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Ca(2+) permeation and/or binding to CaV1.1 fine-tunes skeletal muscle Ca(2+) signaling to sustain muscle function.

Authors :
Lee CS
Dagnino-Acosta A
Yarotskyy V
Hanna A
Lyfenko A
Knoblauch M
Georgiou DK
Poché RA
Swank MW
Long C
Ismailov II
Lanner J
Tran T
Dong K
Rodney GG
Dickinson ME
Beeton C
Zhang P
Dirksen RT
Hamilton SL
Source :
Skeletal muscle [Skelet Muscle] 2015 Jan 29; Vol. 5, pp. 4. Date of Electronic Publication: 2015 Jan 29 (Print Publication: 2015).
Publication Year :
2015

Abstract

Background: Ca(2+) influx through CaV1.1 is not required for skeletal muscle excitation-contraction coupling, but whether Ca(2+) permeation through CaV1.1 during sustained muscle activity plays a functional role in mammalian skeletal muscle has not been assessed.<br />Methods: We generated a mouse with a Ca(2+) binding and/or permeation defect in the voltage-dependent Ca(2+) channel, CaV1.1, and used Ca(2+) imaging, western blotting, immunohistochemistry, proximity ligation assays, SUnSET analysis of protein synthesis, and Ca(2+) imaging techniques to define pathways modulated by Ca(2+) binding and/or permeation of CaV1.1. We also assessed fiber type distributions, cross-sectional area, and force frequency and fatigue in isolated muscles.<br />Results: Using mice with a pore mutation in CaV1.1 required for Ca(2+) binding and/or permeation (E1014K, EK), we demonstrate that CaV1.1 opening is coupled to CaMKII activation and refilling of sarcoplasmic reticulum Ca(2+) stores during sustained activity. Decreases in these Ca(2+)-dependent enzyme activities alter downstream signaling pathways (Ras/Erk/mTORC1) that lead to decreased muscle protein synthesis. The physiological consequences of the permeation and/or Ca(2+) binding defect in CaV1.1 are increased fatigue, decreased fiber size, and increased Type IIb fibers.<br />Conclusions: While not essential for excitation-contraction coupling, Ca(2+) binding and/or permeation via the CaV1.1 pore plays an important modulatory role in muscle performance.

Details

Language :
English
ISSN :
2044-5040
Volume :
5
Database :
MEDLINE
Journal :
Skeletal muscle
Publication Type :
Academic Journal
Accession number :
25717360
Full Text :
https://doi.org/10.1186/s13395-014-0027-1