Extracellular vesicular miRNA expression is not a proxy for skeletal muscle miRNA expression in males and females following acute, moderate intensity exercise

Extracellular vesicular miRNA expression is not a proxy for skeletal muscle miRNA expression in males and females following acute, moderate intensity exercise

Abstract Skeletal muscle and extracellular vesicle (EV) miRNA expression increases following acute endurance exercise. However, research to date has only been performed in males. The aim of this study was to describe the expression levels of a subset of miRNAs in EVs following acute exercise and com...

Full description

Bibliographic Details
Main Authors: Jessica L. Silver, Sarah E. Alexander, Hayley T. Dillon, Séverine Lamon, Glenn D. Wadley
Format: Article
Language:English
Published: Wiley 2020-08-01
Series:Physiological Reports
Subjects:
endurance exercise
extracellular vesicle
microRNA
sex
skeletal muscle
Online Access:https://doi.org/10.14814/phy2.14520
id doaj-b0b83b19696e4d309156f6a9f2160ffb
record_format Article
spelling doaj-b0b83b19696e4d309156f6a9f2160ffb2020-11-25T03:56:27ZengWileyPhysiological Reports2051-817X2020-08-01816n/an/a10.14814/phy2.14520Extracellular vesicular miRNA expression is not a proxy for skeletal muscle miRNA expression in males and females following acute, moderate intensity exerciseJessica L. Silver0Sarah E. Alexander1Hayley T. Dillon2Séverine Lamon3Glenn D. Wadley4Institute for Physical Activity and Nutrition (IPAN) School of Exercise and Nutrition Sciences Deakin University Geelong VIC AustraliaInstitute for Physical Activity and Nutrition (IPAN) School of Exercise and Nutrition Sciences Deakin University Geelong VIC AustraliaInstitute for Physical Activity and Nutrition (IPAN) School of Exercise and Nutrition Sciences Deakin University Geelong VIC AustraliaInstitute for Physical Activity and Nutrition (IPAN) School of Exercise and Nutrition Sciences Deakin University Geelong VIC AustraliaInstitute for Physical Activity and Nutrition (IPAN) School of Exercise and Nutrition Sciences Deakin University Geelong VIC AustraliaAbstract Skeletal muscle and extracellular vesicle (EV) miRNA expression increases following acute endurance exercise. However, research to date has only been performed in males. The aim of this study was to describe the expression levels of a subset of miRNAs in EVs following acute exercise and compare it to skeletal muscle miRNA expression. Twelve males (age 22.9 ± 2.6 years, mean ± SD) and eight females (age 23.0 ± 3.4 years) cycled for 60 min at 70% VO2peak. Muscle biopsies and blood samples were collected at rest, immediately after and 3 hr after exercise. Acute exercise did not significantly alter the expression of miR‐1, miR‐16, miR‐23b and miR‐133a/b in EVs in males and females combined. There were no correlations between EV and skeletal muscle miRNA expression in any of the measured species at any time point. Exploratory analysis revealed differential miRNA responses to exercise between males and females. In males, a weak negative correlation was observed between skeletal muscle and EV miR‐16 expression immediately following exercise; however, the physiological relevance of this correlation is unknown. Additionally, when compared with values at rest, male skeletal muscle miR‐16 expression significantly increased immediately following exercise, whereas miR‐133a expression significantly decreased 3 hr post exercise. Our findings suggest that miRNAs isolated from EVs are not a proxy for skeletal muscle miRNA content. Our exploratory data is the first known evidence of sex‐specific differences in the miRNA response to an acute bout of endurance exercise, particularly for miRNA species implicated in mitochondrial metabolism and angiogenesis.https://doi.org/10.14814/phy2.14520endurance exerciseextracellular vesiclemicroRNAsexskeletal muscle
collection DOAJ
language English
format Article
sources DOAJ
author Jessica L. Silver
Sarah E. Alexander
Hayley T. Dillon
Séverine Lamon
Glenn D. Wadley
spellingShingle Jessica L. Silver
Sarah E. Alexander
Hayley T. Dillon
Séverine Lamon
Glenn D. Wadley
