Studies of the alpha-actinin/actin interaction in the Z-disk by using calpain.

Both mu- and m-calpain (the micro- and millimolar Ca(2+)-requiring Ca(2+)-dependent proteinases) can completely remove Z-disks from skeletal muscle myofibrils and leave a space devoid of filaments in the Z-disk area. alpha-Actinin, a principal protein component of Z-disks, is removed from myofibrils by the calpains, and a 100-kDa polypeptide that comigrates in sodium dodecyl sulfate-polyacrylamide gel electrophoresis with the alpha-actinin subunit is released into the supernatant. Purified calpain does not degrade purified actin or purified alpha-actinin as indicated by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and by N- and C-terminal amino acid analysis of calpain-treated and untreated alpha-actinin and actin. The 100-kDa polypeptide released from myofibrils by calpain elutes identically with native alpha-actinin off DEAE-cellulose and hydroxyapatite columns and, after purification, binds to pure F-actin in the same manner that untreated, native alpha-actinin binds. Calpain-released alpha-actinin also accelerates the rate of superprecipitation of reconstituted actomyosin, a sensitive property characteristic of native alpha-actinin. Consequently, the calpains release alpha-actinin from the Z-disk of myofibrils without degrading it or without altering its ability to bind to actin. These results indicate that alpha-actinin does not simply cross-link thin filaments across the Z-disk but that at least one additional protein (or perhaps an altered actin or alpha-actinin) is involved in the alpha-actinin/actin interaction in Z-disks.