New methods for the isolation of skeletal muscle sarcolemma and sarcoplasmic reticulum allowing a comparison between the mammalian and amphibian beta(2)-adrenergic receptors and calcium pumps.

Abstract

New methods were established for the rapid and simultaneous isolation of multiple sarcolemmal and sarcoplasmic reticular fractions from very small amounts (0.25-2.0 g) of skeletal muscle. Thebeta(2)-adrenergic receptor and calcium transport systems were used as indices of purity and functional integrity as well as being the focal points of the study. These methods were found to be suitable for the special needs of small tissue samples, allowed rapid preparation and were appropriate for skeletal muscle from various species, frogs to mammals. The sarcolemmalbeta(2)-adrenergic receptor was expressed in frogs and mammals at similar levels of expression (336-454 fmol. x mg(-1)). The calcium pump was also present in sarcolemmal and sarcoplasmic reticular fractions in all species but notable species differences were found. In sarcolemmal fractions, while calcium binding was uniformly low (<1 nmol. x mg(-1)), oxalate stimulation was variable: low in frogs ( approximately 1.05-fold) high in mammals (120-450-fold). In sarcoplasmic reticular fractions, calcium binding was low in frogs (4-9 nmol. x mg(-1)) and much higher in mammals (322-383 nmol. x mg(-1)); oxalate stimulated calcium transport to a much greater extent in frogs (<70-fold) than in mammals (1.6-2-fold). It is concluded that thebeta(2)-adrenergic receptor appears to be strongly conserved in skeletal muscle while the use of calcium pumps evolves from reliance in Amphibia on the sarcoplasmic reticular calcium pump to the use in Mammalia of calcium pumps from both the sarcoplasmic reticulum and the plasma membrane.