l h e suitability of different pyrophosphate (PPi) analogs as inhibitors of the vacuolar H+-translocating inorganic pyrophosphatase (V-PPase; EC 3.6.1 .l) of tonoplast vesicles isolated from etiolated hypocotyls of Vigna radiata was investigated. Five 1,l-diphosphonates and imidodiphosphate were tested for their effects on substrate hydrolysis by the V-PPase at a substrate concentration corresponding to the K,,, of the enzyme. l h e order of inhibitory potency (apparent inhibition constants, KiaPP values, p~, in parentheses) of the compounds examined was aminomethylenediphosphonate (1.8) > hydroxymethylenediphosphonate (5.7) I ethane-l-hydroxy-1,l-diphosphonate (6.5) > imidodiphosphate (12) > methylenediphosphonate (68) >> dichloromethylenediphosphonate (>500). l h e specificity of three of these compounds, aminomethylenediphosphonate, imidodiphosphate, and methylenediphosphonate, was determined by comparing their effects on the V-PPase and vacuolar H+-ATPase from Vigna, plasma membrane H+-ATPase from Beta vulgaris, H+-PPi synthase of chromatophores prepared from Rhodospirillum rubrum, soluble PPase from Saccharomyces cerevisiae, alkaline phosphatase from bovine intestinal mucosa, and nonspecific monophosphoesterase from Vigna at a PPi concentration equivalent to 10 times the K,,, of the V-PPase. Although all three PPi analogs inhibited the plant V-PPase and bacterial H+-PPi synthase with qualitatively similar kinetics, whether substrate hydrolysis or PPi-dependent H+-translocation was measured, neither the vacuolar H+-ATPase nor plasma membrane H+-ATPase nor any of the non-V-PPase-related PPi hydrolases were markedly inhibited under these conditions. It is concluded that 1,l-diphosphonates, in general, and aminomethylenediphosphonate, in particular, are potent type-specific inhibitors of the V-PPase and its putative bacterial homolog, the H+-PPi synthase of Rhodospirillum.It is now established that PPi is a major energy source for electrogenic H+ translocation across the vacuolar membrane of plant cells (Rea et al., 1992b;Rea and Poole, 1993) * Corresponding author; fax 1-215-898-8780.
153transtonoplast H+ electrochemical potential difference (Rea et al., 1992b;Rea and Poole, 1993).Interest in the V-PPase derives not only from its exclusive use of PPi as energy source but also from its apparently unique evolutionary status among the various categories of primary ion translocases and PPi hydrolases. Data base searches of the deduced sequences of the polypeptides encoded by cDNAs corresponding to the major substrate-binding subunit of the V-PPase reveal no detectable homology between this pump and other sequenced ion translocases (Rea et al., 1992b;Sarafian et al., 1992). Sidarly, close phylogenic links between the V-PPase and the soluble, nonenergy-conserving PPases of both prokaryotes and eukaryotes are unlikely. A11 characterized soluble PPases have different subunit sizes from the V-PPase (Coopennan et al., 1992), and none of the known sequences for soluble PPases align with the deduced sequence of the V-PPa...
