Upregulation of the Cav 1.1-Ryanodine Receptor Complex in a Rat Model of Critical Illness Myopathy

Susan D. Kraner, Qingbo Wang, Kevin R. Novak, Dongmei Cheng, David R. Cool, Junmin Peng, Mark M. Rich

Research output: Contribution to journalArticlepeer-review

Abstract

The processes that trigger severe muscle atrophy and loss of myosin in critical illness myopathy (CIM) are poorly understood. It has been reported that muscle disuse alters Ca 2+ handling by the sarcoplasmic reticulum. Since inactivity is an important contributor to CIM, this finding raises the possibility that elevated levels of the proteins involved in Ca 2+ handling might contribute to development of CIM. CIM was induced in 3- to 5-mo-old rats by sciatic nerve lesion and infusion of dexamethasone for 1 wk. Western blot analysis revealed increased levels of ryanodine receptor (RYR) isoforms-1 and -2 as well as the dihydropyridine receptor/voltage-gated calcium channel type 1.1 (DHPR/Ca V 1.1). Immunostaining revealed a subset of fibers with elevation of RYR1 and Ca V 1.1 that had severe atrophy and disorganization of sarcomeres. These findings suggest increased Ca 2+ release from the sarcoplasmic reticulum may be an important contributor to development of CIM. To assess the endogenous functional effects of increased intracellular Ca 2+ in CIM, proteolysis of α-fodrin, a well-known target substrate of Ca 2+ -activated proteases, was measured and found to be 50% greater in CIM. There was also selective degradation of myosin heavy chain relative to actin in CIM muscle. Taken together, our findings suggest that increased Ca 2+ release from the sarcoplasmic reticulum may contribute to pathology in CIM.

Keywords

  • calpain
  • muscular diseases
  • myosins
  • ryanodine receptor calcium release channel

Disciplines

  • Medical Cell Biology
  • Medical Neurobiology
  • Medical Physiology
  • Medical Sciences
  • Medicine and Health Sciences
  • Neurosciences
  • Physiological Processes

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