Synaptin, Na+,K+ ATPase, LDH, CNPase and cytochrome-c oxidase in adult rat brain synaptic vesicle fractions

Demonstration of immunochemical identity between the synaptic vesicle proteins synaptin and synaptophysin/p38

The synaptic vesicle proteins synaptin and synaptophysin/p38 were shown to be immunochemically identical. Western immunoblot analysis of Triton X-100 extracts from rat brain showed that polyclonal polyspecific anti-synaptin antibodies and monoclonal antibody SY38 against synaptophysin both reacted with a band of 38 kDa. In two-dimensional immunoblots of chromaffin granule membranes from bovine adrenal medulla anti-synaptin and anti-synaptophysin antibodies also recognized the same component. Finally, in a Western immunoblotting experiment SY38 reacted with an immuno-isolated synaptin antigen.

Glycoproteins from adult rat brain synaptic vesicles. Fractionation on four immobilized lectins

Glycoproteins obtained from large amounts of highly purified synaptic vesicles isolated from adult rat brain were fractionated by sequential affinity chromatography in the presence of SDS on four different immobilized lectins: concanavalin A, Ulex europeus lectin, Ricinus sanguinis lectin and wheat germ agglutinin. 83% of the total protein-bound sugar of synaptic vesicles can be adsorbed on the lectins and separated from the bulk of carbohydrate free proteins. Nine fractions containing only glycoproteins and differing by their terminal sugars were separated by analysed for their carbohydrate composition and electrophoretic profiles. A considerable heterogeneity of the glycoprotein population was observed which cannot be explained solely by the microheterogeneity of the glycans of the synaptic vesicle glycoproteins.

Nervous system-specific proteins in developing rat cerebral cells in culture

The nervous system-specific proteins; synaptin, D1, D2, D3, glial fibrillary acidic protein (GFA) and 14-3-2, were quantified in dissociated cerebral cells from the foetal rat brain at various times of growth in culture. By approximately 1 week in culture, the neuronal membrane markers synaptin, D1, D2, and D3 could all be demonstrated. A maximum concentration of 10-20% for synaptin, D1, and D3 and 160% for D2, in comparison with the levels in adult forebrain, was attained during the 2nd week in vitro. The astroglial gliofilament marker GFA increased continuously, reaching by 38 days of cultivation an 18-fold higher level than the concentration in adult forebrain. The neuronal cytoplasm marker 14-3-2 could be demonstrated in trace amounts, and only after more than 1 week in vitro. Neuronal cell bodies and processes stained by indirect immunofluorescence using an anti-D2 serum were strongly fluorescent after 1 week in vitro. Immunofluorescence staining for GFA revealed a cytoplasmic filamentous network in perinuclear areas and processes of, presumably, astroblasts.

Synaptin in acetylcholine- and catecholamine-containing synaptic vesicle fractions from brain cortex

The nervous system specific membrane protein, synaptin, was determined in acetylcholine- and catecholamine-storing synaptic vesicles isolated from guinea-pig cerebral cortex. Synaptin was enriched more than 10-fold in both types of vesicle preparation. The enrichment was independent of the nature of the transmitter.

Studies on synaptic vesicles in mammalian brain characterization of highly purified synaptic vesicles from bovine cerebral cortex

Synaptic vesicles have been isolated from bovine cerebral cortex by sequential differential and density gradient centrifugations followed by chromatography on a Sepharose 6B column. We have studied the morphology, enzymatic markers, neurotransmitter and ATP contents and protein composition of the vesicles. The specific contents of acetylcholine, gamma-aminobutyric acid, aspartate, glutamate and catecholamines were 4--8-fold higher in the vesicle fraction compared to the crude synaptosomal pellet. Electron micrographs of the vesicle preparation showed enrichment of vesicular material with an average diameter of 50 nm. The purity of the preparation was assessed by the very low activities of enzymatic markers of cellular membranes and cytosol components. Some Ca--Mg-activated ATPase activity was detected in the vesicle preparations, but its content relative to the neurotransmitters fell on chromatography, suggesting that this activity may be partially contributed by non-synaptic vesicle components, such as small microsomes. The isolated synaptic vesicles were solubilized with 1% sodium dodecyl sulfate and subjected to polyacrylamide gel electrophoresis. The major Coomassie blue stained bands observed with apparent molecular weights of 160,000 and 55,000 were enriched in parallel to the increase in purity of the preparation.