Believed for a long time to be merely a waste product of cell metabolism, lactate is now considered a molecule with several roles, having metabolic and signalling functions together with a new, recently discovered role as an epigenetic modulator. Lactate produced by the skeletal muscle during physical exercise is conducted to the liver, which uses the metabolite as a gluconeogenic precursor, thus generating the well-known “Cori cycle”. Moreover, the presence of lactate in the mitochondria associated with the lactate oxidation complex has become increasingly clear over the years. The signalling role of lactate occurs through binding with the GPR81 receptor, which triggers the typical signalling cascade of the G-protein-coupled receptors. Recently, it has been demonstrated that lactate regulates chromatin state and gene transcription by binding to histones. This review aims to describe the different roles of lactate in skeletal muscle, in both healthy and pathological conditions, and to highlight how lactate can influence muscle regeneration by acting directly on satellite cells.

The Multiple Roles of Lactate in the Skeletal Muscle / Bartoloni Bianca, Mannelli Michele, Gamberi Tania, Fiaschi Tania. - In: CELLS. - ISSN 2073-4409. - ELETTRONICO. - 13:(2024), pp. 0-0.

The Multiple Roles of Lactate in the Skeletal Muscle

Bartoloni Bianca;Mannelli Michele;Gamberi Tania;
2024

Abstract

Believed for a long time to be merely a waste product of cell metabolism, lactate is now considered a molecule with several roles, having metabolic and signalling functions together with a new, recently discovered role as an epigenetic modulator. Lactate produced by the skeletal muscle during physical exercise is conducted to the liver, which uses the metabolite as a gluconeogenic precursor, thus generating the well-known “Cori cycle”. Moreover, the presence of lactate in the mitochondria associated with the lactate oxidation complex has become increasingly clear over the years. The signalling role of lactate occurs through binding with the GPR81 receptor, which triggers the typical signalling cascade of the G-protein-coupled receptors. Recently, it has been demonstrated that lactate regulates chromatin state and gene transcription by binding to histones. This review aims to describe the different roles of lactate in skeletal muscle, in both healthy and pathological conditions, and to highlight how lactate can influence muscle regeneration by acting directly on satellite cells.
2024
13
0
0
Bartoloni Bianca, Mannelli Michele, Gamberi Tania, Fiaschi Tania
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Utilizza questo identificatore per citare o creare un link a questa risorsa: https://hdl.handle.net/2158/1370632
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