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Mitigating sarcoplasmic reticulum stress limits disuse-induced muscle loss in hindlimb unloaded mice.


ABSTRACT: Muscle disuse in the hindlimb unloaded (HU) mice causes significant atrophy and weakness. However, the cellular and molecular mechanisms driving disuse-muscle atrophy remain elusive. We investigated the potential contribution of proteins dysregulation by sarcoplasmic reticulum (SR), a condition called SR stress, to muscle loss during HU. Male, c57BL/6j mice were assigned to ground-based controls or HU groups treated with vehicle or 4-phenylbutyrate (4-PBA), a potent inhibitor of SR stress, once a day for three weeks. We report that the 4-PBA reduced the SR stress and partly reversed the muscle atrophy and weakness in the HU mice. Transcriptome analysis revealed that several genes were switched on (n = 3688) or differentially expressed (n = 1184) due to HU. GO, and KEGG term analysis revealed alterations in pathways associated with the assembly of cilia and microtubules, extracellular matrix proteins regulation, calcium homeostasis, and immune modulation during HU. The muscle restoration with 4-PBA partly reversed these changes along with differential and unique expression of several genes. The analysis of genes among the two comparisons (HU-v vs. control and HU-t vs. HU-v.) shows 841 genes were overlapped between the two comparisons and they may be regulated by 4-PBA. Altogether, our findings suggest that the pharmacological suppression of SR stress may be an effective strategy to prevent disuse-induced muscle weakness and atrophy.

SUBMITTER: Khan AA 

PROVIDER: S-EPMC9273600 | biostudies-literature | 2022 Jul

REPOSITORIES: biostudies-literature

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Mitigating sarcoplasmic reticulum stress limits disuse-induced muscle loss in hindlimb unloaded mice.

Khan Amir Ali AA   Gul Muhammad Tehsil MT   Karim Asima A   Ranade Anu A   Azeem Muhammad M   Ibrahim Zeinab Z   Ramachandran Gopika G   Nair Vidhya A VA   Ahmad Firdos F   Elmoselhi Adel A   Qaisar Rizwan R  

NPJ microgravity 20220711 1


Muscle disuse in the hindlimb unloaded (HU) mice causes significant atrophy and weakness. However, the cellular and molecular mechanisms driving disuse-muscle atrophy remain elusive. We investigated the potential contribution of proteins dysregulation by sarcoplasmic reticulum (SR), a condition called SR stress, to muscle loss during HU. Male, c57BL/6j mice were assigned to ground-based controls or HU groups treated with vehicle or 4-phenylbutyrate (4-PBA), a potent inhibitor of SR stress, once  ...[more]

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