A newly identified lncRNA MAR1 acts as a miR‐487b sponge to promote skeletal muscle differentiation and regeneration

A newly identified lncRNA MAR1 acts as a miR‐487b sponge to promote skeletal muscle differentiation and regeneration

Abstract Background Skeletal muscle atrophy induced by either aging (sarcopenia) or mechanical unloading is associated with serious health consequences. Long non‐coding RNAs (lncRNAs) are implicated as important regulators in numerous physiological and pathological processes. Methods Microarray anal...

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Main Authors: Zong‐Kang Zhang, Jie Li, Daogang Guan, Chao Liang, Zhenjian Zhuo, Jin Liu, Aiping Lu, Ge Zhang, Bao‐Ting Zhang
Format: Article
Language:English
Published: Wiley 2018-06-01
Series:Journal of Cachexia, Sarcopenia and Muscle
Subjects:
Long non‐coding RNA
miR‐487b
Wnt5a
Muscle differentiation
Muscle regeneration
Online Access:https://doi.org/10.1002/jcsm.12281
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spelling doaj-5c67c3b642b04109b6b1d86bd12655fc2020-11-24T23:33:00ZengWileyJournal of Cachexia, Sarcopenia and Muscle2190-59912190-60092018-06-019361362610.1002/jcsm.12281A newly identified lncRNA MAR1 acts as a miR‐487b sponge to promote skeletal muscle differentiation and regenerationZong‐Kang Zhang0Jie Li1Daogang Guan2Chao Liang3Zhenjian Zhuo4Jin Liu5Aiping Lu6Ge Zhang7Bao‐Ting Zhang8School of Chinese Medicine, Faculty of Medicine The Chinese University of Hong Kong Hong Kong SAR ChinaSchool of Chinese Medicine, Faculty of Medicine The Chinese University of Hong Kong Hong Kong SAR ChinaInstitute of Integrated Bioinformedicine and Translational Science, School of Chinese Medicine Hong Kong Baptist University Hong Kong SAR ChinaLaw Sau Fai Institute for Advancing Translational Medicine in Bone & Joint Diseases, School of Chinese Medicine Hong Kong Baptist University Hong Kong SAR ChinaSchool of Chinese Medicine, Faculty of Medicine The Chinese University of Hong Kong Hong Kong SAR ChinaLaw Sau Fai Institute for Advancing Translational Medicine in Bone & Joint Diseases, School of Chinese Medicine Hong Kong Baptist University Hong Kong SAR ChinaInstitute of Integrated Bioinformedicine and Translational Science, School of Chinese Medicine Hong Kong Baptist University Hong Kong SAR ChinaLaw Sau Fai Institute for Advancing Translational Medicine in Bone & Joint Diseases, School of Chinese Medicine Hong Kong Baptist University Hong Kong SAR ChinaSchool of Chinese Medicine, Faculty of Medicine The Chinese University of Hong Kong Hong Kong SAR ChinaAbstract Background Skeletal muscle atrophy induced by either aging (sarcopenia) or mechanical unloading is associated with serious health consequences. Long non‐coding RNAs (lncRNAs) are implicated as important regulators in numerous physiological and pathological processes. Methods Microarray analysis was performed to identify the differentially expressed lncRNAs in skeletal muscle between adult and aged mice. The most decreased lncRNA in aged skeletal muscle was identified. The C2C12 mouse myoblast cells were used to assess the biological function of the lncRNA in vitro. The target microRNA of lncRNA and the target protein of microRNA were predicted by bioinformatics analysis and validated in vitro. Furthermore, the biology function of the lncRNA in vivo was investigated by local overexpression or knockdown the lncRNA in skeletal muscle. The therapeutic effect of the lncRNA overexpression in age‐related or mechanical unloading‐induced muscle atrophy was also evaluated. Results We identified a novel lncRNA (muscle anabolic regulator 1, MAR1) which was highly expressed in mice skeletal muscle and positively correlated with muscle differentiation and growth in vitro and in vivo. We predicted and validated that microRNA‐487b (miR‐487b) was a direct target of MAR1. We also predicted and validated that Wnt5a, an important regulator during myogenesis, was a target of miR‐487b in C2C12 cells. Our findings further demonstrated that enforced MAR1 expression in myoblasts led to derepression of Wnt5a. Moreover, MAR1 promoted skeletal muscle mass/strength and Wnt5a protein level in mice. Enforced MAR1 expression in mice attenuated muscle atrophy induced by either aging or unloading. Conclusions The newly identified lncRNA MAR1 acts as a miR‐487b sponge to regulate Wnt5a protein, resulting in promoting muscle differentiation and regeneration. MAR1 could be a novel therapeutic target for treating muscle atrophy induced by either aging or mechanical unloading.https://doi.org/10.1002/jcsm.12281Long non‐coding RNAmiR‐487bWnt5aMuscle differentiationMuscle regeneration
