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Originally published as MBoC in Press, 10.1091/mbc.E08-10-1029 on July 15, 2009

Vol. 20, Issue 17, 3905-3917, September 1, 2009

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The Rho-Guanine Nucleotide Exchange Factor Domain of Obscurin Activates RhoA Signaling in Skeletal Muscle

Diana L. Ford-Speelman, Joseph A. Roche, Amber L. Bowman*, and Robert J. Bloch

Department of Physiology, University of Maryland School of Medicine, Baltimore, MD 21201

Submitted October 14, 2008; Revised June 9, 2008; Accepted July 8, 2009
Monitoring Editor: Patrick J. Brennwald

Obscurin is a large (~800-kDa), modular protein of striated muscle that concentrates around the M-bands and Z-disks of each sarcomere, where it is well positioned to sense contractile activity. Obscurin contains several signaling domains, including a rho-guanine nucleotide exchange factor (rhoGEF) domain and tandem pleckstrin homology domain, consistent with a role in rho signaling in muscle. We investigated the ability of obscurin's rhoGEF domain to interact with and activate small GTPases. Using a combination of in vitro and in vivo approaches, we found that the rhoGEF domain of obscurin binds selectively to rhoA, and that rhoA colocalizes with obscurin at the M-band in skeletal muscle. Other small GTPases, including rac1 and cdc42, neither associate with the rhoGEF domain of obscurin nor concentrate at the level of the M-bands. Furthermore, overexpression of the rhoGEF domain of obscurin in adult skeletal muscle selectively increases rhoA expression and activity in this tissue. Overexpression of obscurin's rhoGEF domain and its effects on rhoA alter the expression of rho kinase and citron kinase, both of which can be activated by rhoA in other tissues. Injuries to rodent hindlimb muscles caused by large-strain lengthening contractions increases rhoA activity and displaces it from the M-bands to Z-disks, similar to the effects of overexpression of obscurin's rhoGEF domain. Our results suggest that obscurin's rhoGEF domain signals at least in part by inducing rhoA expression and activation, and altering the expression of downstream kinases in vitro and in vivo.

This article was published online ahead of print in MBC in Press (http://www.molbiolcell.org/cgi/doi/10.1091/mbc.E08-10-1029) on July 15, 2009.

* Present address: Department of Medicine, Duke University School of Medicine, Durham, NC 27710.

Address correspondence to: Robert J. Bloch (rbloch{at}umaryland.edu)






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