Abstract
Background Skeletal muscle constitutes approximately 40% of body mass, and age-induced decrease of muscle strength impinge on daily activities and on normal social life in the elderly. Loss of muscle strength has been recognised as a debilitating and life threatening condition also in cachexia in cancer patients and in clinical conditions associated with prolonged bed rest. Skeletal muscle dihydropyridine receptors (Cav1.1) act as Ca2+ channels and voltage sensors to initiate muscle contraction by activating ryanodine receptors, the Ca2+ release channels of the sarcoplasmic reticulum. Cav1.1 activity is enhanced by a retrograde stimulatory signal delivered by the ryanodine receptor. JP45 is a membrane protein interacting with Cav1.1 and the sarcoplasmic reticulum Ca2+ storage protein calsequestrin (CASQ1). We hypothesized that JP45 and CASQ1 form a signalling pathway which modulates Cav1.1 channel activity.
Highlights
Cav1.1 activity is enhanced by a retrograde stimulatory signal delivered by the ryanodine receptor
JP45 is a membrane protein interacting with Cav1.1 and the sarcoplasmic reticulum Ca2+ storage protein calsequestrin (CASQ1)
We hypothesized that JP45 and CASQ1 form a signalling pathway which modulates Cav1.1 channel activity
Summary
Skeletal muscle constitutes approximately 40% of body mass, and age-induced decrease of muscle strength impinge on daily activities and on normal social life in the elderly. Role of sarcoplasmic reticulum junctional proteins in skeletal muscle strength Barbara Mosca1, Osvaldo Delbono2, Maria Laura Messi2, Leda Bergamelli1, Mirko Vukcevic3, Ruben Lopez1, Susan Treves1,3, Miyuki Nishi4, Hiroshi Takeshima4, Francesco Zorzato1,3* From 33rd Annual Meeting of the European Malignant Hyperthermia Group (EMHG) Würzburg, Germany.
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