Aggregation chaperones enhance aggregation and storage of secretory proteins in endocrine cells.

Abstract

Calcium-induced aggregation has been proposed to play a role in the sorting and storage of secretory proteins in secretory granules of endocrine cells. The regulation of this process is not known. Hexahistidine epitope tags were used to create aggregation chaperones that enhance the calcium-induced aggregation of secretory granule proteins in vitro. Indeed, 100% recovery of the aggregating target protein was achieved without any modification of the target protein. The aggregation chaperone is not trapped in the aggregates. Co-expression of His(6)-tagged secreted alkaline phosphatase and the regulated secretory protein chromogranin A resulted in an increased chromogranin storage in secretory granules, and stimulated secretion of chromogranin A increased 50%. However, secretion of secreted alkaline phosphatase was not affected by the hexahistidine epitope tag. Thus, calcium-induced aggregation is not a passive process; rather, aggregation and sorting of secretory proteins can be regulated by aggregation chaperones in the secretory pathway of endocrine cells.