Starling Ap scite author profile

The ATPase activity of the (Ca(2+)-Mg2+)-ATPase purified from skeletal muscle sarcoplasmic reticulum and reconstituted into phosphatidylcholine bilayers of defined composition depends on the fatty acyl chain length of the surrounding phospholipid. The stoichiometry of Ca2+ binding to the ATPase is also sensitive to fatty acyl chain length, changing from the normal two Ca2+ ions bound per ATPase molecule to one Ca2+ ion bound for the ATPase reconstituted with phosphatidylcholines of chain lengths C12, C14, or C24. For the ATPase reconstituted with mixture of phosphatidylcholines where one phosphatidylcholine supports a Ca2+ binding stoichiometry of two and the other a stoichiometry of one, a highly cooperative change in binding stoichiometry with change in phospholipid composition is observed, suggesting that the effects of phospholipids follow from binding to a large number of sites at the lipid-protein interface of the ATPase. For the ATPase reconstituted with either 1-myristoyl-2-oleoylphosphatidylcholine or 1-oleoyl-2-myristoylphosphatidylcholine, the stoichiometry of Ca2+ binding is the normal two per ATPase molecule. Effects of short-chain phosphatidylcholines on Ca2+ binding stoichiometry and on ATPase activity can be reversed by addition of androstenol, oleic acid, methyl oleate, or oleyl alcohol but these molecules have no effect on the ATPase reconstituted with dinervonylphosphatidylcholine (C24:1). For the ATPase reconstituted with phosphatidylcholines with chain lengths between C16 and C22, release of the two bound Ca2+ ions is sequential, with release of the second Ca2+ being inhibited by high concentrations of Ca2+ in the bathing medium.(ABSTRACT TRUNCATED AT 250 WORDS)

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Mechanism of Inhibition of the Ca2+-ATPase by Spermine and Other Polycationic Compounds

Hughes

Ap²,

Jm³

et al. 1994

Biochemistry

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The ATPase activity of the Ca(2+)-ATPase of skeletal muscle sarcoplasmic reticulum is inhibited by a variety of polyamines, including spermine, spermidine, and poly(arginine). The effects of spermine on the ATPase are highly specific. It has no effect on the affinity of the ATPase for Ca2+ or ATP, and no effect on the rate of phosphorylation by ATP. When the ATPase is phosphorylated with Pi in the presence of dimethyl sulfoxide at pH 6.0, and then dephosphorylation is induced by dilution in buffer at pH 7.5 in the absence of dimethyl sulfoxide, spermine is found to have no effect on the rate of dephosphorylation. If the ATPase is phosphorylated with [gamma-32P]ATP and the rate of loss of radiolabeled phosphoenzyme is measured following the addition of unlabeled ATP, spermine is found to decrease the rate of loss of radiolabel, consistent with an effect of spermine on the rate of the Ca2E1P-->E2P step. Direct measurement confirms that spermine decreases the rate of dissociation of Ca2+ from the phosphorylated ATPase (Ca2E1P-->E2P), with the decrease in the rate of this step explaining the inhibition of ATPase activity. Spermine also increases the equilibrium constant E1/E2 and inhibits phosphorylation of the ATPase by Pi by competition with the Mg2+ essential for the reaction. It is suggested that spermine could bind to the site on the Ca(2+)-ATPase that interacts with phospholamban.

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Binding Sites for Cholesterol on Ca2+-ATPase Studied by Using a Cholesterol-Containing Phospholipid

Ding¹,

Ap²,

Jm³

et al. 1994

Biochemistry

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Phosphatidylcholines have been synthesized containing a cholesterol moiety at the 2-position of the glycerol backbone. Fluorescence quenching studies show that cholesterol-containing phosphatidylcholines can bind at the lipid-protein interface of the Ca(2+)-ATPase from skeletal muscle sarcoplasmic reticulum, with an affinity half that of dioleoylphosphatidylcholine. The ATPase activity measured for the ATPase reconstituted with the cholesterol-containing phosphatidylcholine containing an oleoyl fatty acyl chain, (C18:1, CHS)PC, is less than that measured for the ATPase reconstituted with dioleoylphosphatidylcholine. The activity measured for the ATPase reconstituted with the cholesterol-containing phosphatidylcholine containing a myristoleoyl fatty acyl chain, (C14:1, CHS)PC, is less than that measured in (C18:1,CHS)PC and is comparable to that measured in dimyristoleoylphosphatidylcholine (di(C14: 1)PC. The stoichiometry of Ca2+ binding to the ATPase is two Ca2+ ions bound per ATPase molecule in the native membrane or in (C18:1,CHS)PC, but one bound per ATPase molecule in di(C14:1)PC or (C14: 1,CHS)PC. Addition of cholesterol to the ATPase in di(C14:1)PC or (C14:1,CHS)PC increases the Ca2+ binding stoichiometry to the usual 2:1, but the binding stoichiometry remains 1:1 in mixtures of di(C14: 1)PC and (C14:1,CHS)PC. Removal of Ca2+ from the Ca(2+)-bound ATPase results in a decrease in tryptophan fluorescence intensity for the ATPase in the native membrane, but an increase in fluorescence intensity for the ATPase in di(C14:1)PC or (C14:1,CHS)PC. Addition of cholesterol to the ATPase in di(C14:1)PC or (C14:1,CHS)PC reverses this change. It is concluded that cholesterol linked to a phospholipid molecule can interact with the ATPase only at the lipid-protein interface.(ABSTRACT TRUNCATED AT 250 WORDS)

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Inhibition of the Ca2+-ATPase by sesquiterpene lactones

Wictome

et al. 1993

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Starling Ap

Effects of phosphatidylcholine fatty acyl chain length on calcium binding and other functions of the calcium-magnesium-ATPase

Mechanism of Inhibition of the Ca2+-ATPase by Spermine and Other Polycationic Compounds

Binding Sites for Cholesterol on Ca2+-ATPase Studied by Using a Cholesterol-Containing Phospholipid

Inhibition of the Ca2+-ATPase by sesquiterpene lactones

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