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Vol. 288, Issue 2, 879-887, February 1999
Neuroscience Training Program (M.A.H., G.A.G.), Departments of
Psychiatry (G.A.G.) and
Pharmacology (G.A.G.), and the
Rocky Mountain
Center for Sensor Technology (M.A.H., G.A.G.), University of Colorado
Health Sciences Center, Denver, Colorado
Age-related changes in the capacity, rate, and modulation of dopamine
(DA) uptake within the striatum and the nucleus accumbens core of
Fischer 344 rats were investigated using in vivo electrochemical recordings coupled with local drug application techniques. Equimolar amounts of DA were pressure ejected into the striatum and the nucleus
accumbens of 6-, 12-, 18-, and 24-month old rats. The DA ejections
produced larger DA signal amplitudes in the older rats, suggesting
age-related differences in the capacity to clear extracellular DA.
Within the striatum, the capacity and rate of DA uptake were reduced by
50% in the aged groups (18 and 24months) compared with the younger
rats (6 and 12 months). In the nucleus accumbens, significant
reductions in DA uptake capacity and rate were observed in the 24-month
group. In both brain regions and in all age groups studied, the rate of
DA uptake was found to be concentration-dependent until a maximal rate
was reached. The maximum rate of DA transport was significantly reduced
in both the striatum and the nucleus accumbens of aged rats (18 and 24 months versus 6 and 12 months). The ability of nomifensine, an inhibitor of the DA transporter, to modulate DA signal amplitudes in
the striatum and the nucleus accumbens was also decreased with age (24 months versus 6 months). Taken together, these findings demonstrate
substantial age-related deficits in DA uptake processes within the
striatum and the nucleus accumbens, consistent with the hypothesis that
DA uptake may be slowed in aged animals to compensate for reductions in
DA release.
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