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A variety of presumed anti-calmodulin (anti-CaM) drugs was tested for their potential inhibitory effects on the isolated, purified and reconstituted Ca2+-pump ATPase of human red blood cell membranes. Anti-CaM drugs inhibited the Ca2+-pump ATPase both in the absence and presence of added CaM. Qualitatively similar inhibition was observed in two different ATPase assay systems. In asolectin vesicles in the absence of added CaM trifluoperazine (TFP), N-(6-aminohexyl)-5-chloro-1-naphthalene- sulfonamide (W-7), vinblastine, dibucaine, imipramine, propranolol and dimethylpropranolol (UM-272) were all inhibitory. Potency of anti-CaM drugs was generally greater on the enzyme reconstituted in asolectin vesicles than on the enzyme reconstituted in phosphatidylcholine vesicles, either in the presence or absence of CaM. The results emphasize that anti-CaM drugs have actions other than to bind to CaM. Possible direct interaction of amphipathic cationic anti-CaM drugs with the Ca2+-pump ATPase and/or its lipid environment is suggested.

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The sickle cell (Hb SS) membrane-bound Ca2+-ATPase was found to have a Vmax in a range of 30-100% of the Vmax of the normal enzyme. In all sickle cell preparations, the Ca2+-ATPase could be stimulated at least 4-fold by calmodulin, but the stimulation factor varied considerably (4-26 fold) in the different preparations. The affinity of the ghost sickle cell Ca2+-ATPase for Ca2+, ATP and calmodulin was comparable to that of the normal enzyme. The sickle cell Ca2+-ATPase was solubilized from the membrane with Triton-X-100, and purified through a calmodulin sepharose-4B column, a technique by which the Ca2+-ATPase from normal ghosts has been successfully isolated in a functionally active and pure form (see V. Niggli, E.S. Adunyah, J.T. Penniston and E. Carafoli, 1981, J. Biol, Chem. 256, 395 - 401). The specific activity of the isolated sickle cell enzyme was significantly decreased (up to 80%) with respect to that ot the normal enzyme, but the amount of protein isolated was comparable to normal. All other parameters of the ATPase (affinity for Ca2+, ATP and calmodulin) were comparable to those found for the normal enzyme. In SDS polyacrylamide gel electrophoresis, the purified enzyme appeared as a single band protein with a Mr comparable to that of the normal enzyme. In the absence of calmodulin the sickle cell enzyme could be activated by acidic phospholipids, as reported for the normal enzyme. After reconstitution into liposomes it transported Ca2+ with normal efficiency (about 1 Ca2+/ATP hydrolyzed). Therefore, the only difference between the purified normal and the sickle cell enzyme appears to be the lower specific activity of the latter.

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The purified Ca2+-pumping ATPase of human erythrocyte membranes (Niggli, V., Adunyah, E. S., Penniston, J. T., and Carafoli, E. (1981) J. Biol. Chem. 256, 395-401) can be stimulated, in the absence of calmodulin, by other treatments. 1. A variety of acidic phospholipids (phosphatidylserine, cardiolipin, phosphatidylinositol, and phosphatidic acid) stimulate the Vmax and decrease the Km (Ca2+) of the isolated enzyme to the same extent as calmodulin. Unsaturated fatty acids (oleic and linoleic acid) have the same effect as phospholipids but at lower concentrations. Neutral phospholipids (phosphatidylcholine, sphingomyelin, and phosphatidylethanolamine) have no effect on the enzyme. The minimal proportion of acidic phospholipids in the environment of the enzyme necessary for full stimulation is about 40%. 2. The isolated enzyme, after reconstitution in phosphatidylcholine liposomes in the absence of calmodulin, can be activated by limited proteolysis. The trypsinized enzyme has the same high Vmax and high affinity for Ca2+ of the enzyme in the presence of calmodulin.

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The Ca2+-pumping ATPase from human erythrocyte membranes, purified nearly to homogeneity (Niggli, V., Penniston, J. T., and Carafoli, E. (1979) J. Biol. Chem. 254, 9955-9958), can be reconstituted into phospholipid vesicles. The purified and the reconstituted forms of the enzyme displayed the properties expected of the intact Ca2+ pump; they had an appropriate (Ca2+-Mg2+)-ATPase activity which displayed a relatively low affinity for Ca2+. Added calmodulin increased both the maximum rate and the affinity for Ca2+ of the enzyme. Mg2+ alone caused no significant ATP hydrolysis in the purified enzyme, indicating that the Mg2+-ATPase is a separate enzyme. Vesicles of the reconstituted enzyme accumulated Ca2+ with a ratio of Ca2+ accumulated to ATP hydrolyzed of approximately 1. Ca2+ accumulation and ATPase of the reconstituted enzyme were inhibited concurrently by vanadate ion, with a K 1/2 for inhibition which was indistinguishable from that observed for the (Ca2+-Mg2+)-ATPase in whole erythrocyte ghosts. While the above properties were all consistent with those observed for the (Ca2+-Mg2+)-ATPase in whole erythrocyte ghosts, the purified enzyme displayed an unexpected response to acidic phospholipids. Enzyme reconstituted with or prepared in phosphatidylserine acted as if calmodulin were already present, and added calmodulin caused no effect beyond that due to phosphatidylserine. This mimicry of the calmodulin effect by acidic phospholipids is similar to that reported for cyclic nucleotide phosphodiesterase (Wolff, D. J., and Brostrom, C. O. (1976) Arch. Biochem. Biophys., 173, 720-723).

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