Ca(2+)-induced structural changes in rat m-calpain revealed by partial proteolysis.

Partial proteolysis by exogenous proteases in the presence and absence of Ca(2+) was used to map the protease-resistant domains in m-calpain, and to obtain evidence for the conformational changes induced in this thiol protease by Ca(2+). The complication of autoproteolysis was avoided by using the inactive Cys105Ser calpain mutant. Both trypsin and chymotrypsin produced similar cleavage patterns from the large subunit (domains I-IV), while the small subunit (domain VI) was largely unaffected. N-Terminal sequencing of the major products showed that hydrolysis occurred in the N-terminal anchor peptide, which binds domain I to domain VI, at a site close to the C terminus of domain II, and at several sites within domain III. Of particular importance to the overall Ca(2+)-induced conformational changes was the increase in mobility and accessibility of domain III. The same sites were cleaved in the presence and absence of Ca(2+), but with one exception digestion was much more rapid in the presence of Ca(2+). The exception was a site close to residue 255 located within the active site cleft. This site was accessible to cleavage in the absence of Ca(2+), when the active site is not assembled, but was protected in the presence of Ca(2+). This result supports the hypothesis that Ca(2+) induces movement of domains I and II closer together to form the functional active site of calpain.