Regulation of Protein Catabolism by Muscle-Specific and Cytokine-Inducible Ubiquitin Ligase E3α-II during Cancer Cachexia

Abstract

The progressive depletion of skeletal muscle is a hallmark of many types of advanced cancer and frequently is associated with debility, morbidity, and mortality. Muscle wasting is primarily mediated by the activation of the ubiquitin-proteasome system, which is responsible for degrading the bulk of intracellular proteins. E3 ubiquitin ligases control polyubiquitination, a rate-limiting step in the ubiquitin-proteasome system, but their direct involvement in muscle protein catabolism in cancer remains obscure. Here, we report the full-length cloning of E3α-II, a novel “N-end rule” ubiquitin ligase, and its functional involvement in cancer cachexia. E3α-II is highly enriched in skeletal muscle, and its expression is regulated by proinflammatory cytokines. In two different animal models of cancer cachexia, E3α-II was significantly induced at the onset and during the progression of muscle wasting. The E3α-II activation in skeletal muscle was accompanied by a sharp increase in protein ubiquitination, which could be blocked by arginine methylester, an E3α-selective inhibitor. Treatment of myotubes with tumor necrosis factor α or interleukin 6 elicited marked increases in E3α-II but not E3α-I expression and ubiquitin conjugation activity in parallel. E3α-II transfection markedly accelerated ubiquitin conjugation to endogenous cellular proteins in muscle cultures. These findings show that E3α-II plays an important role in muscle protein catabolism during cancer cachexia and suggest that E3α-II is a potential therapeutic target for muscle wasting.