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  • Title: Electron microscopic localization of calelectrin, a Mr 36 000 calcium-regulated protein, at the cholinergic electromotor synapse of Torpedo.
    Author: Fiedler W, Walker JH.
    Journal: Eur J Cell Biol; 1985 Jul; 38(1):34-41. PubMed ID: 3161733.
    Abstract:
    Calelectrin is a calcium-binding protein of Mr 36 000 which has previously been shown to be associated with membranes of the cholinergic synapse in a calcium-dependent manner. We report here that calelectrin was solubilized from the electric organ of Torpedo marmorata in the absence of calcium together with proteins of Mr 54 000 and Mr 15 000. In cholinergic nerve endings isolated from the electric organ only calelectrin was solubilized in a calcium-dependent manner. A specific antiserum to calelectrin was used to localize the antigen by immunofluorescence microscopy on sections of electric organ and showed that calelectrin is distributed throughout the postsynaptic cell. Calelectrin was also detected in axons and in the cell bodies of the cholinergic neurones where it was concentrated in discrete patches throughout the cells. Electric organ tissue was processed to localize calelectrin with the electron microscope using an immunoperoxidase method. The most intense staining was observed on the cytoplasmic face of the acetylcholine receptor-containing postsynaptic membrane and also associated with the intracellular filaments of the electrocyte. The intensity of staining associated with these structures could be greatly reduced by preincubating the tissue with calcium chelators. In nerve terminals calelectrin was associated with synaptic vesicles in a polarized fashion. Calelectrin was also found on the cytoplasmic face of the synaptosomal plasma membrane and associated with neurofilaments. No extracellular staining was ever observed. Our results strongly support our original hypothesis that calelectrin is a calcium-regulated component of intracellular structure associated both with membranes and filaments.
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