Inhibition of Tonoplast ATPase by 2′,3′-Dialdehyde Derivative of ATP

The 2',3'-dialdehyde derivative of ATP (dial-ATP) has been shown to be an affinity label for the ATP binding site of the H(+)-ATPase from tonoplast of etiolated mung bean seedlings (Vigna radiata L.). The dial-ATP caused marked inactivation of enzymatic activities of both membrane-bound and soluble ATPase and its associated proton translocation. The inactivation was reversible, but could be stabilized by NaBH(4). The sodium dodecyl sulfatepolyacrylamide gel electrophoresis pattern revealed that the dial-ATP binding site was in the large (A) subunit of ATPase. The inhibition could be substantially protected by its physiological substrate ATP, pyrophosphate, and nucleotides in the decreasing order: ATP > pyrophosphate > ADP = AMP > GTP > CTP = UTP. A Lineweaver-Burk plot showed that the mode of inhibition was competitive with respect to ATP. Loss of ATPase activity followed pseudo-first order kinetics with a K(i) of 4.1 millimolar, a minimum inactivation half-time of 20 seconds, and a pseudo-first order rate constant of 0.035 s(-1). The double logarithmic plot of apparent rate constant versus dial-ATP concentration gave a slope of 0.927, indicating that inactivation results from reaction of at least one lysine residue at the catalytic site of the large subunit. Labeling studies with [(3)H]dial-ATP indicate that the incorporation of approximately 1 mole of dial-ATP per mole ATPase is sufficient to completely inhibit the ATPase. A working model of nonequivalent subunits for enzymatic mechanism of vacuolar ATPase is suggested.