The role of autolysis in activity of the Ca2+-dependent proteinases (mu-calpain and m-calpain)

Abstract

A recent hypothesis suggests that proteolytic activity of the micromolar and millimolar Ca2+-requiring forms of the Ca2+-dependent proteinases (mu- and m-calpain, respectively) is regulated in vivo by their association with a phosphatidylinositol-containing site on the plasma membrane followed by autolysis of the proteinases. Phosphatidylinositol association lowers the Ca2+ concentration needed for autolysis, and autolysis, in turn, lowers the Ca2+ concentration needed for proteolytic activity. To test this hypothesis, we have compared the Ca2+ concentrations needed for autolysis and for proteolytic activity of the calpains both in the presence and the absence of phosphatidylinositol. Bovine skeletal muscle mu-calpain required 40-50 microM Ca2+ for half-maximal rate of proteolysis of a casein substrate, 140-150 microM Ca2+ for half-maximal autolysis in the presence of 80 microM phosphatidylinositol, and 190-210 microM Ca2+ for half-maximal autolysis in the absence of phosphatidylinositol. Consequently, mu-calpain is an active proteinase and does not require autolysis for activation. Bovine skeletal muscle m-calpain required 700-740 microM Ca2+ for half-maximal rate of proteolysis of a casein substrate, 370-400 microM Ca2+ for half-maximal autolysis in the presence of 80 microM phosphatidylinositol, and 740-780 microM Ca2+ for half-maximal autolysis in the absence of phosphatidylinositol. These results are consistent with the idea that m-calpain functions in its autolyzed form, but the results do not demonstrate that unautolyzed m-calpain is inactive. 80 microM phosphatidylinositol had no effect on the Ca2+ requirement of the autolyzed forms of either mu- or m-calpain but lowered the specific activity of mu-calpain to 20% of its activity in the absence of phosphatidylinositol. Of the four forms of the calpains, unautolyzed m-calpain, autolyzed m-calpain, and unautolyzed mu-calpain would not be proteolytically active at the free Ca2+ concentrations of 300-1200 nM present inside normal cells, and neither mu- nor m-calpain would undergo autolysis at these Ca2+ concentrations, even in the presence of phosphatidylinositol. Cells must contain a mechanism other than or in addition to membrane association and autolysis to activate the calpains.