INHIBITION AND INACTIVATION OF THE F(1)-ADENOSINE-TRIPHOSPHATASE FROMBACILLUS PS3 BY DEQUALINIUM AND ACTIVATION OF THE ENZYME BY LAURYL DIMETHYLAMINE OXIDE
Sr. Paik et al., INHIBITION AND INACTIVATION OF THE F(1)-ADENOSINE-TRIPHOSPHATASE FROMBACILLUS PS3 BY DEQUALINIUM AND ACTIVATION OF THE ENZYME BY LAURYL DIMETHYLAMINE OXIDE, Biochemistry, 33(1), 1994, pp. 126-133
The F1-ATPase from Bacillus PS3 (TF1) hydrolyzes 50 muM ATP in three k
inetic phases. An initial burst rapidly decelerates to a partially inh
ibited, intermediate phase, which, in tum, gradually accelerates to an
uninhibited, final steady-state rate. Lauryl dimethylamine oxide (LDA
O) stimulates the final rate over 4-fold. The stimulatory effect satur
ates at about 0.1% LDAO. Under these conditions, the intermediate phas
e is nearly absent. Dequalinium inhibits TF1 reversibly in the dark in
the presence or absence of LDAO. The apparent affinity of TF1 for deq
ualinium increases in the presence of LDAO. Dixon plots of the initial
rates of the intermediate phase and the final rates against dequalini
um concentration at a series of fixed ATP concentrations in the presen
ce and absence of 0.03% LDAO indicate noncompetitive inhibition in eac
h case. Replots of the slopes of the Dixon plots for the initial rate
of the intermediate phase and the final rate against 1/[ATP] reveal ap
parent K(m) values of 770 muM and 144 muM, respectively, when obtained
in the absence of LDAO. The apparent K(m) values determined from the
data obtained in the presence of LDAO for the same phases are 303 muM
and 163 muM, respectively. These results suggest that LDAO stimulates
ATPase activity either by increasing the affinity of noncatalytic site
s for ATP, which promotes release of inhibitory MgADP from a catalytic
site, or by directly promoting release of MgADP from the affected cat
alytic site. Dequalinium retards this process without affecting the af
finity of noncatalytic sites for ATP. When irradiated in the presence
of dequalinium, TF1 is rapidly inactivated with an apparent K(d) of 12
.5 AM in the presence or absence of LDAO. Under both conditions, 90% p
hotoinactivation occurs with incorporation of about 2-2.5 mol of [C-14
]dequalinium/mol of TF1. Fractionation of cyanogen bromide-tryptic dig
ests of enzyme photoinactivated with [C-14]dequalinium with or without
LDAO led to isolation of a labeled peptide containing residues 406-43
1 of the beta subunit in which Phe-420 is derivatized. The results obt
ained indicate that photoinactivation of TF1 with dequalinium is accom
panied by derivatization of Phe-420 in a single copy of the beta subun
it and that the residual radioactivity incorporated is the consequence
of nonspecific labeling.