Pre- and postsynaptic actions of a partial D2 receptor agonist in reserpinized young rats: longevity of agonistic effects.

Partial D2 receptor agonists (e.g., terguride, preclamol, and aripiprazole) have antagonist-like effects at normosensitive D2 postsynaptic receptors and synthesis modulating autoreceptors. In reserpine-pretreated adult and young rats, however, partial D2 agonists function like high efficacy agonists at D2 postsynaptic receptors and autoreceptors (i.e., terguride increases locomotor activity and decreases dopamine synthesis). The purpose of the present study was to examine the time-course of these pharmacological effects. In all experiments, preweanling rats were given daily injections of reserpine (1 mg/kg, i.p.) or vehicle on postnatal day (PD) 16-PD 20. In the dopamine synthesis experiments, the ability of terguride (0.8 mg/kg) to reduce striatal DOPA accumulation (in NSD-1015 treated rats) was assessed either 5 h or 1, 2, 4, or 8 days (Experiment 1) or 4, 8, 12, 16, 20, or 24 days (Experiment 2) after reserpine pretreatment. In the behavioral experiments, locomotor activity of vehicle or terguride (0.8 mg/kg, i.p.) treated rats was assessed 5 h or 1, 2, 4, or 8 days after the 5-day reserpine regimen. Results from the dopamine synthesis experiments showed that terguride caused agonist-like effects (i.e., decreased DOPA accumulation) at only the 5 h and 1 day time points, although terguride did not induce its normal antagonist-like effects even 20 days after reserpine pretreatment. In the behavioral experiments, terguride stimulated locomotor activity for only the initial 2 days after reserpine pretreatment. The results of the present study show that the agonistic effects of terguride at pre- and postsynaptic receptors are short-lived, but terguride may not exhibit normal antagonistic effects, at least at synthesis modulating autoreceptors, until long after conclusion of reserpine pretreatment.

Postnatal manganese exposure attenuates cocaine-induced locomotor activity and reduces dopamine transporters in adult male rats.

In the present study, we examined whether exposing rats to manganese (Mn) during the preweanling period would affect basal or cocaine-induced locomotor activity in adulthood and reduce the number of striatal dopamine transporter binding sites. On postnatal day (PD) 1-21, rats were given oral supplements of vehicle or Mn chloride (250 or 750 microg/day). Striatal Mn and iron (Fe) accumulation as well as serum Fe levels were measured on PD 14, PD 21, and PD 90. Throughout the dosing period, rats were evaluated on standard measures of sensory and motor development. During adulthood, the basal and cocaine-induced locomotor activity of vehicle- and Mn-exposed rats was assessed using automated testing chambers. After completion of behavioral testing, striatal dopamine transporter binding sites were measured using [(3)H]GBR 12935. Results showed that early Mn exposure enhanced striatal Mn accumulation on PD 14 and PD 21, while depressing serum Fe levels on PD 21. Exposure to Mn on PD 1-21 did not affect striatal or serum Mn or Fe levels on PD 90. During the second postnatal week, Mn-exposed rat pups performed more poorly than controls on a negative geotaxis task, however basal motor activity of preweanling rat pups was not affected by Mn treatment. When tested in adulthood, basal locomotor activity of vehicle- and Mn-exposed rats also did not differ. In contrast, adult rats previously exposed to 750 microg/day Mn showed an enhanced locomotor response when challenged with 10 mg/kg cocaine. A different pattern of results occurred after treatment with a higher dose of the psychostimulant, because Mn-exposed rats showed an attenuated locomotor response when given 20 mg/kg cocaine. Importantly, Mn-exposed rats exhibited long-term reductions in striatal dopamine transporter binding sites. Considered together, these results indicate that postnatal Mn exposure has long-term behavioral and neurochemical effects that can persist into adulthood.

The partial dopamine D2-like receptor agonist terguride functions as an agonist in preweanling rats after a 5-day reserpine regimen.

RATIONALE: Treating children and adolescents with partial D2-like agonists is becoming increasingly common, although few developmental animal studies have assessed the psychopharmacology of this class of drug. Contrary to results from adult rat studies, it has been reported that partial D2-like agonists may not induce agonist-like behavioral effects in preweanling rats during states of low dopaminergic tone. OBJECTIVE: The purpose of the present study was to determine whether a partial D2-like agonist would act as an agonist in preweanling rats after a 5-day regimen of the dopamine-depleting agent reserpine or the tyrosine hydroxylase inhibitor alpha-methyl-DL-p-tyrosine (AMPT). METHODS: Sprague-Dawley rats were pretreated with reserpine (1 mg kg(-1) per day) or AMPT (3 x 200 mg kg(-1) per day) on postnatal day (PD) 16-PD 20. Either 2 h (AMPT) or 5 h (reserpine) after the last pretreatment injection, rats were treated with saline, the partial D2-like agonist terguride, or the full D2-like agonist R(-)-propylnorapomorphine (NPA). Distance traveled and repetitive motor movements were measured for 60 min. RESULTS: After repeated reserpine treatment, both terguride and NPA increased the distance-traveled scores of preweanling rats; however, only NPA, but not terguride, increased distance-traveled scores after a 5-day regimen of AMPT or an acute injection of reserpine. CONCLUSIONS: It is now apparent that partial D2-like agonists are capable of inducing agonist-like behavioral effects in preweanling rats during a state of low dopaminergic tone. For agonistic actions to be observed, the pretreatment regimen must result in substantial and prolonged dopamine depletion.