Extracellular vesicular miRNA expression is not a proxy for skeletal muscle miRNA expression in males and females following acute, moderate intensity exercise
Physiological Reports
endurance exercise
extracellular vesicle
microRNA
sex
skeletal muscle
author_facet Jessica L. Silver
Sarah E. Alexander
Hayley T. Dillon
Séverine Lamon
Glenn D. Wadley
author_sort Jessica L. Silver
title Extracellular vesicular miRNA expression is not a proxy for skeletal muscle miRNA expression in males and females following acute, moderate intensity exercise
title_short Extracellular vesicular miRNA expression is not a proxy for skeletal muscle miRNA expression in males and females following acute, moderate intensity exercise
title_full Extracellular vesicular miRNA expression is not a proxy for skeletal muscle miRNA expression in males and females following acute, moderate intensity exercise
title_fullStr Extracellular vesicular miRNA expression is not a proxy for skeletal muscle miRNA expression in males and females following acute, moderate intensity exercise
title_full_unstemmed Extracellular vesicular miRNA expression is not a proxy for skeletal muscle miRNA expression in males and females following acute, moderate intensity exercise
title_sort extracellular vesicular mirna expression is not a proxy for skeletal muscle mirna expression in males and females following acute, moderate intensity exercise
publisher Wiley
series Physiological Reports
issn 2051-817X
publishDate 2020-08-01
description Abstract Skeletal muscle and extracellular vesicle (EV) miRNA expression increases following acute endurance exercise. However, research to date has only been performed in males. The aim of this study was to describe the expression levels of a subset of miRNAs in EVs following acute exercise and compare it to skeletal muscle miRNA expression. Twelve males (age 22.9 ± 2.6 years, mean ± SD) and eight females (age 23.0 ± 3.4 years) cycled for 60 min at 70% VO2peak. Muscle biopsies and blood samples were collected at rest, immediately after and 3 hr after exercise. Acute exercise did not significantly alter the expression of miR‐1, miR‐16, miR‐23b and miR‐133a/b in EVs in males and females combined. There were no correlations between EV and skeletal muscle miRNA expression in any of the measured species at any time point. Exploratory analysis revealed differential miRNA responses to exercise between males and females. In males, a weak negative correlation was observed between skeletal muscle and EV miR‐16 expression immediately following exercise; however, the physiological relevance of this correlation is unknown. Additionally, when compared with values at rest, male skeletal muscle miR‐16 expression significantly increased immediately following exercise, whereas miR‐133a expression significantly decreased 3 hr post exercise. Our findings suggest that miRNAs isolated from EVs are not a proxy for skeletal muscle miRNA content. Our exploratory data is the first known evidence of sex‐specific differences in the miRNA response to an acute bout of endurance exercise, particularly for miRNA species implicated in mitochondrial metabolism and angiogenesis.
topic endurance exercise
extracellular vesicle
microRNA
sex
skeletal muscle
url https://doi.org/10.14814/phy2.14520
work_keys_str_mv AT jessicalsilver extracellularvesicularmirnaexpressionisnotaproxyforskeletalmusclemirnaexpressioninmalesandfemalesfollowingacutemoderateintensityexercise
AT sarahealexander extracellularvesicularmirnaexpressionisnotaproxyforskeletalmusclemirnaexpressioninmalesandfemalesfollowingacutemoderateintensityexercise
AT hayleytdillon extracellularvesicularmirnaexpressionisnotaproxyforskeletalmusclemirnaexpressioninmalesandfemalesfollowingacutemoderateintensityexercise
AT severinelamon extracellularvesicularmirnaexpressionisnotaproxyforskeletalmusclemirnaexpressioninmalesandfemalesfollowingacutemoderateintensityexercise
AT glenndwadley extracellularvesicularmirnaexpressionisnotaproxyforskeletalmusclemirnaexpressioninmalesandfemalesfollowingacutemoderateintensityexercise
_version_ 1724464986234814464

Similar Items