Rat striatal synaptosomal tyrosine hydroxylation was inhibited dose- and pH dependently by a number of dopamine agonists. The catecholic agonists apomorphine and (-)N-n-propylnorapomorphine inhibited synaptosomal tyrosine hydroxylase completely, with IC50 values of around 0.3 mumol/l at pH 6.6. The noncatechol agonists pergolide and bromocriptine and the putative dopamine autoreceptor agonists 3-PPP(-), 3-PPP(+), HW-165 and B-HT 920 produced only partial inhibition of synaptosomal tyrosine hydroxylation at high concentrations. Comparison of the inhibition of synaptosomal and soluble tyrosine hydroxylase indicated that the inhibition produced by apomorphine could be ascribed to a direct effect on the enzyme, whereas this was not the case for the noncatechol agonists. The inhibition produced by pergolide and 3-PPP(-) was not antagonised by either dopamine receptor or alpha-adrenoceptor antagonists. The present results have been compared with results reported in the literature for inhibition of synaptosomal tyrosine hydroxylation and for two other tests of dopamine autoreceptor agonist activity (inhibition of dopamine release from striatal slices in vitro, and inhibition of the gamma-butyrolactone induced increase in dopamine synthesis in vivo). It is concluded that inhibition of striatal synaptosomal tyrosine hydroxylation by dopamine agonists does not fulfil the criteria required for it to be considered as a useful measure of dopamine autoreceptor function.
The biochemical and behavioural effects of isamoltane, a beta-adrenoceptor and 5-HT1B receptor antagonist that has higher affinity for 5-HT1B receptors than for 5-HT1A receptors, on 5-HT neurotransmission in the rat brain were examined. In binding experiments isamoltane was found to be about five times more potent as a ligand for the 5-HT1B receptor than for the 5-HT1A receptor (Ki values 21 and 112 nmol/l, respectively). Isamoltane increased the K(+)-evoked overflow of 3H from 3H-5-HT loaded slices of rat occipital cortex at 0.1 mumol/l, consistent with inhibition of the terminal 5-HT autoreceptor. In vivo, isamoltane significantly increased the concentration of 5-hydroxyindoleacetic acid in hypothalamus and hippocampus indicating an increased 5-HT turnover with a maximal effect at 3 mg/kg s.c. A higher dose produced a less pronounced effect. This effect did not seem to be due to the beta-adrenoceptor blocking action of isamoltane since the beta-adrenoceptor antagonists. (-)-alprenolol, betaxolol or ICI 118.551 had no significant effects on 5-HT turnover at 5 mg/kg s.c. Isamoltane at 3 mg/kg s.c. induced the wet-dog shake response which was blocked by the tryptophan hydroxylase inhibitor p-chlorophenylalanine. In contrast, the same response induced by the 5-HT2 receptor agonist quipazine was not blocked by pretreatment with p-chlorophenylalanine. The wet-dog shakes evoked by isamoltane and quipazine were blocked by ritanserin, which indicates that 5-HT2 receptors are involved in their expression. These observations indicate that isamoltane, by inhibiting the terminal 5-HT autoreceptors, increased the synaptic concentration of 5-HT to a level that induced a behavioural response.
The effect of alaproclate in carbachol-stimulated inositol phospholipid (PI) breakdown in rat cerebral cortical miniprisms has been investigated. Carbachol-stimulated PI breakdown was greatly enhanced by increasing the assay potassium concentration from 5.88 to 18.2 mM. Alaproclate, on the other hand, did not influence carbachol-stimulated PI breakdown over the concentration range tested (0-100 microM) at either assay [K+]. The elution pattern of the inositol phosphates from the Dowex-1 columns was also unaffected by alaproclate both in the absence and presence of carbachol. Thus, the potentiation by alaproclate of tremor and salivation induced by the muscarinic agonist oxotremorine in-vivo reported previously is not seen when muscarinic function is measured in-vitro using carbachol-stimulated PI breakdown.
The in vitro inhibition by amiflamine [FLA 336(+)] and related compounds of the activity of rat monoamine oxidase (MAO) -A and -B, rat semicarbazide sensitive amine oxidase (SSAO) and human platelet poor plasma benzylamine oxidase was studied. Amiflamine was an MAO-A selective inhibitor, but also inhibits SSAO with both a reversible (competitive, Ki = 200 mumol/l) and a small time-dependent component which was irreversible in nature. The optical isomer FLA 336(-) was ten times less potent towards MAO-A. However, this compound was much more potent an inhibitor of SSAO (competitive, Ki = 4.6 mumol/l). The amiflamine metabolites FLA 788(+) and FLA 668(+) inhibited SSAO, but only at concentrations considerably higher than required for MAO-A inhibition. Ex vivo experiments indicated that there was no significant irreversible inhibition of rat heart and lung SSAO after both single and repeated administration of amiflamine at doses up to 20 times higher than required for inhibition of MAO-A within central serotoninergic neurones.
The effects of the dopamine D2 selective receptor antagonist, remoxipride, on dopamine turnover in the rat brain were studied after acute and repeated administration and compared with the effects of haloperidol. Acute administration of remoxipride produced a dose-dependent increase of the concentrations of DOPAC and HVA in both striatum and olfactory tubercle + nucleus accumbens. The maximal effect of both acute remoxipride and haloperidol on dopamine turnover was attained approximately 2 hours after a single intraperitoneal administration, whereas a biphasic response was seen after oral remoxipride. Tolerance to the effects of repeated haloperidol (20 mumol/kg orally) treatment on dopamine turnover was observed as soon as after 3 days, whereas no such tolerance could be found during the first 15 days of repeated treatment with remoxipride (20 mumol/kg orally). A dose-related tolerance to the effects of remoxipride was, however, seen at higher dosages (40, 150 and 600 mumol/kg orally) and after a longer period (6 months) of treatment.
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