Characterization of calsequestrin of avian skeletal muscle

Abstract

A calsequentrin (CS)-like glycoprotein is present in the sarcoplasmic reticulum (SR) of chicken pectoralis muscle, which displays unusual properties: it binds relatively low amounts of Ca²⁺, compared to CS in mammalian skeletal muscle (Yap & MacLennan, 1976), it does not exhibit a marked pH-dependent shift in mobility in sodium dodecyl sulphate polyacrylamide gel electrophoresis (SDS-PAGE), and its metachromatic staining properties with Stains All are likewise peculiar (Damianiet al., 1986). We have now definitively localized the same protein to the junctional terminal cisternae (TC) fraction of the SR of chicken pectoralis muscle and have further characterized it, following purification by crystallization with Ca²⁺ and by Ca²⁺-dependent elution from phenyl-Sepharose columns. The purified protein (apparent M_r: 51 kDa), isoelectrofocuses at pH 4.5, and is readily identified on blots by a⁴⁵Ca overlay technique, similar to CS of rabbit skeletal muscle, but it binds half as much Ca²⁺ (about 20 moles of Ca²⁺ per mole of protein), as estimated by equilibrium dialysis. However, the chicken protein shares extensive similarities with mammalian CSs, concerning Ca²⁺-induced changes in maximum intrinsic fluorescence and the Ca²⁺-modulated interaction with phenyl-Sepharose, as well as in being protected by Ca²⁺ from proteolysis by either trypsin or chymotrypsin. We discuss how the presence of a Ca²⁺-regulated hydrophobic site in the CS molecule appears to be the most invariant property of the CS-family of Ca²⁺-binding proteins.