metabolism, dynamic FDG-PET-CT, tran...

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Autores principales: Lord, Simon R., Cheng, Wei-Chen, Liu, Dan, Gaude, Edoardo, Haider, Syed, Metcalf, Tom, Patel, Neel, Teoh, Eugene J., Gleeson, Fergus, Bradley, Kevin, Wigfield, Simon, Zois, Christos, McGowan, Daniel R., Ah-See, Mei-Lin, Thompson, Alastair M., Sharma, Anand, Bidaut, Luc, Pollak, Michael, Roy, Pankaj G., Karpe, Fredrik, James, Tim, English, Ruth, Adams, Rosie F., Campo, Leticia, Ayers, Lisa, Snell, Cameron, Roxanis, Ioannis, Frezza, Christian, Fenwick, John D., Buffa, Francesca M., Harris, Adrian L.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Cell Press 2018
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6224605/
https://www.ncbi.nlm.nih.gov/pubmed/30244975
http://dx.doi.org/10.1016/j.cmet.2018.08.021
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author Lord, Simon R.
Cheng, Wei-Chen
Liu, Dan
Gaude, Edoardo
Haider, Syed
Metcalf, Tom
Patel, Neel
Teoh, Eugene J.
Gleeson, Fergus
Bradley, Kevin
Wigfield, Simon
Zois, Christos
McGowan, Daniel R.
Ah-See, Mei-Lin
Thompson, Alastair M.
Sharma, Anand
Bidaut, Luc
Pollak, Michael
Roy, Pankaj G.
Karpe, Fredrik
James, Tim
English, Ruth
Adams, Rosie F.
Campo, Leticia
Ayers, Lisa
Snell, Cameron
Roxanis, Ioannis
Frezza, Christian
Fenwick, John D.
Buffa, Francesca M.
Harris, Adrian L.
author_facet Lord, Simon R.
Cheng, Wei-Chen
Liu, Dan
Gaude, Edoardo
Haider, Syed
Metcalf, Tom
Patel, Neel
Teoh, Eugene J.
Gleeson, Fergus
Bradley, Kevin
Wigfield, Simon
Zois, Christos
McGowan, Daniel R.
Ah-See, Mei-Lin
Thompson, Alastair M.
Sharma, Anand
Bidaut, Luc
Pollak, Michael
Roy, Pankaj G.
Karpe, Fredrik
James, Tim
English, Ruth
Adams, Rosie F.
Campo, Leticia
Ayers, Lisa
Snell, Cameron
Roxanis, Ioannis
Frezza, Christian
Fenwick, John D.
Buffa, Francesca M.
Harris, Adrian L.
author_sort Lord, Simon R.
collection PubMed
description Late-phase clinical trials investigating metformin as a cancer therapy are underway. However, there remains controversy as to the mode of action of metformin in tumors at clinical doses. We conducted a clinical study integrating measurement of markers of systemic metabolism, dynamic FDG-PET-CT, transcriptomics, and metabolomics at paired time points to profile the bioactivity of metformin in primary breast cancer. We show metformin reduces the levels of mitochondrial metabolites, activates multiple mitochondrial metabolic pathways, and increases 18-FDG flux in tumors. Two tumor groups are identified with distinct metabolic responses, an OXPHOS transcriptional response (OTR) group for which there is an increase in OXPHOS gene transcription and an FDG response group with increased 18-FDG uptake. Increase in proliferation, as measured by a validated proliferation signature, suggested that patients in the OTR group were resistant to metformin treatment. We conclude that mitochondrial response to metformin in primary breast cancer may define anti-tumor effect.
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spelling pubmed-62246052018-11-13 Integrated Pharmacodynamic Analysis Identifies Two Metabolic Adaption Pathways to Metformin in Breast Cancer Lord, Simon R. Cheng, Wei-Chen Liu, Dan Gaude, Edoardo Haider, Syed Metcalf, Tom Patel, Neel Teoh, Eugene J. Gleeson, Fergus Bradley, Kevin Wigfield, Simon Zois, Christos McGowan, Daniel R. Ah-See, Mei-Lin Thompson, Alastair M. Sharma, Anand Bidaut, Luc Pollak, Michael Roy, Pankaj G. Karpe, Fredrik James, Tim English, Ruth Adams, Rosie F. Campo, Leticia Ayers, Lisa Snell, Cameron Roxanis, Ioannis Frezza, Christian Fenwick, John D. Buffa, Francesca M. Harris, Adrian L. Cell Metab Article Late-phase clinical trials investigating metformin as a cancer therapy are underway. However, there remains controversy as to the mode of action of metformin in tumors at clinical doses. We conducted a clinical study integrating measurement of markers of systemic metabolism, dynamic FDG-PET-CT, transcriptomics, and metabolomics at paired time points to profile the bioactivity of metformin in primary breast cancer. We show metformin reduces the levels of mitochondrial metabolites, activates multiple mitochondrial metabolic pathways, and increases 18-FDG flux in tumors. Two tumor groups are identified with distinct metabolic responses, an OXPHOS transcriptional response (OTR) group for which there is an increase in OXPHOS gene transcription and an FDG response group with increased 18-FDG uptake. Increase in proliferation, as measured by a validated proliferation signature, suggested that patients in the OTR group were resistant to metformin treatment. We conclude that mitochondrial response to metformin in primary breast cancer may define anti-tumor effect. Cell Press 2018-11-06 /pmc/articles/PMC6224605/ /pubmed/30244975 http://dx.doi.org/10.1016/j.cmet.2018.08.021 Text en Crown Copyright © 2018 Published by Elsevier Inc. All rights reserved. http://creativecommons.org/licenses/by/4.0/ This is an open access article under the CC BY license (http://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Lord, Simon R.
Cheng, Wei-Chen
Liu, Dan
Gaude, Edoardo
Haider, Syed
Metcalf, Tom
Patel, Neel
Teoh, Eugene J.
Gleeson, Fergus
Bradley, Kevin
Wigfield, Simon
Zois, Christos
McGowan, Daniel R.
Ah-See, Mei-Lin
Thompson, Alastair M.
Sharma, Anand
Bidaut, Luc
Pollak, Michael
Roy, Pankaj G.
Karpe, Fredrik
James, Tim
English, Ruth
Adams, Rosie F.
Campo, Leticia
Ayers, Lisa
Snell, Cameron
Roxanis, Ioannis
Frezza, Christian
Fenwick, John D.
Buffa, Francesca M.
Harris, Adrian L.
Integrated Pharmacodynamic Analysis Identifies Two Metabolic Adaption Pathways to Metformin in Breast Cancer
title Integrated Pharmacodynamic Analysis Identifies Two Metabolic Adaption Pathways to Metformin in Breast Cancer
title_full Integrated Pharmacodynamic Analysis Identifies Two Metabolic Adaption Pathways to Metformin in Breast Cancer
title_fullStr Integrated Pharmacodynamic Analysis Identifies Two Metabolic Adaption Pathways to Metformin in Breast Cancer
title_full_unstemmed Integrated Pharmacodynamic Analysis Identifies Two Metabolic Adaption Pathways to Metformin in Breast Cancer
title_short Integrated Pharmacodynamic Analysis Identifies Two Metabolic Adaption Pathways to Metformin in Breast Cancer
title_sort integrated pharmacodynamic analysis identifies two metabolic adaption pathways to metformin in breast cancer
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6224605/
https://www.ncbi.nlm.nih.gov/pubmed/30244975
http://dx.doi.org/10.1016/j.cmet.2018.08.021
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