Comparison of the properties of the protein phosphatases from avian and mammalian smooth muscles: purification and characterization of rabbit uterine smooth muscle phosphatases.

Three protein phosphatases were purified to near homogeneity from rabbit uterine muscle. These enzymes are termed rabbit uterine smooth muscle phosphatase (RU SMP)-I, -II, and -IV. RU SMP-I is composed of three subunits (Mr 60,000, 55,000, and 38,000) which comigrated with the subunits of turkey gizzard smooth muscle phosphatase (TG SMP)-I. Ethanol treatment of RU SMP-I dissociated the subunits and led to the purification of its catalytic subunit (Mr 38,000), RU SMP-Ic. Structural homology between the turkey gizzard and rabbit uterine SMP-I is indicated by the cross-reactivity of RU SMP-I with the polyclonal antibodies against TG SMP-I and -Ic. Like TG SMP-II, RU SMP-II is inactive in the absence of divalent cations and can be activated by Mg2+ and Mn2+. However, their electrophoretic profiles on sodium dodecyl sulfate-polyacrylamide gel are different. RU SMP-II shows two bands (Mr 42,000 and 44,000) while TG SMP-II is monomeric (Mr 43,000). Western blot analysis revealed that the 42,000 and 44,000-Da proteins cross-react with anti-TG SMP-II antibodies, suggesting that these proteins share common structural properties. The anti-TG SMP-I and Ic antibodies do not cross-react with RU SMP-II and -IV. Likewise, the anti-TG SMP-II antibodies do not cross-react with RU SMP-I and -IV, implying that these enzymes are distinct. RU SMP-IV is composed of a catalytic subunit (Mr 40,000) and a subunit with a molecular weight of 60,000 or 58,000. All three rabbit uterine smooth muscle phosphatases dephosphorylate the isolated myosin light chains but only RU SMP-IV dephosphorylates heavy meromyosin. However, when the catalytic subunit of RU SMP-I is dissociated from the regulatory subunits, it is active toward heavy meromyosin and exhibits higher activity toward myosin light chains and phosphorylase a than its holoenzyme. The substrate specificity of these enzymes and the effects of ATP, NaF, pyrophosphate, okadaic acid, Mg2+, Mn2+, and Ca2+ on their activities are very similar to those of the turkey gizzard smooth muscle phosphatases.