The LRRC8/VRAC anion channel facilitates myogenic differentiation of murine myoblasts by promoting membrane hyperpolarization

The LRRC8/VRAC anion channel facilitates myogenic differentiation of murine myoblasts by promoting membrane hyperpolarization

Skeletal muscle myoblast differentiation involves elaborate signaling networks, including the activity of various ion channels and transporters. Several K+ and Ca2+ channels have been shown to affect myogenesis, but little is known about roles of Cl− channels in the associated processes. Here, we re...

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Bibliographic Details
Published in:The Journal of biological chemistry Vol. 294; no. 39; pp. 14279 - 14288
Main Authors: Chen, Lingye, Becker, Thorsten M., Koch, Ursula, Stauber, Tobias
Format: Journal Article
Language:English
Published: United States Elsevier Inc 27-09-2019
American Society for Biochemistry and Molecular Biology
Subjects:
Animals
C2C12 myoblasts
calcium
Cell Biology
Cell Differentiation
Cell Line
chloride channel
hyperpolarization
membrane potential
Membrane Potentials
Membrane Proteins - genetics
Membrane Proteins - metabolism
Mice
Myoblasts - cytology
Myoblasts - metabolism
Myoblasts - physiology
myogenesis
Myogenin - genetics
Myogenin - metabolism
skeletal muscle
volume-regulated anion channel (VRAC)
C2C12 myoblasts
cell differentiation
calcium
chloride channel
membrane potential
hyperpolarization
myogenesis
skeletal muscle
volume-regulated anion channel (VRAC)
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Summary:Skeletal muscle myoblast differentiation involves elaborate signaling networks, including the activity of various ion channels and transporters. Several K+ and Ca2+ channels have been shown to affect myogenesis, but little is known about roles of Cl− channels in the associated processes. Here, we report that the leucine-rich repeat containing family 8 (LRRC8)/volume-regulated anion channel (VRAC) promotes mouse myoblast differentiation. All LRRC8 subunits of heteromeric VRAC were expressed during myotube formation of murine C2C12 myoblasts. Pharmacological VRAC inhibitors, siRNA-mediated knockdown of the essential VRAC subunit LRRC8A, or VRAC activity-suppressing overexpression of LRRC8A effectively reduced the expression of the myogenic transcription factor myogenin and suppressed myoblast fusion while not affecting myoblast proliferation. We found that inhibiting VRAC impairs plasma membrane hyperpolarization early during differentiation. At later times (more than 6 h after inducing differentiation), VRAC inhibition no longer suppressed myoblast differentiation, suggesting that VRAC acts upstream of K+ channel activation. Consequently, VRAC inhibition prevented the increase of intracellular steady-state Ca2+ levels that normally occurs during myogenesis. Our results may explain the mechanism for the thinning of skeletal muscle bundles observed in LRRC8A-deficient mice and highlight the importance of the LRRC8/VRAC anion channel in cell differentiation.
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content type line 23
Edited by Mike Shipston
ISSN:0021-9258
1083-351X
DOI:10.1074/jbc.RA119.008840