Literature DB >> 33723250

Branched-chain α-ketoacids are preferentially reaminated and activate protein synthesis in the heart.

Jacquelyn M Walejko1, Bridgette A Christopher1,2, Scott B Crown1, Guo-Fang Zhang1,3,4, Adrian Pickar-Oliver5,6, Takeshi Yoneshiro7, Matthew W Foster8, Stephani Page1, Stephan van Vliet1, Olga Ilkayeva1,3,4, Michael J Muehlbauer1,4, Matthew W Carson9, Joseph T Brozinick9, Craig D Hammond9, Ruth E Gimeno9, M Arthur Moseley8, Shingo Kajimura7, Charles A Gersbach5,6,10, Christopher B Newgard1,3,4,11, Phillip J White12,13,14,15, Robert W McGarrah16,17,18.   

Abstract

Branched-chain amino acids (BCAA) and their cognate α-ketoacids (BCKA) are elevated in an array of cardiometabolic diseases. Here we demonstrate that the major metabolic fate of uniformly-13C-labeled α-ketoisovalerate ([U-13C]KIV) in the heart is reamination to valine. Activation of cardiac branched-chain α-ketoacid dehydrogenase (BCKDH) by treatment with the BCKDH kinase inhibitor, BT2, does not impede the strong flux of [U-13C]KIV to valine. Sequestration of BCAA and BCKA away from mitochondrial oxidation is likely due to low levels of expression of the mitochondrial BCAA transporter SLC25A44 in the heart, as its overexpression significantly lowers accumulation of [13C]-labeled valine from [U-13C]KIV. Finally, exposure of perfused hearts to levels of BCKA found in obese rats increases phosphorylation of the translational repressor 4E-BP1 as well as multiple proteins in the MEK-ERK pathway, leading to a doubling of total protein synthesis. These data suggest that elevated BCKA levels found in obesity may contribute to pathologic cardiac hypertrophy via chronic activation of protein synthesis.

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Year:  2021        PMID: 33723250      PMCID: PMC7960706          DOI: 10.1038/s41467-021-21962-2

Source DB:  PubMed          Journal:  Nat Commun        ISSN: 2041-1723            Impact factor:   14.919


  62 in total

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