Loss and Ca2+‐Dependent Retention of Scinderin in Digitonin‐Permeabilized Chromaffin Cells: Correlation with Ca2+‐Evoked Catecholamine Release

Abstract

Exposure of chromaffin cells to digitonin causes the loss of many cytosolic proteins. Here we report that scinderin (a Ca(2+)-dependent actin-filament-severing protein), but not gelsolin, is among the proteins that leak out from digitonin-permeabilized cells. Chromaffin cells that were exposed to increasing concentrations (15-40 microM) of digitonin for 5 min released scinderin into the medium. One-minute treatment with 20 microM digitonin was enough to detect scinderin in the medium, and scinderin leakage levelled off after 10 min of permeabilization. Elevation of free Ca2+ concentration in the permeabilizing medium produced a dose-dependent retention of scinderin. Results were confirmed by immunofluorescence microscopy of digitonin-permeabilized cells. Subcellular fractionation of permeabilized cells showed that scinderin leakage was mainly from the cytoplasm (80%); the remaining scinderin (20%) was from the microsomal fraction. Other Ca(2+)-binding proteins released by digitonin and also retained by Ca2+ were calmodulin, protein kinase C, and calcineurins A and B. Scinderin leakage was parallel to the loss of the chromaffin cell secretory response. Permeabilization in the presence of increasing free Ca2+ concentrations produced a concomitant enhancement in the subsequent Ca(2+)-dependent catecholamine release. The experiments suggest that: (1) scinderin is an intracellular target for Ca2+, (2) permeabilization of chromaffin cells with digitonin in the presence of micromolar Ca2+ concentrations retained Ca(2+)-binding proteins including scinderin, and (3) the retention of these proteins may be related to the increase in the subsequent Ca(2+)-dependent catecholamine release observed in permeabilized chromaffin cells.