Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:1.14.16.2 (tyrosine hydroxylase)
 14,760 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The effects of the benzocycloheptapyridoisoquinolinol derivative (+)-dexclamol-HCl and some of those of (+/-)-dexclamol and the corresponding (-)-dexclamol were compared to those of the potent neuroleptic agents droperidol and fluphenazine on norepinephrine (NE) and dopamine (DA) turnover in the whole brain and in the striatum of rats. Differences in NE and DA depletion following tyrosine hydroxylase inhibition with alpha-methyl-p-tyrosine indicated that (+)-dexclamol and droperidol increased DA turnover with no effect on NE turnover. At a higher dose both (+)-dexclamol and droperidol, but not (-)-dexclamol, accelerated DA turnover and also that of NE. A decrease in DA concentration occurred after both drugs under the latter condition only. (+)-Dexclamol, (+/-)-dexclamol and droperidol exhibited a similar onset of action employing striatal homovanillic acid (HVA) increase as indicative of DA turnover changes. The duration of action of droperidol was shorter than for (+)-dexclamol and (+/-)-dexclamol; fluphenazine displayed a slower onset and longer duration of activity. The (-)-dexclamol was ineffective. (+)-Dexclamol, droperidol and phentolamine reduced the concentrations of 3H-NE in heart when given after the 3H-NE, a probable indication of increased NE release due to adrenergic receptor blockade. The present findings demonstrate that the neuroleptic agent (+)-dexclamol, but not (-)-dexclamol, affects central DA and NE turnover and indicates a stereochemical specificity with respect to antagonism of central DA and NE receptors.
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PMID:Dexclamol: effects on catecholamine metabolism and demonstration of stereochemical specificity of antagonism of central adrenergic receptors. 1 20

Progesterone and certain corticosteroids, such as deoxycorticosterone (DOC) and triamcinolone acetonide (TA), can stimulate gonadotropin surges in rats. The mechanism of these steroids could involve a pituitary or hypothalamic site of action, or both. Progesterone and TA did not alter the ability of GnRH to release LH or FSH either before, during, or after the gonadotropin surge induced by these steroids in estrogen-primed ovariectomized female rats. Furthermore, progesterone, TA and DOC were unable to induce a gonadotropin surge in short-term estrogen-primed castrated male rats. These results suggested a hypothalamic rather than a pituitary site of action of progesterone and corticosteroids in the release of gonadotropins. Since progestin and corticosteroid receptors are present in catecholamine neurons, a role for catecholamine neurotransmission in progesterone and corticosteroid-induced surges of LH and FSH in estrogen-primed ovariectomized rats was examined. Catecholamine synthesis inhibitors and specific alpha 1 (prazosin), alpha 2 (yohimbine), and beta (propranolol) receptor antagonists were used to determine the role of catecholamine neurotransmission in the steroid-induced surges of LH and FSH. Both of the catecholamine synthesis inhibitors, alpha-methyl-p-tyrosine HCl (alpha-MPT), a tyrosine hydroxylase inhibitor, and sodium diethyldithiocarbamate (DDC), an inhibitor of dopamine-beta-hydroxylase, attenuated the ability of progesterone, TA, and DOC to induce LH surges when administered 3 h and 1 h, respectively, before the steroid. DDC also suppressed the ability of progesterone, TA, and DOC to induce FSH surges. Rats treated with alpha-MPT had lower mean FSH values than did steroid controls, but the effect was not significant. Both the alpha 1 and alpha 2 adrenergic antagonists, prazosin and yohimbine, significantly suppressed the ability of progesterone, TA, and DOC to induce LH and FSH surges. In contrast, the beta adrenergic receptor blocker, propranolol, had no effect upon the ability of progesterone, TA, or DOC to facilitate LH and FSH secretion. Finally, the stimulatory effect of progesterone and TA upon LH and FSH release was found to be blocked by prior treatment with a GnRH antagonist, further suggesting hypothalamic involvement. In conclusion, this study provides evidence that the stimulation of gonadotropin release by progesterone and corticosteroids is mediated through a common mechanism, and that this mechanism involves the release of GnRH, most likely through catecholaminergic stimulation. Furthermore, catecholamine neurotransmission, through alpha 1 and alpha 2 but not beta receptor sites, is required for the expression of progesterone and corticosteroid-induced surges of LH and FSH in estrogen-primed ovariectomized rats.
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PMID:Detailed examination of the mechanism and site of action of progesterone and corticosteroids in the regulation of gonadotropin secretion: hypothalamic gonadotropin-releasing hormone and catecholamine involvement. 165 75

