Patricia A. Johnston scite author profile

Synapsins are neuronal phosphoproteins that coat synaptic vesicles, bind to the cytoskeleton, and are believed to function in the regulation of neurotransmitter release. Molecular cloning reveals that the synapsins comprise a family of four homologous proteins whose messenger RNA's are generated by differential splicing of transcripts from two genes. Each synapsin is a mosaic composed of homologous amino-terminal domains common to all synapsins and different combinations of distinct carboxyl-terminal domains. Immunocytochemical studies demonstrate that all four synapsins are widely distributed in nerve terminals, but that their relative amounts vary among different kinds of synapses. The structural diversity and differential distribution of the four synapsins suggest common and different roles of each in the integration of distinct signal transduction pathways that modulate neurotransmitter release in various types of neurons.

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Synaptophysin is targeted to similar microvesicles in CHO and PC12 cells.

Johnston

et al. 1989

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Synaptophysin, an integral membrane protein of small synaptic vesicles, was expressed by transfection in fibroblastic CHO-Kl cells. The properties and localization of synaptophysin were compared between transfected CHO-Kl cells and native neuroendocrine PC12 cells. Both cell types similarly glycosylate synaptophysin and sort it into indistinguishable microvesicles. These become labeled by endocytic markers and are primarily concentrated below the plasmalemma and at the area of the Golgi complex and the centrosomes. A small pool of synaptophysin is transiently found on the plasma membrane. In CHO-Kl cells synaptophysin co-localizes with transferrin that has been internalized by receptor-mediated endocytosis. These findings suggest that synaptophysin in transfected CHO-Kl cells and neuroendocrine PC12 cells is directed into a pathway of recycling microvesicles which, in CHO cells, is shown to coincide with that of the transferrin receptor. They further indicate that fibroblasts have the ability to sort a synaptic vesicle membrane protein. Our results suggest a pathway for the evolution of small synaptic vesicles from a constitutively recycling organelle which is normally present in all cells.

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Patricia A. Johnston

Synapsins: Mosaics of Shared and Individual Domains in a Family of Synaptic Vesicle Phosphoproteins

Synaptophysin is targeted to similar microvesicles in CHO and PC12 cells.

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