Enlargeosome traffic: Exocytosis triggered by various signals is followed by endocytosis, membrane shedding or both

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Abstract

Enlargeosomes are cytoplasmic organelles discharged by regulated exocytosis, identified by immunofluorescence of their membrane marker, desmoyokin/Ahnak, but never revealed at the ultrastructural level. Among the numerous enlargeosome-positive cells, the richest and most extensively characterized are those of a PC12 clone, PC12-27, defective of classical neurosecretion. By using ultrastructural immunoperoxidase labeling of formaldehyde-fixed, Triton-X-100-permeabilized PC12-27 cells, we have now identified the enlargeosomes as small vesicles scattered in the proximity of, but never docked to, the plasma membrane. Upon stimulation, these vesicles undergo exocytosis [rapid after the Ca2+ ionophore, ionomycin, much slower after either the phorbol ester, phorbol myristate acetate (PMA), or ATP, working through a P2Y receptor], with appearance in the plasma membrane of typical desmoyokin/Ahnak (d/A)-positive, Ω-shaped and open profiles evolving into flat patches. Postexocytic removal of the exocytized d/A-positive membrane occurs by two processes: generation of endocytic vesicles, predominant after ionomycin and ATP 100-500 μM; and shedding of membrane-bound cytoplasmic bodies, predominant after PMA and 1 mM ATP, containing little or no trace of endoplasmic reticulum, Golgi, endo/lysosomes and also of a plasma membrane marker. Depending on the stimulation, therefore, the cell-surface expansion by enlargeosome exocytosis is not always recycled but can induce release of specific membranes, possibly important in the pericellular environment. © 2007 The Authors Journal compilation.

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Cocucci, E., Racchetti, G., Podini, P., & Meldolesi, J. (2007). Enlargeosome traffic: Exocytosis triggered by various signals is followed by endocytosis, membrane shedding or both. Traffic, 8(6), 742–757. https://doi.org/10.1111/j.1600-0854.2007.00566.x

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