Functional effects of LC1-reassociation with cardiac papain Mg S1

Abstract

The effect of LC1 on cardiac myosin structure and activity was investigated using as a model S1 prepared by papain digestion in the presence of Mg²⁺. The resulting S1 contained LC2 but a part of the N-terminal region of LC1 was cleaved. Sequencing the N-terminal part of the band migrating below LC1 on SDS gels revealed it to consist of alternating alanyl and prolyl residues thus establishing LC1 as the origin of this band. However, Western blots did not reveal any LC1 while radioimmunoassays indicated it to be present at the 5% level suggesting the anti-LC1 antibody used in these experiments did not recognize the C-terminal portion of LC1 still attached to Mg · S1. Mixing a 10–15 m excess of isolated light chains with Mg · S1 in the presence of 10 mm ATP, 12 mm MgCl₂, 4.7 m NH₄Cl allowed LC1 to recombine with LC1-deficient Mg · S1. Equilibrium ultracentrifugation analysis revealed a highly heterogeneous LC1-deficient S1 which upon recombination with intact LC1 became monodisperse as indicated by the superimposition of molecular weight averages all across the centrifuge cell. LC1-deficient Mg · S1 had a V_m of 0.4 s^-1, K_a of 30 μm and a K_bind of 28 μm. In the presence of intact LC1, V_m rose to 0.8 s^-1 while K_a and K_bind were reduced to 7.5 and 12 μm, respectively. The fourfold decrease in K_a strongly indicated an increased affinity for actin by Mg · S1 in the presence of uncleaved LC1. Also, Ca²⁺-regulation of dog heart myofibrils was suppressed when Ca²⁺-activated MgATPase assays, as a function of Ca²⁺, were performed in the presence of anti-LC1 antibodies. These observations suggest the presence of intact, uncleaved LC1 in S1 is required for the stability of S1 heavy chains and proper Ca²⁺-regulation.