Modulation of acto-myosin contractility in skeletal muscle myoblasts uncouples growth arrest from differentiation

doi:10.1242/jcs.01197

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JCS ePress online publication date 13 Jul 2004
doi: 10.1242/jcs.01197

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Research Article

Modulation of acto-myosin contractility in skeletal muscle myoblasts uncouples growth arrest from differentiation

Jyotsna Dhawan^* and David M. Helfman
^* Author for correspondence (e-mail: jdhawan{at}ccmb.res.in)

Cell-substratum interactions trigger key signaling pathwaysthat modulate growth control and tissue-specific gene expression.We have previously shown that abolishing adhesive interactionsby suspension culture results in G₀ arrest of myoblasts. Wereport that blocking intracellular transmission of adhesion-dependentsignals in adherent cells mimics the absence of adhesive contacts.We investigated the effects of pharmacological inhibitors ofacto-myosin contractility on growth and differentiation of C2C12myogenic cells. ML7 (5-iodonaphthalene-1-sulfonyl homopiperazine)and BDM (2,3, butanedione monoxime) are specific inhibitorsof myosin light chain kinase, and myosin heavy chain ATPase,respectively. ML7 and BDM affected cell shape by reducing focaladhesions and stress fibers. Both inhibitors rapidly blockedDNA synthesis in a dose-dependent, reversible fashion. Furthermore,both ML7 and BDM suppressed expression of MyoD and myogenin,induced p27^kip1 but not p21^cip1, and inhibited differentiation.Thus, as with suspension-arrest, inhibition of acto-myosin contractilityin adherent cells led to arrest uncoupled from differentiation.Over-expression of inhibitors of the small GTPase RhoA (dominantnegative RhoA and C3 transferase) mimicked the effects of myosininhibitors. By contrast, wild-type RhoA induced arrest, maintainedMyoD and activated myogenin and p21 expression. The Rho effectorkinase ROCK did not appear to mediate Rho's effects on MyoD.Thus, ROCK and MLCK play different roles in the myogenic program.Signals regulated by MLCK are critical, since inhibition ofMLCK suppressed MyoD expression but inhibition of ROCK did not.Inhibition of contractility suppressed MyoD but did not reduceactin polymer levels. However, actin depolymerization with latrunculinB inhibited MyoD expression. Taken together, our observationsindicate that actin polymer status and contractility regulateMyoD expression. We suggest that in myoblasts, the Rho pathwayand regulation of acto-myosin contractility may define a controlpoint for conditional uncoupling of differentiation and thecell cycle.

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