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The short-chain fatty acid acetate modulates epithelial-to-mesenchymal transition

Junfang Lyu, Mehdi Pirooznia, Yuesheng Li, Jianhua Xiong

2022Molecular Biology of the Cell16 citationsDOIOpen Access PDF

Abstract

Normal tissue and organ morphogenesis requires epithelial cell plasticity and conversion to a mesenchymal phenotype through a tightly regulated process-epithelial-to-mesenchymal transition (EMT). Alterations of EMT go far beyond cell-lineage segregation and contribute to pathologic conditions such as cancer. EMT is subject to intersecting control pathways; however, EMT's metabolic mechanism remains poorly understood. Here, we demonstrate that transforming growth factor β (TGF-β)-induced EMT is accompanied by decreased fatty acid oxidation (FAO) and reduced acetyl-coenzyme A (acetyl-CoA) levels. Acetyl-CoA is a central metabolite and the sole donor of acetyl groups to acetylate key proteins. Further, the short-chain fatty acid acetate increases acetyl-CoA levels--robustly inhibiting EMT and cancer cell migration. Acetate can restore EMT-associated α-tubulin acetylation levels, increasing microtubule stability. Transcriptome profiling and flow cytometric analysis show that acetate inhibits the global gene expression program associated with EMT and the EMT-associated G1 cell cycle arrest. Taken together, these results demonstrate that acetate is a potent metabolic regulator of EMT and that therapeutic manipulation of acetate metabolism could provide the basis for treating a wide range of EMT-linked pathological conditions, including cancer.

Topics & Concepts

BiologyEpithelial–mesenchymal transitionAcetylationCell biologyFatty acid metabolismMesenchymal stem cellCancer cellFatty acidBiochemistryCancer researchCancerDownregulation and upregulationGeneGeneticsCancer, Hypoxia, and MetabolismCancer, Lipids, and MetabolismRNA modifications and cancer
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