There is an an increasing amount of evidence for the linking of intracellular cytoskeletal structures to membrane proteins of the plasma membrane in both the lymphocyte and erythrocyte and such complexes can be separated from other membrane components by extraction with non-ionic detergents (Koch & Smith, 1978; Branton et al., 1981; Mescher et al., 1981; Geiger, 1983). The purpose of the present work is to identify and characterize cytoskeletonmembrane links in synaptosomes, pinched-off nerveendings which can be prepared from brain by subcellular fractionation (Whittaker, 1969). Snaptosomes were prepared from rat cerebral cortex as described previously (Hesketh et al., 1977), harvested by centrifugation and resuspended in 0.32~-sucrose. After incubation in 10m-Tris/O. 15~-NaCl/I% Nonidet P40/1 mM-MgC12/ 1 mM-EGTA/l m-phenylmethylsulphonyl fluoride for 30min at M 0 C (Hesketh et al., 1983), the samples were centrifuged at 35000g for 30min and the pellet of insoluble cytoskeletal proteins was either resuspended in a small volume of l0m-Tris buffer, pH8.0, or fixed in 2.5% glutaraldehyde in 30mwPipes (14piperazinediethanesulphonic acid), pH 7.2, and processed for electron microscopy. SDS/polyacrylamide-gel electrophoresis was carried out using 7.5% acrylamide gels in a discontinuous system with Tris/glycine buffer (Laemmli, 1970). After electrophoresis gels were either stained with Coomassie Brilliant Blue to reveal proteins or the proteins were transferred to nitrocellulose paper (Towbin et al., 1979) for either detection of glycoproteins using a biotin/ avidin system (Gordon-Weeks, 1983) or immunological detection of spectrin-like protein. SDS/polyacrylamide-gel electrophoresis showed the Nonidet residue to contain seven major polypeptide bands, the approximate molecular weights of which were 225, 158, 78,70, 56,40 and 45 kilodaltons. Densitometry showed the 225-kilodalton component to comprise about 50% of the protein content. Transfer of the protein to nitrocellulose sheets and incubation with antibodies against spectrin showed this component to be a spectrin-like protein (Hesketh er al., 1983). This protein is presumably identical to fodrin, a spectrin-like protein recently isolated from brain (Burridge et ul., 1982). PSD contain a doublet of polypeptides of molecular weight very similar to fodrin and which react with anti-fodrin antibodies (Carlin et al., 1983). However, the Nonidet synaptosome cytoskeleton appears quite distinct from such PSD; the polypeptide composition is quite different, there being much more spectrin present in the Nonidet residue and very little of the 51-kilodalton PSDspecific protein. In addition the residue contained very little PSD material as judged by electron microscopy but consisted of fine filaments and amorphous, electron-dense material Using the biotinfavidin blotting technique several concanavalin A-binding glycoproteins were found present in the Nonidet residue; the major binding protein was of 178 kilodaltons, with other components of approximate molecular weight 200, 157, 141, 116, 104 and 58 kilodaltons. In conclusion Nonidet treatment of synaptosomes has allowed the preparation of a synaptosome cytoskeleton which contains primarily fodrin, a spectrin-like protein, and also actin. By comparison with the erythrocyte, it is
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