Rapid muscle-specific gene expression changes after a single bout of eccentric contractions in the mouse

doi:10.1152/ajpcell.00211.2003

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Rapid muscle-specific gene expression changes after a single bout of eccentric contractions in the mouse

Ilona A. Barash, Liby Mathew, Allen F. Ryan, Ju Chen, and Richard L. Lieber

Departments of Orthopaedics, Bioengineering, Surgery, and Medicine and the Biomedical Sciences Graduate Group, University of California and Department of Veterans Affairs Medical Centers, San Diego, California 92161

Submitted 21 May 2003 ; accepted in final form 9 October 2003

Eccentric contractions (ECs), in which a muscle is forced tolengthen while activated, result in muscle injury and, eventually,muscle strengthening and prevention of further injury. Althoughthe mechanical basis of EC-induced injury has been studied indetail, the biological response of muscle is less well characterized.This study presents the development of a minimally invasivemodel of EC injury in the mouse, follows the time course oftorque recovery after an injurious bout of ECs, and uses Affymetrixmicroarrays to compare the gene expression profile 48 h afterECs to both isometrically stimulated muscles and contralateralmuscles. Torque dropped by $~$ 55% immediately after the exercisebout and recovered to initial levels 7 days later. Thirty-sixknown genes were upregulated after ECs compared with contralateraland isometrically stimulated muscles, including five muscle-specificgenes: muscle LIM protein (MLP), muscle ankyrin repeat proteins(MARP1 and -2; also known as cardiac ankyrin repeat proteinand Arpp/Ankrd2, respectively), Xin, and myosin binding proteinH. The time courses of MLP and MARP expression after the injurybout (determined by quantitative real-time polymerase chainreaction) indicate that these genes are rapidly induced, reachinga peak expression level of 6–11 times contralateral values12–24 h after the EC bout and returning to baseline within72 h. Very little gene induction was seen after either isometricactivation or passive stretch, indicating that the MLP and MARPgenes may play an important and specific role in the biologicalresponse of muscle to EC-induced injury.

muscle LIM protein; cardiac ankyrin repeat protein; muscle ankyrin repeat protein; microarray

Address for reprint requests and other correspondence: R. L. Lieber, Dept. of Orthopaedics (9151), VA Medical Center and Univ. of California-San Diego, 3350 La Jolla Village Dr., San Diego, CA 92161 (E-mail: rlieber{at}ucsd.edu).

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