Effect of Epicatechin on Skeletal Muscle

Hermann Zbinden-Foncea; Mauricio Castro-Sepulveda; Jocelyn Fuentes; Hernan Speisky

doi:10.2174/0929867329666211217100020

Effect of Epicatechin on Skeletal Muscle

Hermann Zbinden-Foncea, Mauricio Castro-Sepulveda, Jocelyn Fuentes, Hernan Speisky

Research output: Contribution to journal › Review article › peer-review

15 Scopus citations

Abstract

Loss of skeletal muscle (SkM) quality is associated with different clinical conditions such as aging, diabetes, obesity, cancer, and heart failure. Nutritional research has focused on identifying naturally occurring molecules that mitigate the loss of SkM quality induced by pathology or syndrome. In this context, although few human studies have been conducted, epicatechin (Epi) is a prime candidate that may positively affect SkM quality by its potential ability to mitigate muscle mass loss. This seems to be a consequence of its antioxidant and anti-inflammatory properties and its stimulation of mitochondrial biogenesis to increase myogenic differentiation, as well as its modulation of key proteins involved in SkM structure, function, metabolism, and growth. In conclusion, the Epi could prevent, mitigate, delay, and even treat muscle-related disorders caused by aging and diseases. However, studies in humans are needed.

Original language	English
Pages (from-to)	1110-1123
Number of pages	14
Journal	Current Medicinal Chemistry
Volume	29
Issue number	6
DOIs	https://doi.org/10.2174/0929867329666211217100020
State	Published - 1 Feb 2022

Keywords

Antioxidants
Epicatechin (Epi)
Inflammation
Muscle quality
Muscular dystrophy
Oxidative stress

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10.2174/0929867329666211217100020

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abstract = "Loss of skeletal muscle (SkM) quality is associated with different clinical conditions such as aging, diabetes, obesity, cancer, and heart failure. Nutritional research has focused on identifying naturally occurring molecules that mitigate the loss of SkM quality induced by pathology or syndrome. In this context, although few human studies have been conducted, epicatechin (Epi) is a prime candidate that may positively affect SkM quality by its potential ability to mitigate muscle mass loss. This seems to be a consequence of its antioxidant and anti-inflammatory properties and its stimulation of mitochondrial biogenesis to increase myogenic differentiation, as well as its modulation of key proteins involved in SkM structure, function, metabolism, and growth. In conclusion, the Epi could prevent, mitigate, delay, and even treat muscle-related disorders caused by aging and diseases. However, studies in humans are needed.",

keywords = "Antioxidants, Epicatechin (Epi), Inflammation, Muscle quality, Muscular dystrophy, Oxidative stress",

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AU - Zbinden-Foncea, Hermann

AU - Castro-Sepulveda, Mauricio

AU - Fuentes, Jocelyn

AU - Speisky, Hernan

PY - 2022/2/1

Y1 - 2022/2/1

N2 - Loss of skeletal muscle (SkM) quality is associated with different clinical conditions such as aging, diabetes, obesity, cancer, and heart failure. Nutritional research has focused on identifying naturally occurring molecules that mitigate the loss of SkM quality induced by pathology or syndrome. In this context, although few human studies have been conducted, epicatechin (Epi) is a prime candidate that may positively affect SkM quality by its potential ability to mitigate muscle mass loss. This seems to be a consequence of its antioxidant and anti-inflammatory properties and its stimulation of mitochondrial biogenesis to increase myogenic differentiation, as well as its modulation of key proteins involved in SkM structure, function, metabolism, and growth. In conclusion, the Epi could prevent, mitigate, delay, and even treat muscle-related disorders caused by aging and diseases. However, studies in humans are needed.

AB - Loss of skeletal muscle (SkM) quality is associated with different clinical conditions such as aging, diabetes, obesity, cancer, and heart failure. Nutritional research has focused on identifying naturally occurring molecules that mitigate the loss of SkM quality induced by pathology or syndrome. In this context, although few human studies have been conducted, epicatechin (Epi) is a prime candidate that may positively affect SkM quality by its potential ability to mitigate muscle mass loss. This seems to be a consequence of its antioxidant and anti-inflammatory properties and its stimulation of mitochondrial biogenesis to increase myogenic differentiation, as well as its modulation of key proteins involved in SkM structure, function, metabolism, and growth. In conclusion, the Epi could prevent, mitigate, delay, and even treat muscle-related disorders caused by aging and diseases. However, studies in humans are needed.

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KW - Epicatechin (Epi)

KW - Inflammation

KW - Muscle quality

KW - Muscular dystrophy

KW - Oxidative stress

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Effect of Epicatechin on Skeletal Muscle

Abstract

Keywords

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