Next‐generation sequencing reveals that miR‐16‐5p, miR‐19a‐3p, miR‐451a, and miR‐25‐3p cargo in plasma extracellular vesicles differentiates sedentary young males from athletes

Manuel Fernandez‐Sanjurjo; Paola Pinto‐Hernandez; Alberto Dávalos; Ángel Enrique Díaz‐Martínez; Roberto Martin-Hernández; Juan Castilla‐Silgado; Celia Toyos‐Rodríguez; Martin Whitham; Laura Amado‐Rodríguez; Guillermo Muñiz‐Albaiceta; Nicolás Terrados; Benjamín Fernández‐García; Eduardo Iglesias‐Gutiérrez

doi:10.1002/ejsc.12087

Next‐generation sequencing reveals that miR‐16‐5p, miR‐19a‐3p, miR‐451a, and miR‐25‐3p cargo in plasma extracellular vesicles differentiates sedentary young males from athletes

Manuel Fernandez‐Sanjurjo^*, Paola Pinto‐Hernandez, Alberto Dávalos, Ángel Enrique Díaz‐Martínez, Roberto Martin-Hernández, Juan Castilla‐Silgado, Celia Toyos‐Rodríguez, Martin Whitham, Laura Amado‐Rodríguez, Guillermo Muñiz‐Albaiceta, Nicolás Terrados, Benjamín Fernández‐García, Eduardo Iglesias‐Gutiérrez^*

^*Corresponding author for this work

Sport, Exercise and Rehabilitation Sciences

Research output: Contribution to journal › Article › peer-review

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Abstract

A sedentary lifestyle and Olympic participation are contrary risk factors for global mortality and incidence of cancer and cardiovascular disease. Extracellular vesicle miRNAs have been described to respond to exercise. No molecular characterization of young male sedentary people versus athletes is available; so, our aim was to identify the extracellular vesicle miRNA profile of chronically trained young endurance and resistance male athletes compared to their sedentary counterparts. A descriptive case–control design was used with 16 sedentary young men, 16 Olympic male endurance athletes, and 16 Olympic male resistance athletes. Next‐generation sequencing and RT‐qPCR and external and internal validation were performed in order to analyze extracellular vesicle miRNA profiles. Endurance and resistance athletes had significant lower levels of miR‐16‐5p, miR‐19a‐3p, and miR‐451a compared to sedentary people. Taking all together, exercise‐trained miRNA profile in extracellular vesicles provides a differential signature of athletes irrespective of the type of exercise compared to sedentary people. Besides, miR‐25‐3p levels were specifically lower in endurance athletes which defines its role as a specific responder in this type of athletes. In silico analysis of this profile suggests a role in adaptive energy metabolism in this context that needs to be experimentally validated. Therefore, this study provides for the first time basal levels of circulating miRNA in extracellular vesicles emerge as relevant players in intertissue communication in response to chronic exercise exposure in young elite male athletes.

Original language	English
Number of pages	11
Journal	European Journal of Sport Science
Early online date	19 Mar 2024
DOIs	https://doi.org/10.1002/ejsc.12087
Publication status	E-pub ahead of print - 19 Mar 2024

Bibliographical note

ACKNOWLEDGMENTS
This work was supported in part by the Spanish Ministerio de Economía y Competitividad (DEP2012-39262 and DEP2015-69980-P) to EI-G and BF-G. Also, this work was supported in part by the Ministerio de Ciencia e Innovación and European FEDER funds to AD (AGL2016-78922-R) and AD, BF-G, and EI-G (AGL2017-90623-REDT). PP-H was supported by Ayudas para la realizacion de Tesis Doctorales. Modalidad A felowship from the University of Oviedo (PAPI-20-PF-19). LA-R was supported by Instituto de Salud Carlos III (PI21/01592) and by Instituto de Salud Carlos III and co-funded by Fondo Social Europeo -FSE as a post doctoral clinical researcher (Juan Rodes JR22/00066). The authors would like to acknowledge the technical support provided by Servicios Científico-Técnicos de la Universidad de Oviedo. This investigation has been awarded Third Prize at the XXIII National Sport Medicine Research Award 2021 from Spain.

