Macrophages promote muscle membrane repair and muscle fibre growth and regeneration during modified muscle loading in mice in vivo

doi:10.1113/jphysiol.2006.118265

SKELETAL MUSCLE AND EXERCISE

Macrophages promote muscle membrane repair and muscle fibre growth and regeneration during modified muscle loading in mice in vivo

James G. Tidball¹^,2 and Michelle Wehling-Henricks¹

Departments of
¹ Physiological Science
² Pathology and Laboratory Medicine, University of California, Los Angeles, CA, USA

Muscle injury or modified muscle use can stimulate muscle invasionby leucocytes that have the potential to increase tissue damageor promote tissue growth and repair. In the present investigation,we examined the role of macrophages in muscle injury, repairand regeneration during modified muscle loading. Weight-bearingwas removed from the hindlimbs of mice for 10 days followedby reloading through normal ambulation. During the unloadingperiod, soleus muscle fibre cross-section decreased by 38%.Prior to the onset of reloading, mice received a series of intraperitonealinjections of anti-F4/80, which binds a mouse macrophage surfaceantigen. Although anti-F4/80 injections did not affect macrophagenumbers in soleus muscles at 2 days of reloading, macrophageswere reduced by 86% at 4 days of reloading. Muscle membranelysis during the reloading period did not differ at 2 days ofreloading between anti-F4/80-treated mice and mice that receivedisotype control antibody. However, control animals showed largedecreases in the number of fibres with membrane lesions at 4days of reloading, but this membrane repair did not occur inmacrophage-depleted mice. Macrophage-depletion also reducedmuscle regeneration (indicated by central nucleation) and satellitecell differentiation (indicated by reductions in MyoD-expressingsatellite cells) and prevented growth of muscle fibres thatnormally occurred in control animals between days 2 and 4 ofreloading. These findings collectively show that macrophagesplay a significant role in muscle fibre membrane repair, regenerationand growth during increased muscle use after a period of atrophy.

(Received 28 July 2006; accepted after revision 5 October 2006; first published online 12 October 2006)
Corresponding author J. G. Tidball: Department of Physiological Science, 5833 Life Science Building, University of California, Los Angeles, CA 90095, USA. Email: jtidball{at}physci.ucla.edu

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