Isolation and some structural and functional properties of macrophage tropomyosin.

Tropomyosin purified from rabbit lung macrophages is very similar in structure to other nonmuscle cell tropomyosins. Reduced and denatured, the protein has two polypeptides which migrate during electrophoresis in sodium dodecyl sulfate on polyacrylamide gels with slightly different mobilities corresponding to apparent Mr's of about 30 000. Following cross-linking by air oxidation in the presence of CuCl2, electrophoresis under nonreducing conditions reveals a single polypeptide of Mr 60 000. Macrophage tropomyosin has an isoelectric point of 4.6 and an amino acid composition similar to other tropomyosins. It contains one cysteine residue per chain. In the electron microscope, macrophage tropomyosin molecules rotary shadowed with platinum and carbon are slender, straight rods, 33 nm in length. Macrophage tropomyosin paracrystals grown in high magnesium concentrations have an axial periodicity of 34 nm. On the basis of yields from purification and from two-dimensional electrophoretic analyses of macrophage extracts, tropomyosin comprises less than 0.2% of the total macrophage protein, a molar ratio of approximately 1 tropomyosin molecule to 75 actin monomers in the cell. Macrophage tropomyosin binds to actin filaments. Macrophage, skeletal muscle, and other nonmuscle cell tropomyosins inhibit the fragmentation of actin filaments by the Ca2+-gelsolin complex. The finding implies that tropomyosin may have a role in stabilizing actin filaments in vivo.