Keywords

microRNA profile
exercise response
athletes
sedentarism
epigenetic modulation

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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Fernandez‐Sanjurjo, M., Pinto‐Hernandez, P., Dávalos, A., Díaz‐Martínez, Á. E., Martin-Hernández, R., Castilla‐Silgado, J., Toyos‐Rodríguez, C., Whitham, M., Amado‐Rodríguez, L., Muñiz‐Albaiceta, G., Terrados, N., Fernández‐García, B., & Iglesias‐Gutiérrez, E. (2024). Next‐generation sequencing reveals that miR‐16‐5p, miR‐19a‐3p, miR‐451a, and miR‐25‐3p cargo in plasma extracellular vesicles differentiates sedentary young males from athletes. European Journal of Sport Science. Advance online publication. https://doi.org/10.1002/ejsc.12087

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title = "Next‐generation sequencing reveals that miR‐16‐5p, miR‐19a‐3p, miR‐451a, and miR‐25‐3p cargo in plasma extracellular vesicles differentiates sedentary young males from athletes",

abstract = "A sedentary lifestyle and Olympic participation are contrary risk factors for global mortality and incidence of cancer and cardiovascular disease. Extracellular vesicle miRNAs have been described to respond to exercise. No molecular characterization of young male sedentary people versus athletes is available; so, our aim was to identify the extracellular vesicle miRNA profile of chronically trained young endurance and resistance male athletes compared to their sedentary counterparts. A descriptive case–control design was used with 16 sedentary young men, 16 Olympic male endurance athletes, and 16 Olympic male resistance athletes. Next‐generation sequencing and RT‐qPCR and external and internal validation were performed in order to analyze extracellular vesicle miRNA profiles. Endurance and resistance athletes had significant lower levels of miR‐16‐5p, miR‐19a‐3p, and miR‐451a compared to sedentary people. Taking all together, exercise‐trained miRNA profile in extracellular vesicles provides a differential signature of athletes irrespective of the type of exercise compared to sedentary people. Besides, miR‐25‐3p levels were specifically lower in endurance athletes which defines its role as a specific responder in this type of athletes. In silico analysis of this profile suggests a role in adaptive energy metabolism in this context that needs to be experimentally validated. Therefore, this study provides for the first time basal levels of circulating miRNA in extracellular vesicles emerge as relevant players in intertissue communication in response to chronic exercise exposure in young elite male athletes.",

keywords = "microRNA profile, exercise response, athletes, sedentarism, epigenetic modulation",

author = "Manuel Fernandez‐Sanjurjo and Paola Pinto‐Hernandez and Alberto D{\'a}valos and D{\'i}az‐Mart{\'i}nez, {{\'A}ngel Enrique} and Roberto Martin-Hern{\'a}ndez and Juan Castilla‐Silgado and Celia Toyos‐Rodr{\'i}guez and Martin Whitham and Laura Amado‐Rodr{\'i}guez and Guillermo Mu{\~n}iz‐Albaiceta and Nicol{\'a}s Terrados and Benjam{\'i}n Fern{\'a}ndez‐Garc{\'i}a and Eduardo Iglesias‐Guti{\'e}rrez",

