Heat treatment reduces oxidative stress and protects muscle mass during immobilization

doi:10.1152/ajpregu.00497.2004

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Heat treatment reduces oxidative stress and protects muscle mass during immobilization

Joshua T. Selsby and Stephen L. Dodd

Department of Applied Physiology and Kinesiology, University of Florida, Gainesville, Florida

Submitted 26 July 2004 ; accepted in final form 8 March 2005

This study examined the role of heating on oxidative stressand muscle mass in immobilized limbs. Rats were divided intothree groups (n = 9/group): a control group (Con), an immobilizedgroup (Im), and an immobilized and heated group (ImH). Ratswere immobilized in the plantarflexed position for 8 days. Thecore temperature of the ImH group was elevated to 41–41.5°Con alternating days and maintained for 30 min before cooling.On day 8, both heat shock protein 25 (HSP25) and HSP72 weremarkedly elevated in the ImH compared with the Im group, whereasresults in the Im group were not different from Con. Most notably,the ImH group had significantly larger solei compared with theIm group, which were less than those shown in the Con group.Furthermore, immobilization alone caused a significant increasein oxidative damage, and the addition of heating to immobilizationsignificantly reduced oxidative damage. In an effort to furtheridentify the cause of this protective effect, antioxidant enzymeactivities were assessed. CuZnSOD was sharply elevated in Imcompared (P < 0.025) with that in the Con and reduced inthe ImH group compared with that in the Im group (P < 0.025).Catalase was elevated 8% (P < 0.025) in the Im group comparedwith the Con group and was similar to the ImH group. Glutathioneperoxidase, glutathione reductase, and MnSOD did not differbetween groups. These data indicate that heating provides protectionagainst oxidative stress and preserves muscle mass during disuseatrophy. These data also suggest that antioxidant protectionis not conferred via antioxidant enzymes, and HSPs may playan important role.

free radicals; antioxidant; rat; soleus

Address for reprint requests and other correspondence: S. L. Dodd, PO Box 118205, Univ. of Florida, Gainesville, FL 32611 (E-mail: sdodd{at}hhp.ufl.edu)

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