Litcius/Paper detail

Short-chain fatty acids activate acetyltransferase p300

Sydney P Thomas, John M Denu

2021eLife135 citationsDOIOpen Access PDF

Abstract

Short-chain fatty acids (SCFAs) acetate, propionate, and butyrate are produced in large quantities by the gut microbiome and contribute to a wide array of physiological processes. While the underlying mechanisms are largely unknown, many effects of SCFAs have been traced to changes in the cell's epigenetic state. Here, we systematically investigate how SCFAs alter the epigenome. Using quantitative proteomics of histone modification states, we identified rapid and sustained increases in histone acetylation after the addition of butyrate or propionate, but not acetate. While decades of prior observations would suggest that hyperacetylation induced by SCFAs are due to inhibition of histone deacetylases (HDACs), we found that propionate and butyrate instead activate the acetyltransferase p300. Propionate and butyrate are rapidly converted to the corresponding acyl-CoAs which are then used by p300 to catalyze auto-acylation of the autoinhibitory loop, activating the enzyme for histone/protein acetylation. This data challenges the long-held belief that SCFAs mainly regulate chromatin by inhibiting HDACs, and instead reveals a previously unknown mechanism of HAT activation that can explain how an influx of low levels of SCFAs alters global chromatin states.

Topics & Concepts

ButyrateAcetylationHistone acetyltransferaseHistoneChromatinAcetyltransferaseHistone AcetyltransferasesBiochemistryChemistryPropionateEpigeneticsHistone deacetylaseEnzymeSodium butyrateCell biologyButyric acidBiologyP300-CBP Transcription FactorsHistone H3Histone deacetylase 2Chromatin immunoprecipitationHistone codeProteomicsChromatin remodelingHistone methyltransferaseHistone H4Epigenetics and DNA MethylationGut microbiota and healthHistone Deacetylase Inhibitors Research