Effects of dimethyl sulfoxide on catalysis in Escherichia coli F1-ATPase

Abstract

(1) Dimethyl sulfoxide (DMSO) markedly inhibited the Vmax of multisite ATPase activity in Escherichia coli F1-ATPase at concentrations greater than 30% (v/v). Vmax/KM was reduced by 2 orders of magnitude in 40% (v/v) DMSO at pH 7.5, primarily due to reduction of Vmax. The inhibition was rapidly reversed on dilution into aqueous buffer. (2) KdATP at the first, high-affinity catalytic site was increased 1500-fold from 2.3 x 10(-10) to 3.4 x 10(-7) M in 40% DMSO at pH 7.5, whereas KdADP was increased 3.2-fold from 8.8 to 28 microM. This suggests that the high-affinity catalytic site presents a hydrophobic environment for ATP binding in native enzyme, that there is a significant difference between the conformation for ADP binding as opposed to ATP binding, and that the ADP-binding conformation is more hydrophilic. (3) Rate constants for hydrolysis and resynthesis of bound ATP in unisite catalysis were slowed approximately 10-fold by 40% DMSO; however, the equilibrium between bound Pi/bound ATP was little changed. The reduction in catalysis rates may well be related to the large increase in KdATP (less constrained site). (4) Significant Pi binding to E. coli F1 could not be detected either in 40% DMSO or in aqueous buffer using a centrifuge column procedure. (5) We infer, on the basis of the measured constants KaATP, K2 (hydrolysis/resynthesis of ATP), k+3 (Pi release), and KdADP and from estimates of k-3 (Pi binding) that delta G for ATP hydrolysis in 40% DMSO-containing pH 7.5 buffer is between -9.2 and -16.8 kJ/mol.