RESUMEN
A monoclonal antibody has been raised which recognizes an epitope, PAC 1 (postsynaptic density and cytoskeleton enriched), which is specifically associated with two novel glycoprotein components of forebrain postsynaptic density preparations and a novel neuronal cytoskeletal-associated polypeptide. The monoclonal antibody has been used to study the cellular and subcellular localization of these molecules and for the partial characterization of all three PAC 1 antigens in the rat. The PAC 1 epitope is present on two concanavalin A binding glycoproteins of apparent molecular weights 130,000 (pgp130) and 117,000 (pgp117). Both species are enriched in preparations of rat forebrain postsynaptic densities and to a lesser extent in synaptic membranes. The epitope is also expressed by a polypeptide of 155,000 mol. wt, cp155. This molecule is highly enriched in cytoskeleton rather than membrane preparations. Enzymic removal of N-linked carbohydrate lowers the molecular weights of the PAC 1 glycoproteins pgp130 and pgp117 by 11,000 and 14,000 respectively, and suggests that cp155 is not glycosylated. Detergent, alkaline and salt extractions of postsynaptic densities and synaptic membranes indicate that pgp130 and pgp117 are integral membrane glycoproteins and are tightly bound components of postsynaptic density preparations. Immunocytochemical studies of adult rat forebrain show prominent staining of pyramidal cell dendrites and perikarya. There is no evidence of glial staining. Electron microscope studies show staining of microtubules together with punctate deposits of plasma membrane-associated reaction product. Several criteria have been used to show that pgp130 and pgp117 do not correspond to other known neuronal glycoproteins of similar molecular weight. We conclude that the PAC 1 epitope is expressed by two novel synaptic glycoproteins which are very probably integral components of the postsynaptic density and by a novel neuronal cytoskeleton-associated protein.
Asunto(s)
Anticuerpos Monoclonales/inmunología , Antígenos/inmunología , Citoesqueleto/inmunología , Epítopos/inmunología , Glicoproteínas de Membrana/inmunología , Proteínas del Tejido Nervioso/inmunología , Péptidos/inmunología , Animales , Especificidad de Anticuerpos , Concanavalina A/metabolismo , Reacciones Cruzadas , Peso Molecular , Neuronas/inmunología , Neuronas/ultraestructura , Ratas , Ratas EndogámicasRESUMEN
A monoclonal antibody, mab SMgp65, which recognises two major glycoprotein components of isolated forebrain synaptic subfractions has been raised. The mab has been used to study the cellular and subcellular localisation of these novel glycoproteins and for the partial characterisation of both molecular species. Western blots show that the mab reacts with two diffuse glycoprotein bands (gp) of apparent Mr 65,000, gp65, and 55,000, gp55. Both glycoproteins are membrane-bound, only detectable in CNS tissue and exist solely in a concanavalin A (con A) binding form. Digestion with endoglycosidase H lowers the Mr of both glycoproteins by some 5-7 kDa. Gp65 and gp55 are enriched in synaptic membrane (SM), light membrane (LM) and microsomal fractions. However, whilst gp65 is enriched in isolated postsynaptic densities (psds) gp55 is conspicuously absent from this fraction. Regional distribution studies show a marked variation in the level of gp65. Gp65 is concentrated in several forebrain regions notably cerebral cortex, hippocampus and striatum, is present only in low levels in cerebellum and is barely detectable in pons and medulla. In contrast gp55 is present in all regions studied, but is most concentrated in cerebellum. Immunocytochemical studies show intense staining of regions rich in gp65, but no staining of regions deficient in this glycoprotein. This suggests that the mab recognises gp65, but not gp55 in fixed tissue sections. Exposure of tissue sections to Triton X-100 increases the intensity of gp65-like immunoreactivity, but does not alter its pattern of subcellular distribution. Higher resolution studies show the immunoreactivity to be localised to subsets of neurites, many being axonal. The reaction deposits also extend into the synaptic region of the immunoreactive neurones. Cultured cerebellar granule cells, but not astrocytes express gp55. The results are discussed in terms of the molecular properties and localisation of these two novel glycoproteins.