An effect of trypsin on the actin-myosin interaction

Three different lines of evidence were obtained to show that trypsin modifies the actin-myosin interaction: (I) At trypsin to actomyosin or myosin ratios between 1 to 300 and 1 to 500, 30 min of trypsin treatment causes an 8-fold increase in the Ca²⁺-modified ITPase activity of actomyosin but has no effect on the Ca²⁺-modified ITPase activity of myosin alone. At these same trypsin to actomyosin ratios, the Mg²⁺ + Ca²⁺-modified ATPase activity increases by 10–30% during the first 1–2 min of trypsin digestion, and then decreases rapidly to less than 20% of its original activity after 60 min of digestion. Trypsin has no effect on the Mg²⁺ + Ca²⁺-modified ATPase activity of pure myosin. (2) The rate of turbidity response of reconstituted actomyosin suspensions is first increased and then decreased by trypsin treatment. At trypsin to actomyosin ratios of 1 to 3000, rate of turbidity response is maximal after 5 min of trypsin digestion and then decreases; after 60 min, the turbidity response is much slower than the response of the control actomyosin. (3) Supercontracted sarcomeres, shortened to less than 50% of their initial length, are lengthened to 70% of their initial length by 4 min of trypsin treatment. Myosin B from such lengthened sarcomeres has less than 35% of its myosin converted to light meromyosin and heavy meromyosin.

These results show that trypsin modifies the actin-myosin interaction in at least two ways: (1) a very rapid initial modification that increases the Mg²⁺ + Ca²⁺-modified ATPase activity and the rate of turbidity increase, and (2) a slower modification that decreases the Mg²⁺ + Ca²⁺-modified ATPase activity and rate of turbidity response, and that lengthens contracted sarcomeres. Tryptic modification is not due to cleavage of myosin to light and heavy meromyosin. Since tryptic modification occurs more rapidly than conversion of myosin to light and heavy meromyosin, all heavy meromyosin preparations will be modified.