Localization by immunoelectron microscopy of spanning protein of triad junction in terminal cisternae/triad vesicles

Abstract

Polyclonal antibodies have been developed against the junctional feet or spanning protein from skeletal muscle triads. These probes in combination with immunogold labels have been used to localize the spanning protein by electron microscope of isolated vesicles from terminal cisternae/triads. The spanning protein antibodies specifically bind to the electron dense junctional feet. In vesicles permeabilized by hypotonic treatment or by saponin, some gold particles may be seen on the luminal side of the vesicle. Trypsin treatment of vesicles causes complete loss of the 300 K spanning protein from SDS gels while dot blots show that some but not all the antigenic activity is lost. This treatment is associated with the loss of the electron dense projections from the membrane surface and is coincident with the loss of immunogold staining when antibody is added to the intact vesicles. On the other hand, in experiments in which the luminal portions of the isolated vesicles have been made accessible to the polyclonal antibodies by sectioning lightly fixed vesicles before immunogold tagging, extensive gold labelling was found to occur in trypsin treated vesicles which have lost detectable projections from the cytoplasmic side of the membrane. These data support the view that the spanning protein projects from the sarcoplasmic reticulum towards the transverse tubules but further suggest that spanning protein extends into and probably through the sarcoplasmic reticulum membrane in accord with the proposition that it is a Ca²⁺ channel.