collection DOAJ
language English
format Article
sources DOAJ
author Zong‐Kang Zhang
Jie Li
Daogang Guan
Chao Liang
Zhenjian Zhuo
Jin Liu
Aiping Lu
Ge Zhang
Bao‐Ting Zhang
spellingShingle Zong‐Kang Zhang
Jie Li
Daogang Guan
Chao Liang
Zhenjian Zhuo
Jin Liu
Aiping Lu
Ge Zhang
Bao‐Ting Zhang
A newly identified lncRNA MAR1 acts as a miR‐487b sponge to promote skeletal muscle differentiation and regeneration
Journal of Cachexia, Sarcopenia and Muscle
Long non‐coding RNA
miR‐487b
Wnt5a
Muscle differentiation
Muscle regeneration
author_facet Zong‐Kang Zhang
Jie Li
Daogang Guan
Chao Liang
Zhenjian Zhuo
Jin Liu
Aiping Lu
Ge Zhang
Bao‐Ting Zhang
author_sort Zong‐Kang Zhang
title A newly identified lncRNA MAR1 acts as a miR‐487b sponge to promote skeletal muscle differentiation and regeneration
title_short A newly identified lncRNA MAR1 acts as a miR‐487b sponge to promote skeletal muscle differentiation and regeneration
title_full A newly identified lncRNA MAR1 acts as a miR‐487b sponge to promote skeletal muscle differentiation and regeneration
title_fullStr A newly identified lncRNA MAR1 acts as a miR‐487b sponge to promote skeletal muscle differentiation and regeneration
title_full_unstemmed A newly identified lncRNA MAR1 acts as a miR‐487b sponge to promote skeletal muscle differentiation and regeneration
title_sort newly identified lncrna mar1 acts as a mir‐487b sponge to promote skeletal muscle differentiation and regeneration
publisher Wiley
series Journal of Cachexia, Sarcopenia and Muscle
issn 2190-5991
2190-6009
publishDate 2018-06-01
description Abstract Background Skeletal muscle atrophy induced by either aging (sarcopenia) or mechanical unloading is associated with serious health consequences. Long non‐coding RNAs (lncRNAs) are implicated as important regulators in numerous physiological and pathological processes. Methods Microarray analysis was performed to identify the differentially expressed lncRNAs in skeletal muscle between adult and aged mice. The most decreased lncRNA in aged skeletal muscle was identified. The C2C12 mouse myoblast cells were used to assess the biological function of the lncRNA in vitro. The target microRNA of lncRNA and the target protein of microRNA were predicted by bioinformatics analysis and validated in vitro. Furthermore, the biology function of the lncRNA in vivo was investigated by local overexpression or knockdown the lncRNA in skeletal muscle. The therapeutic effect of the lncRNA overexpression in age‐related or mechanical unloading‐induced muscle atrophy was also evaluated. Results We identified a novel lncRNA (muscle anabolic regulator 1, MAR1) which was highly expressed in mice skeletal muscle and positively correlated with muscle differentiation and growth in vitro and in vivo. We predicted and validated that microRNA‐487b (miR‐487b) was a direct target of MAR1. We also predicted and validated that Wnt5a, an important regulator during myogenesis, was a target of miR‐487b in C2C12 cells. Our findings further demonstrated that enforced MAR1 expression in myoblasts led to derepression of Wnt5a. Moreover, MAR1 promoted skeletal muscle mass/strength and Wnt5a protein level in mice. Enforced MAR1 expression in mice attenuated muscle atrophy induced by either aging or unloading. Conclusions The newly identified lncRNA MAR1 acts as a miR‐487b sponge to regulate Wnt5a protein, resulting in promoting muscle differentiation and regeneration. MAR1 could be a novel therapeutic target for treating muscle atrophy induced by either aging or mechanical unloading.
topic Long non‐coding RNA
miR‐487b
Wnt5a
Muscle differentiation
Muscle regeneration
url https://doi.org/10.1002/jcsm.12281
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