Calcium-independent phospholipase A2 modulates cytosolic oxidant activity and contractile function in murine skeletal muscle cells

doi:10.1152/japplphysiol.00873.2005

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J Appl Physiol 100: 399-405, 2006. First published September 15, 2005; doi:10.1152/japplphysiol.00873.2005
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Calcium-independent phospholipase A₂ modulates cytosolic oxidant activity and contractile function in murine skeletal muscle cells

Ming C. Gong, Sandrine Arbogast, Zhenheng Guo, Jeremy Mathenia, Wen Su, and Michael B. Reid

Department of Physiology, University of Kentucky, Lexington, Kentucky

Submitted 19 July 2005 ; accepted in final form 10 September 2005

Phospholipase A₂ (PLA₂) activity supports production of reactiveoxygen species (ROS) by mammalian cells. In skeletal muscle,endogenous ROS modulate the force of muscle contraction. Wetested the hypothesis that skeletal muscle cells constitutivelyexpress the calcium-independent PLA₂ (iPLA₂) isoform and thatiPLA₂ modulates both cytosolic oxidant activity and contractilefunction. Experiments utilized differentiated C₂C₁₂ myotubesand a panel of striated muscles isolated from adult mice. Musclepreparations were processed for measurement of mRNA by real-timePCR, protein by immunoblot, cytosolic oxidant activity by thedichlorofluorescein oxidation assay, and contractile functionby in vitro testing. We found that iPLA₂ was constitutivelyexpressed by all muscles tested (myotubes, diaphragm, soleus,extensor digitorum longus, gastrocnemius, heart) and that mRNAand protein levels were generally similar among muscles. SelectiveiPLA₂ blockade by use of bromoenol lactone (10 µM) decreasedcytosolic oxidant activity in myotubes and intact soleus musclefibers. iPLA₂ blockade also inhibited contractile function ofunfatigued soleus muscles, shifting the force-frequency relationshiprightward and depressing force production during acute fatigue.Each of these changes could be reproduced by selective depletionof superoxide anions using superoxide dismutase (1 kU/ml). Thesefindings suggest that constitutively expressed iPLA₂ modulatesoxidant activity in skeletal muscle fibers by supporting ROSproduction, thereby influencing contractile properties and fatiguecharacteristics.

reactive oxygen species; excitation-contraction species; antioxidants; exercise; signal transduction

Address for reprint requests and other correspondence: M. B. Reid, Dept. of Physiology, Univ. of Kentucky Medical Center, 800 Rose St., Lexington, KY 40536 (e-mail: michael.reid{at}uky.edu)

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