Specific role for the PH domain of dynamin-1 in the regulation of rapid endocytosis in adrenal chromaffin cells.

Abstract

Dynamin plays a key role in the scission event common to various types of endocytosis. We demonstrate that the pleckstrin homology (PH) domain of dynamin-1 is critical in the process of rapid endocytosis (RE) in chromaffin cells. Introduction of this isolated PH domain into cells at concentrations as low as 1 microM completely suppressed RE. PH domains from other proteins, including that from the closely related dynamin-2, were ineffective as inhibitors, even at high concentrations. Mutational studies indicated that a pair of isoform-specific amino acids, located in a variable loop between the first two beta-strands, accounted for the differential effect of the two dynamin PH domains. Switching these amino acids in the dynamin-2 PH domain to the equivalent residues in dynamin-1 (SL-->GI) generated a molecule that blocked RE. Thus, the PH domain of dynamin-1 is essential for RE and exhibits a precise molecular selectivity. As chromaffin cells express both dynamin-1 and -2, we speculate that different isoforms of dynamin may regulate distinct endocytotic processes and that the PH domain contributes to this specificity.