Reducing branched-chain amino acids improves cardiac stress response in mice by decreasing histone H3K23 propionylation
Zhi Yang, … , Danish Sayed, Maha Abdellatif
Zhi Yang, … , Danish Sayed, Maha Abdellatif
Published September 5, 2023
Citation Information: J Clin Invest. 2023;133(22):e169399. https://doi.org/10.1172/JCI169399.
View: Text | PDF
Research Article Cardiology Metabolism

Reducing branched-chain amino acids improves cardiac stress response in mice by decreasing histone H3K23 propionylation

Abstract

Identification of branched-chain amino acid (BCAA) oxidation enzymes in the nucleus led us to predict that they are a source of the propionyl-CoA that is utilized for histone propionylation and, thereby, regulate gene expression. To investigate the effects of BCAAs on the development of cardiac hypertrophy and failure, we applied pressure overload on the heart in mice maintained on a diet with standard levels of BCAAs (BCAA control) versus a BCAA-free diet. The former was associated with an increase in histone H3K23-propionyl (H3K23Pr) at the promoters of upregulated genes (e.g., cell signaling and extracellular matrix genes) and a decrease at the promoters of downregulated genes (e.g., electron transfer complex [ETC I–V] and metabolic genes). Intriguingly, the BCAA-free diet tempered the increases in promoter H3K23Pr, thus reducing collagen gene expression and fibrosis during cardiac hypertrophy. Conversely, the BCAA-free diet inhibited the reductions in promoter H3K23Pr and abolished the downregulation of ETC I–V subunits, enhanced mitochondrial respiration, and curbed the progression of cardiac hypertrophy. Thus, lowering the intake of BCAAs reduced pressure overload–induced changes in histone propionylation–dependent gene expression in the heart, which retarded the development of cardiomyopathy.

Authors

Zhi Yang, Minzhen He, Julianne Austin, Danish Sayed, Maha Abdellatif

×

Figure 4

Pressure overload–induced mRNA expression correlates with changes in promoter H3K23Pr and is depressed by a BCAA-free diet.

Options: View larger image (or click on image) Download as PowerPoint
Pressure overload–induced mRNA expression correlates with changes in pro...
(AH) H3K23Pr ChIP-Seq (–1,000 to +1,000) and RNA-Seq data from the 1-week TAC experiment described in Figure 3 were aligned by gene name and then sorted according to the genes’ mRNA LFCs for TAC/sham that were significantly upregulated (padj ≤ 0.05) in hearts of mice on (A) a control diet or (C) a BCAA-free (0BCAA) diet, or significantly downregulated (padj ≤ 0.05) in the hearts of mice on (B) a control diet or (D) a BCAA-free (0BCAA) diet. The LFCs of mRNA expression (RNA-Seq, left) and promoter H3K23Pr (right) changes in the TAC or sham-operated hearts from these mice are presented as violin plots. (EH) Spearman’s correlation analyses of LFCs of mRNA expression versus LFCs of promoter H3K23Pr in TAC or sham-operated hearts showing (E and G) those for the significantly upregulated genes and (F and H) for the significantly downregulated genes.