INHIBITION AND LABELING OF THE COATED VESICLE V-ATPASE BY 2-AZIDO-[P-32]ATP

Previous studies have indicated that the 73-kDa A subunit of the coate d vesicle V-ATPase possesses a nucleotide-binding site essential for a ctivity (Arai, H., Berne, M., Terres, G., Terres, Ii., Puopolo, K., an d Forgac, M. (1987) Biochemistry 26, 6632-6638) and have identified a cysteine residue (Cys(254)) whose modification leads to complete loss of activity (Feng, Y., and Forgac, M. (1992) J. Biol. Chem. 267, 5817- 5822). To further characterize the structure of the nucleotide-binding sites of the V-ATPase, labeling studies using the photoactivated anal og 2-azido-[P-32]ATP have been carried out. We have observed that 2-az ido-[P-32]ATP is hydrolyzed by the V-ATPase at a rate (at 1 mM) approx imately 4-fold lower than observed for ATP, indicating that 2-azido-[P -32]ATP is a good substrate for the V-ATPase. Irradiation of the V-ATP ase in the presence of 0.5 mM 2-azido-[P-32]ATP leads to inactivation of V-ATPase activity with a t(1/2) of 56 min, The 73-kDa A subunit, th e 58-kDa B subunit, and the 50 kDa subunit of the AP-2 adaptin complex (Myers, M., and Forgac, M. (1993) J. Biol. Chem. 268, 9184-9186) are all labeled in an ATP-protectable manner on irradiation of the purifie d V-ATPase with 2-azido[P-32]ATP. The time course for inactivation mos t closely correlates with labeling of the A subunit. Measurement of th e stoichiometry of 2-azido-[P-32]ATP incorporation into the A subunit as a function of inactivation indicates that complete loss of activity is obtained on incorporation of 1.2 mol of 2-azido-[P-32]ATP/mol V-AT Pase complex. 2-Azido-[32P]ATP labeling indicates that the V-ATPase po ssesses both rapidly (t(1/2) < 2 min) and slowly (t(1/2) > 2 min) exch angeable nucleotide-binding sites. The A subunit is labeled upon modif ication of both rapidly and slowly exchangeable sites whereas the B su bunit is labeled upon modification of only rapidly exchangeable sites. Inhibition of V-ATPase activity correlates with labeling of the rapid ly exchangeable sites. Amino acid sequence analysis of peptides derive d from the 2-azido-[P-32]ATP-labeled A subunit indicates labeling of t wo peptides: a 12-kDa fragment which begins at residue 511 and contain s Cys(532) and 3-kDa fragment which begins at residue 233 and contains the glycine-rich loop and Cys(254). Only the 12-kDa fragment is label ed upon modification of the rapidly exchangeable sites. A 12-kDa V-8 p eptide, which begins at residue 375 of the B subunit is also labeled b y 2-azido-[P-32]ATP under conditions which modify the rapidly exchange able sites, These results provide further information concerning the n ucleotide-binding sites on the V-ATPase A and B subunits. The differen ces in nucleotide-binding sites between F-and V-ATPases are also discu ssed.