PLANT PHYSIOLOGY , Vol 110, Issue 1 97-103, Copyright © 1996 by American Society of Plant Biologists
The Kinetics of N-Ethylmaleimide Inhibition of a Vacuolar H+-ATPase and Determination of Nucleotide Dissociation Constants
I. E. Hunt and D. Sanders
The Plant Laboratory, Department of Biology, University of York, P.O. Box 373, York YO1 5YW, United Kingdom
All eukaryotic vacuolar (V-type) ATPases share the property of being
inhibited by low concentrations (1-2 [mu]M) if N-ethylmaleimide (NEM). This
distinguishes them from P-type ATPases, which are inhibited by higher
concentrations of NEM (0.1-1 mM), and F-type ATPases, which are virtually
resistant to inhibition by NEM. Using tonoplast vesicles from Beta vulgaris
we have determined the kinetics of NEM inactivation of the V-type ATPase to
be pseudo-first order. The concentration dependence of the reaction
indicates interaction with a single class of inhibitory site with a rate
constant of 4.1 x 104 M-1 min-1. Nucleotides protect against inactivation
with an efficacy that agrees with their capacity to act as enzyme
substrates. The dissociation constant for MgATP has been determined from
protection experiments to be 0.44 mM, which is close to the observed Km for
hydrolysis (0.39 mM). Likewise, the dissociation constant for protection by
MgADP (127 [mu]M) is close to its inhibition constant as a competitive
inhibitor (110 [mu]M). Taken together, these findings suggest that NEM
inactivation is associated with nucleotide protectable exposure of a single
cysteine residue on the catalytic subunit and confirm the utility of this
residue for the determination of ligand dissociation constants through
protection of maleimide inhibition.
