Abstract. Parafusin, the major protein in Paramecium tetraurelia to undergo dephosphorylation in response to secretory stimuli, appears to be the primary acceptor for the glucosylphosphotransferase in this species based on five independent criteria: identical molecular size of 63 kD; identical isoelectric points in the phosphorylated state of pH 5.8 and 6.2; identical behavior in reverse-phase chromatography; immunological cross-reactivity with an affinity-purified anti-parafusin antibody; the presence of a phosphorylated sugar after acid hydrolysis. It appears likely that the dephosphorylation observed with secretion reflects the removal of otGlc-l-P from parafusin's oligosaccharides and is consistent, therefore, with a regulatory role for this cytoplasmic glycosylation event. The glucosylphosphotransferase acceptor in rat liver is also immunoprecipitated by the anti-parafusin antibody and is very similar in physical characteristics to the paramecium protein. This conservation suggests a role for parafusin in mammalian exocytosis as well, at a step common to both the regulated and constitutive secretory pathways.
A cytosolic phosphoprotein that appears to function in membrane fusion during exocytosis of secretory products has previously been isolated from Paramecium tetraurelia. This phosphoprotein, parafusin, with Mr 63,000, is rapidly dephosphorylated via a Ca2-dependent process when secretagogues induce exocytosis in competent cells. Dephosphorylation does not occur in exocytosis-incompetent cells. Polyclonal antibodies against purified parafusin have now been used to show that this protein is present in unicellular organisms and cells of metazoan groups of wide evolutionary divergence, such as yeast, insects, and mammals, including humans. These results suggest that parafusin was present early in the history of eukaryotes and that it is of functional importance in the general mechanism of exocytosis and membrane fusion.
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