note = "ACKNOWLEDGMENTS This work was supported in part by the Spanish Ministerio de Econom{\'i}a y Competitividad (DEP2012-39262 and DEP2015-69980-P) to EI-G and BF-G. Also, this work was supported in part by the Ministerio de Ciencia e Innovaci{\'o}n and European FEDER funds to AD (AGL2016-78922-R) and AD, BF-G, and EI-G (AGL2017-90623-REDT). PP-H was supported by Ayudas para la realizacion de Tesis Doctorales. Modalidad A felowship from the University of Oviedo (PAPI-20-PF-19). LA-R was supported by Instituto de Salud Carlos III (PI21/01592) and by Instituto de Salud Carlos III and co-funded by Fondo Social Europeo -FSE as a post doctoral clinical researcher (Juan Rodes JR22/00066). The authors would like to acknowledge the technical support provided by Servicios Cient{\'i}fico-T{\'e}cnicos de la Universidad de Oviedo. This investigation has been awarded Third Prize at the XXIII National Sport Medicine Research Award 2021 from Spain.",

year = "2024",

month = mar,

day = "19",

doi = "10.1002/ejsc.12087",

language = "English",

journal = "European Journal of Sport Science",

issn = "1746-1391",

publisher = "Taylor & Francis",

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Fernandez‐Sanjurjo, M, Pinto‐Hernandez, P, Dávalos, A, Díaz‐Martínez, ÁE, Martin-Hernández, R, Castilla‐Silgado, J, Toyos‐Rodríguez, C, Whitham, M, Amado‐Rodríguez, L, Muñiz‐Albaiceta, G, Terrados, N, Fernández‐García, B & Iglesias‐Gutiérrez, E 2024, 'Next‐generation sequencing reveals that miR‐16‐5p, miR‐19a‐3p, miR‐451a, and miR‐25‐3p cargo in plasma extracellular vesicles differentiates sedentary young males from athletes', European Journal of Sport Science. https://doi.org/10.1002/ejsc.12087

Next‐generation sequencing reveals that miR‐16‐5p, miR‐19a‐3p, miR‐451a, and miR‐25‐3p cargo in plasma extracellular vesicles differentiates sedentary young males from athletes. / Fernandez‐Sanjurjo, Manuel; Pinto‐Hernandez, Paola; Dávalos, Alberto et al.
In: European Journal of Sport Science, 19.03.2024.

Research output: Contribution to journal › Article › peer-review

TY - JOUR

T1 - Next‐generation sequencing reveals that miR‐16‐5p, miR‐19a‐3p, miR‐451a, and miR‐25‐3p cargo in plasma extracellular vesicles differentiates sedentary young males from athletes

AU - Fernandez‐Sanjurjo, Manuel

AU - Pinto‐Hernandez, Paola

AU - Dávalos, Alberto

AU - Díaz‐Martínez, Ángel Enrique

AU - Martin-Hernández, Roberto

AU - Castilla‐Silgado, Juan

AU - Toyos‐Rodríguez, Celia

AU - Whitham, Martin

AU - Amado‐Rodríguez, Laura

AU - Muñiz‐Albaiceta, Guillermo

AU - Terrados, Nicolás

AU - Fernández‐García, Benjamín

AU - Iglesias‐Gutiérrez, Eduardo

N1 - ACKNOWLEDGMENTS This work was supported in part by the Spanish Ministerio de Economía y Competitividad (DEP2012-39262 and DEP2015-69980-P) to EI-G and BF-G. Also, this work was supported in part by the Ministerio de Ciencia e Innovación and European FEDER funds to AD (AGL2016-78922-R) and AD, BF-G, and EI-G (AGL2017-90623-REDT). PP-H was supported by Ayudas para la realizacion de Tesis Doctorales. Modalidad A felowship from the University of Oviedo (PAPI-20-PF-19). LA-R was supported by Instituto de Salud Carlos III (PI21/01592) and by Instituto de Salud Carlos III and co-funded by Fondo Social Europeo -FSE as a post doctoral clinical researcher (Juan Rodes JR22/00066). The authors would like to acknowledge the technical support provided by Servicios Científico-Técnicos de la Universidad de Oviedo. This investigation has been awarded Third Prize at the XXIII National Sport Medicine Research Award 2021 from Spain.

