The Ubr2 gene is expressed in skeletal muscle atrophying as a result of hind limb suspension, but not Merg1a expression alone

The Ubr2 gene is expressed in skeletal muscle atrophying as a result of hind limb suspension, but not Merg1a expression alone

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Skeletal muscle (SKM) atrophy is a potentially debilitating condition induced by muscle disuse, denervation, many disease states, and aging. The ubiquitin proteasome pathway (UPP) contributes greatly to the protein loss suffered in muscle atrophy. The MERG1a K+ channel is known to induce UPP activit...

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Main Authors: Gregory H. Hockerman, Nicole M. Dethrow, Sohaib Hameed, Maureen Doran, Christine Jaeger, Wen-Horng Wang, Amber L. Pond
Format: Article
Language:English
Published: PAGEPress Publications 2014-03-01
Series:European Journal of Translational Myology
Subjects:
Skeletal muscle atrophy
UBR2
E3-II
ERG1a potassium channel
hind limb suspension
E3 ligase
ubiquitin proteasome pathway
Online Access:http://pagepressjournals.org/index.php/bam/article/view/3319
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spelling doaj-33d3a1fd1da04f388f2bcd8b54f606d42020-11-24T23:16:31ZengPAGEPress PublicationsEuropean Journal of Translational Myology2037-74522037-74602014-03-0124310.4081/ejtm.2014.33192577The Ubr2 gene is expressed in skeletal muscle atrophying as a result of hind limb suspension, but not Merg1a expression aloneGregory H. Hockerman0Nicole M. Dethrow1Sohaib Hameed2Maureen Doran3Christine Jaeger4Wen-Horng Wang5Amber L. Pond6Medicinal Chemistry and Molecular Pharmacology, School of Pharmacy, Purdue University, West Lafayette, INAnatomy Dept., Southern Illinois University School of Medicine, Carbondale, ILAnatomy Dept., Southern Illinois University School of Medicine, Carbondale, ILAnatomy Dept., Southern Illinois University School of Medicine, Carbondale, ILBasic Medical Sciences, School of Veterinary Medicine, Purdue University, West Lafayette, INMedicinal Chemistry and Molecular Pharmacology, School of Pharmacy, Purdue University, West Lafayette, INAnatomy Dept., Southern Illinois University School of Medicine, Carbondale, ILSkeletal muscle (SKM) atrophy is a potentially debilitating condition induced by muscle disuse, denervation, many disease states, and aging. The ubiquitin proteasome pathway (UPP) contributes greatly to the protein loss suffered in muscle atrophy. The MERG1a K+ channel is known to induce UPP activity and atrophy in SKM. It has been further demonstrated that the mouse ether-a-gogo-related gene (Merg)1a channel modulates expression of MURF1, an E3 ligase component of the UPP, while it does not affect expression of the UPP E3 ligase Mafbx/ATROGIN1. Because the UBR2 E3 ligase is known to participate in SKM atrophy, we have investigated the effect of Merg1a expression and hind limb suspension on Ubr2 expression. Here, we report that hind limb suspension results in a significant 25.6% decrease in mouse gastrocnemius muscle fiber cross sectional area (CSA) and that electro-transfer of Merg1a alone into gastrocnemius muscles yields a 15.3% decrease in CSA after 7 days. More interestingly, we discovered that hind limb suspension caused a significant 8-fold increase in Merg1a expression and a significant 4.7-fold increase in Ubr2 transcript after 4 days, while electro-transfer of Merg1a into gastrocnemius muscles resulted in a significant 6.2-fold increase in Merg1a transcript after 4 days but had no effect on Ubr2 expression. In summary, the MERG1a K+ channel, known to induce atrophy and MURF1 E3 ligase expression, does not affect UBR2 E3 ligase transcript levels. Therefore, to date, the MERG1a channel’s contribution to UPP activity appears mainly to be through up-regulation of Murf1 gene expression.http://pagepressjournals.org/index.php/bam/article/view/3319Skeletal muscle atrophyUBR2E3-IIERG1a potassium channelhind limb suspensionE3 ligaseubiquitin proteasome pathway
