EFFECTS OF COCAINE AND REPEATED COCAINE FOLLOWED BY WITHDRAWAL - ALTERATIONS OF DOPAMINERGIC TRANSPORTER TURNOVER WITH NO CHANGES IN KINETICS OF SUBSTRATE RECOGNITION
Sm. Meiergerd et al., EFFECTS OF COCAINE AND REPEATED COCAINE FOLLOWED BY WITHDRAWAL - ALTERATIONS OF DOPAMINERGIC TRANSPORTER TURNOVER WITH NO CHANGES IN KINETICS OF SUBSTRATE RECOGNITION, Biochemical pharmacology, 47(9), 1994, pp. 1627-1634
The turnover of the transporter for dopamine (ca. 1.5 sec(-1)) and the
apparent second order rate constant of association of dopamine with t
he outward facing form of the transporter protein (ca. 10(6) M(-1)sec(
-1)) were estimated using kinetic data from rotating disk voltammetric
measures of the inward transport of dopamine in striatal suspensions,
standard treatments of the kinetics of transport, and values in the l
iterature for density of striatal transporter sites. Under apparent st
eady-state conditions of transporter functioning, inhibition of the tr
ansport of dopamine by cocaine following its addition to the incubatio
n buffer was found to decrease the turnover of the transporter and not
affect the kinetics of substrate recognition. The kinetics of binding
of dopamine to the transporter were estimated also by apparent pre-st
eady-state kinetics. These experiments confirmed the second order natu
re of the binding of dopamine to the transporter and the numerical val
ue of the rate constant estimated under steady-state conditions; they
also demonstrated that the binding of dopamine has an absolute depende
nce on Na+, and that the second order rate constant of association of
dopamine with its transporter is not influenced by cocaine. In separat
e studies, similar experiments were conducted in tissues from animals
that had been treated with cocaine for 3 days and withdrawn for 1 day
or 2 weeks. Repeated treatments with cocaine followed by either a 24-h
r or 2-week period of withdrawal resulted in increases in the V-max an
d turnover of the transporter with no apparent changes in the kinetics
of association of substrate. No differences between the K-i for cocai
ne observed in direct inhibitions of the transport of dopamine and the
K-i for cocaine observed in tissues obtained from animals treated rep
eatedly with cocaine were observed. Taken together, these data suggest
that cocaine exerts its effects by altering an intramembrane transloc
ation step for the movement of dopamine and not by changing the recogn
ition of dopamine by the externally facing binding site or the apparen
t K-i for cocaine. Finally, repeated treatments with cocaine followed
by a period of withdrawal appear to kinetically activate the transport
er for dopamine.