Oxidative stress in skeletal muscle stimulates early expression of Rad in a mouse model of amyotrophic lateral sclerosis

Abstract

Motor neuron degeneration and progressive muscle atrophy characterize amyotrophic lateral sclerosis (ALS) in humans and related mutant superoxide dismutase-1 (SOD1) transgenic mice. Our previous microarray studies on ALS muscle revealed strong up-regulation of Ras-related associated with diabetes (Rad), an inhibitor of voltage-gated calcium channels. The mechanisms controlling Rad expression in disease are unknown. We analyzed Rad expression in skeletal muscle from ALS patients and animal models and investigated whether it is regulated by oxidative stress. In mutant SOD1 mice, Rad up-regulation preceded motor symptoms and markedly increased as disease progressed. Increased Rad expression was also obtained in surgically denervated muscle. No clinical signs of denervation were seen in asymptomatic mice, however. We therefore suspected that muscular mutant SOD1 toxicity causes precocious Rad up-regulation. We confirmed the accumulation of reactive oxygen species (ROS) at asymptomatic stages, coincident with the rise in Rad expression. By subjecting muscle to ischemia-reperfusion, we observed ROS accumulation and Rad overexpression. The cell-permeative antioxidant Tempol inhibited the stimulatory effect of ischemia-reperfusion. Tempol also reduced Rad up-regulation after experimental denervation. Our study provides strong evidence for the implication of oxidative stress in modulating Rad expression, in association with the initiation and progression of ALS muscle atrophy.