collection DOAJ
language English
format Article
sources DOAJ
author Gregory H. Hockerman
Nicole M. Dethrow
Sohaib Hameed
Maureen Doran
Christine Jaeger
Wen-Horng Wang
Amber L. Pond
spellingShingle Gregory H. Hockerman
Nicole M. Dethrow
Sohaib Hameed
Maureen Doran
Christine Jaeger
Wen-Horng Wang
Amber L. Pond
The Ubr2 gene is expressed in skeletal muscle atrophying as a result of hind limb suspension, but not Merg1a expression alone
European Journal of Translational Myology
Skeletal muscle atrophy
UBR2
E3-II
ERG1a potassium channel
hind limb suspension
E3 ligase
ubiquitin proteasome pathway
author_facet Gregory H. Hockerman
Nicole M. Dethrow
Sohaib Hameed
Maureen Doran
Christine Jaeger
Wen-Horng Wang
Amber L. Pond
author_sort Gregory H. Hockerman
title The Ubr2 gene is expressed in skeletal muscle atrophying as a result of hind limb suspension, but not Merg1a expression alone
title_short The Ubr2 gene is expressed in skeletal muscle atrophying as a result of hind limb suspension, but not Merg1a expression alone
title_full The Ubr2 gene is expressed in skeletal muscle atrophying as a result of hind limb suspension, but not Merg1a expression alone
title_fullStr The Ubr2 gene is expressed in skeletal muscle atrophying as a result of hind limb suspension, but not Merg1a expression alone
title_full_unstemmed The Ubr2 gene is expressed in skeletal muscle atrophying as a result of hind limb suspension, but not Merg1a expression alone
title_sort ubr2 gene is expressed in skeletal muscle atrophying as a result of hind limb suspension, but not merg1a expression alone
publisher PAGEPress Publications
series European Journal of Translational Myology
issn 2037-7452
2037-7460
publishDate 2014-03-01
description Skeletal muscle (SKM) atrophy is a potentially debilitating condition induced by muscle disuse, denervation, many disease states, and aging. The ubiquitin proteasome pathway (UPP) contributes greatly to the protein loss suffered in muscle atrophy. The MERG1a K+ channel is known to induce UPP activity and atrophy in SKM. It has been further demonstrated that the mouse ether-a-gogo-related gene (Merg)1a channel modulates expression of MURF1, an E3 ligase component of the UPP, while it does not affect expression of the UPP E3 ligase Mafbx/ATROGIN1. Because the UBR2 E3 ligase is known to participate in SKM atrophy, we have investigated the effect of Merg1a expression and hind limb suspension on Ubr2 expression. Here, we report that hind limb suspension results in a significant 25.6% decrease in mouse gastrocnemius muscle fiber cross sectional area (CSA) and that electro-transfer of Merg1a alone into gastrocnemius muscles yields a 15.3% decrease in CSA after 7 days. More interestingly, we discovered that hind limb suspension caused a significant 8-fold increase in Merg1a expression and a significant 4.7-fold increase in Ubr2 transcript after 4 days, while electro-transfer of Merg1a into gastrocnemius muscles resulted in a significant 6.2-fold increase in Merg1a transcript after 4 days but had no effect on Ubr2 expression. In summary, the MERG1a K+ channel, known to induce atrophy and MURF1 E3 ligase expression, does not affect UBR2 E3 ligase transcript levels. Therefore, to date, the MERG1a channel’s contribution to UPP activity appears mainly to be through up-regulation of Murf1 gene expression.
topic Skeletal muscle atrophy
UBR2
E3-II
ERG1a potassium channel
hind limb suspension
E3 ligase
ubiquitin proteasome pathway
url http://pagepressjournals.org/index.php/bam/article/view/3319
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