The susceptibility of glycogen phosphorylase to inactivation by endogenous and exogenous proteases

Abstract

Phosphorylases a and b were inactivated very rapidly by a neutral, trypsin-like protease from rat intestinal muscle. With 32P-phosphorylase a as substrate, it was shown that the initial event in the inactivation was the release of a small, phosphopeptide from the N-terminus of the enzyme, leaving the original 100,000 subunit form virtually unchanged. Subsequent proteolysis was very limited, producing 85, 70 and 65,000 mol. wt. derivatives. The effects of several allosteric modulators of phosphorylase on the rates of inactivation of the two enzymes were studied. Removal of the pyridoxal phosphate cofactor from phosphorylase increased the susceptibility of the b form by three fold while the a form was unaffected. By comparison of these effects with those obtained from digestion with trypsin and chymotrypsin, it is concluded that the intestinal muscle protease has a markedly enhanced ability for inactivating enzymes in their native conformation. Assuming that this property is reflected in vivo, a possible role such neutral proteases in initiating protein degradation is advanced.