Branched-chain α-ketoacids are preferentially reaminated and activate protein synthesis in the heart
Systemic modulation of branched-chain keto acid (BCKA) metabolism alters cardiac health. Here, the authors define the major fates of BCKA in the heart and demonstrate that acute exposure to BCKA levels found in obesity activates cardiac protein synthesis and markedly alters the heart phosphoproteome...
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Nature Portfolio
2021
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oai:doaj.org-article:13e6e6480fe7436f81d6416509424af32021-12-02T17:03:35ZBranched-chain α-ketoacids are preferentially reaminated and activate protein synthesis in the heart10.1038/s41467-021-21962-22041-1723https://doaj.org/article/13e6e6480fe7436f81d6416509424af32021-03-01T00:00:00Zhttps://doi.org/10.1038/s41467-021-21962-2https://doaj.org/toc/2041-1723Systemic modulation of branched-chain keto acid (BCKA) metabolism alters cardiac health. Here, the authors define the major fates of BCKA in the heart and demonstrate that acute exposure to BCKA levels found in obesity activates cardiac protein synthesis and markedly alters the heart phosphoproteome.Jacquelyn M. WalejkoBridgette A. ChristopherScott B. CrownGuo-Fang ZhangAdrian Pickar-OliverTakeshi YoneshiroMatthew W. FosterStephani PageStephan van VlietOlga IlkayevaMichael J. MuehlbauerMatthew W. CarsonJoseph T. BrozinickCraig D. HammondRuth E. GimenoM. Arthur MoseleyShingo KajimuraCharles A. GersbachChristopher B. NewgardPhillip J. WhiteRobert W. McGarrahNature PortfolioarticleScienceQENNature Communications, Vol 12, Iss 1, Pp 1-14 (2021) |
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Science Q Jacquelyn M. Walejko Bridgette A. Christopher Scott B. Crown Guo-Fang Zhang Adrian Pickar-Oliver Takeshi Yoneshiro Matthew W. Foster Stephani Page Stephan van Vliet Olga Ilkayeva Michael J. Muehlbauer Matthew W. Carson Joseph T. Brozinick Craig D. Hammond Ruth E. Gimeno M. Arthur Moseley Shingo Kajimura Charles A. Gersbach Christopher B. Newgard Phillip J. White Robert W. McGarrah Branched-chain α-ketoacids are preferentially reaminated and activate protein synthesis in the heart |
description |
Systemic modulation of branched-chain keto acid (BCKA) metabolism alters cardiac health. Here, the authors define the major fates of BCKA in the heart and demonstrate that acute exposure to BCKA levels found in obesity activates cardiac protein synthesis and markedly alters the heart phosphoproteome. |
format |
article |
author |
Jacquelyn M. Walejko Bridgette A. Christopher Scott B. Crown Guo-Fang Zhang Adrian Pickar-Oliver Takeshi Yoneshiro Matthew W. Foster Stephani Page Stephan van Vliet Olga Ilkayeva Michael J. Muehlbauer Matthew W. Carson Joseph T. Brozinick Craig D. Hammond Ruth E. Gimeno M. Arthur Moseley Shingo Kajimura Charles A. Gersbach Christopher B. Newgard Phillip J. White Robert W. McGarrah |
author_facet |
Jacquelyn M. Walejko Bridgette A. Christopher Scott B. Crown Guo-Fang Zhang Adrian Pickar-Oliver Takeshi Yoneshiro Matthew W. Foster Stephani Page Stephan van Vliet Olga Ilkayeva Michael J. Muehlbauer Matthew W. Carson Joseph T. Brozinick Craig D. Hammond Ruth E. Gimeno M. Arthur Moseley Shingo Kajimura Charles A. Gersbach Christopher B. Newgard Phillip J. White Robert W. McGarrah |
author_sort |
Jacquelyn M. Walejko |
title |
Branched-chain α-ketoacids are preferentially reaminated and activate protein synthesis in the heart |
title_short |
Branched-chain α-ketoacids are preferentially reaminated and activate protein synthesis in the heart |
title_full |
Branched-chain α-ketoacids are preferentially reaminated and activate protein synthesis in the heart |
title_fullStr |
Branched-chain α-ketoacids are preferentially reaminated and activate protein synthesis in the heart |
title_full_unstemmed |
Branched-chain α-ketoacids are preferentially reaminated and activate protein synthesis in the heart |
title_sort |
branched-chain α-ketoacids are preferentially reaminated and activate protein synthesis in the heart |
publisher |
Nature Portfolio |
publishDate |
2021 |
url |
https://doaj.org/article/13e6e6480fe7436f81d6416509424af3 |
work_keys_str_mv |
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