In vitro proteolytic degradation of bovine brain calcineurin by m-calpain.

A major cause of neuronal dysfunction is due to altered Ca2+ regulation. An increase in Ca2+ influx can activate Ca2+-dependent enzymes including calpains, causing the proteolysis of its specific substrates. In the present study, calcineurin (CaN) was found to be proteolysed by a Ca2+-dependent cysteine protease, m-calpain. In the presence of Ca2+, the 60 kDa subunit (CaN A) was degraded to a 46 kDa immunoreactive fragment, whereas in the presence of Ca2+ /calmodulin (CaM) immunoreactive fragments of 48 and 54 kDa were observed. The beta-subunit (CaN B) was not proteolysed in either condition. The proteolysis of CaN A increased its phosphatase activity and rendered it totally CaM-independent after 10 min of proteolysis. The molecular weight of the proteolytic fragments suggested that the m-calpain cleaved CaN A in the CaN B binding domain. A CaM-overlay experiment revealed that the CaM-binding site was present only in the 54 kDa fragment produced by CaN A proteolysis in the presence of Ca2+ /CaM. Thus, the increase in CaN A phosphatase activity observed in many neuronal disorders, may be due to the action of calpain.