Abstract

Light and heavy sarcoplasmic reticulum vesicles were isolated from rabbit leg muscle using a combination of differential centrifugation and isophycnic zonal ultracentrifugation. Light sarcoplasmic reticulum vesicles obtained from the 30–32.5% and heavy sarcoplasmic reticulum vesicles obtained from the 38.5–42% sucrose regions of the linear sucrose gradient were determined to be free of surface and mitochondrial membrane contamination by marker enzyme analysis and electron microscopy. Thin sections of the light vesicles revealed empty vesicles of various sizes and shapes. Freeze-fracture replicas of the light vesicles showed an asymmetric distribution of intramembranous particles with the same orientation and distribution as the longitudinal sarcoplasmic reticulum in vivo. Heavy vesicles appeared as rounded vesicles of uniform size filled with electron dense material, similar to that seen in the terminal cisternae of the sarcoplasmic reticulum. The cytoplasmic surface of the membrane was decorated by membrane projections, closely resembling the ‘feet’ which join the sarcoplasmic reticulum to the transverse tubules in the intact muscle fiber. Freeze-fracture replicas of the heavy vesicles revealed an asymmetric distribution of particles which in some areas of the vesicle's surface are larger and less densely aggregated than those of the light vesicles. In the best quality replicas, some regions of the luminal leaflet were not smooth but showed evidence of pits. These structural details are characteristic of the area of sarcoplasmic reticulum membrane which is covered by the ‘feet’ in the intact muscle. Heavy vesicles contained greater than six times the calcium content of light vesicles, 54 vs. 9 nmol Ca 2+/μl of water space. After KCl washing both contained less than 4 nmol Ca 2+/μl of water space. Although they transported at the same rate and the same total amount of calcium, the rate of passive Ca 2+ efflux from the heavy vesicles was double that of light vesicles. The higher rate of calcium efflux from the heavy vesicles was inhibited by dantrolene, an inhibitor of Ca 2+ release. High resolution sodium dodecyl sulfate gel electrophoresis showed that the light vesicles contained predominantly Ca 2+-ATPase along with several approx. 55 000-dalton proteins and a 5000-dalton proteolipid, while the heavy vesicles contained Ca 2+-ATPase and calsequestrin along with several approx. 55 000-dalton proteins, extrinsic 34 000- and 38 000-dalton proteins, intrinsic 30 000- and 33 000-dalton proteins and two proteolipids of 5000 and 9000 daltons. KCl washing of the heavy vesicles removed both the approx. 34 000- and 38 000-dalton proteins, and the ‘sarcoplasmic reticulum feet’ were no longer seen on the heavy vesicles. The KCl supernatant was enriched in the 34 000- and 38 000-dalton proteins, indicating that these proteins are possible components of the sarcoplasmic reticulum feet. The biochemical and morphological data strongly support the view that the light vesicles are derived from the longitudinal sarcoplasmic reticulum and that the heavy vesicles are derived from the terminal cisternae containing junctional sarcoplasmic reticulum membrane with the intact ‘sarcoplasmic reticulum feet’.

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