PY - 2024/3/19

Y1 - 2024/3/19

N2 - A sedentary lifestyle and Olympic participation are contrary risk factors for global mortality and incidence of cancer and cardiovascular disease. Extracellular vesicle miRNAs have been described to respond to exercise. No molecular characterization of young male sedentary people versus athletes is available; so, our aim was to identify the extracellular vesicle miRNA profile of chronically trained young endurance and resistance male athletes compared to their sedentary counterparts. A descriptive case–control design was used with 16 sedentary young men, 16 Olympic male endurance athletes, and 16 Olympic male resistance athletes. Next‐generation sequencing and RT‐qPCR and external and internal validation were performed in order to analyze extracellular vesicle miRNA profiles. Endurance and resistance athletes had significant lower levels of miR‐16‐5p, miR‐19a‐3p, and miR‐451a compared to sedentary people. Taking all together, exercise‐trained miRNA profile in extracellular vesicles provides a differential signature of athletes irrespective of the type of exercise compared to sedentary people. Besides, miR‐25‐3p levels were specifically lower in endurance athletes which defines its role as a specific responder in this type of athletes. In silico analysis of this profile suggests a role in adaptive energy metabolism in this context that needs to be experimentally validated. Therefore, this study provides for the first time basal levels of circulating miRNA in extracellular vesicles emerge as relevant players in intertissue communication in response to chronic exercise exposure in young elite male athletes.

AB - A sedentary lifestyle and Olympic participation are contrary risk factors for global mortality and incidence of cancer and cardiovascular disease. Extracellular vesicle miRNAs have been described to respond to exercise. No molecular characterization of young male sedentary people versus athletes is available; so, our aim was to identify the extracellular vesicle miRNA profile of chronically trained young endurance and resistance male athletes compared to their sedentary counterparts. A descriptive case–control design was used with 16 sedentary young men, 16 Olympic male endurance athletes, and 16 Olympic male resistance athletes. Next‐generation sequencing and RT‐qPCR and external and internal validation were performed in order to analyze extracellular vesicle miRNA profiles. Endurance and resistance athletes had significant lower levels of miR‐16‐5p, miR‐19a‐3p, and miR‐451a compared to sedentary people. Taking all together, exercise‐trained miRNA profile in extracellular vesicles provides a differential signature of athletes irrespective of the type of exercise compared to sedentary people. Besides, miR‐25‐3p levels were specifically lower in endurance athletes which defines its role as a specific responder in this type of athletes. In silico analysis of this profile suggests a role in adaptive energy metabolism in this context that needs to be experimentally validated. Therefore, this study provides for the first time basal levels of circulating miRNA in extracellular vesicles emerge as relevant players in intertissue communication in response to chronic exercise exposure in young elite male athletes.

KW - microRNA profile

KW - exercise response

KW - athletes

KW - sedentarism

KW - epigenetic modulation

U2 - 10.1002/ejsc.12087

DO - 10.1002/ejsc.12087

M3 - Article

SN - 1746-1391

JO - European Journal of Sport Science

JF - European Journal of Sport Science

ER -

Fernandez‐Sanjurjo M, Pinto‐Hernandez P, Dávalos A, Díaz‐Martínez ÁE, Martin-Hernández R, Castilla‐Silgado J et al. Next‐generation sequencing reveals that miR‐16‐5p, miR‐19a‐3p, miR‐451a, and miR‐25‐3p cargo in plasma extracellular vesicles differentiates sedentary young males from athletes. European Journal of Sport Science. 2024 Mar 19. Epub 2024 Mar 19. doi: 10.1002/ejsc.12087

Next‐generation sequencing reveals that miR‐16‐5p, miR‐19a‐3p, miR‐451a, and miR‐25‐3p cargo in plasma extracellular vesicles differentiates sedentary young males from athletes

Abstract

Bibliographical note

Keywords

UN SDGs

Access to Document

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Cite this