Single toxic doses of 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP).HCl (2.5 mg/kg i.v.) and 4'-amino-MPTP.2HCl (22.5 mg/kg) induce loss of striatal dopamine (DA) and tyrosine hydroxylase (TH) activity and of nigral DA neurons in the dog. To examine the subacute neurochemical changes induced by low doses of MPTP and 4'-amino-MPTP, dose-response studies of these compounds were carried out in the dog, using 6- and 3-week survival times for these two compounds, respectively. Low single doses of MPTP (1.0, 0.5, and 0.1 mg/kg i.v.) and 4'-amino-MPTP (15, 7.5, and 3.75 mg/kg i.v.) did not cause depletion of canine striatal DA or TH or a loss of nigral neurons. However, levels of the DA metabolites 3,4-dihydroxyphenylacetic acid (DOPAC) and homovanillic acid (HVA) were decreased in a dose-related fashion, with significant loss of DOPAC being evident 6 weeks after the lowest administered dose of MPTP and 3 weeks after 4'-amino-MPTP. This selective loss of DA metabolites following nontoxic doses of MPTP and 4'-amino-MPTP led to a shift in the ratio of DA to DOPAC or HVA, which was characteristic for each compound. The measurement of striatal 1-methyl-4-phenylpyridinium (MPP+) and 4'-amino-MPP+ levels revealed that high concentrations (up to 150 microM) persist in the striatum for weeks following administration of a single nontoxic dose of MPTP or 4'-amino-MPTP. A causal relationship between the striatal concentration of MPP+ or 4'-amino-MPP+ and the change in DA metabolism as reflected in the DA/DOPAC ratio is suggested by a significant correlation between these measures. It is suggested that presynaptic sequestration and retention of MPP+ and 4'-amino-MPP+ by striatal DA terminals result in the inhibition of the monoamine oxidase contained within these terminals.
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PMID:Prolonged alterations in canine striatal dopamine metabolism following subtoxic doses of 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) and 4'-amino-MPTP are linked to the persistence of pyridinium metabolites. 167 82

Triadimefon is a triazole fungicide that produces hyperactivity in both mice and rats similar to that seen following administration of compounds with catecholaminergic activity (e.g., d-amphetamine). To determine whether the triadimefon-induced hyperactivity is due to an action on CNS catecholaminergic systems, we evaluated the effects of combined treatment of triadimefon with either the tyrosine hydroxylase inhibitor d,l-alpha-methyl-p-tyrosine methyl ester HCl (alpha MPT) or the amine depletor reserpine. Adult male Long-Evans hooded rats, approximately 70 days of age were used. Dosage-effect functions were determined for alpha MPT (0-200 mg/kg IP), reserpine (0-2.5 mg/kg IP), d-amphetamine (0-3 mg/kg IP), and methylphenidate (0-40 mg/kg IP). Motor activity was measured as photocell interruptions in figure-eight mazes. The interaction between triadimefon and alpha MPT was determined with the following groups: 1) vehicle control; 2) 200 mg/kg triadimefon PO; 3) 100 mg/kg alpha MPT; and 4) both alpha MPT and triadimefon. A similar design was used to determine the interaction between triadimefon and reserpine (0.62 mg/kg), alpha MPT and d-amphetamine (1.5 mg/kg), and reserpine and methylphenidate (5.0 mg/kg). In the first experiment alpha MPT did not block the increased motor activity produced by triadimefon (i.e., both triadimefon alone and alpha MPT in combination with triadimefon produced significant increases in motor activity). alpha MPT did, however, block d-amphetamine-induced hyperactivity. Since alpha MPT did not antagonize the effect of triadimefon, these data suggest that increased motor activity produced by triadimefon is not mediated through release of newly synthesized catecholamines.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Evidence for monoaminergic involvement in triadimefon-induced hyperactivity. 249 80

1. A novel method for measurement of 3-methoxy-4-hydroxyphenylglycol (MHPG) in mouse brain by use of high performance liquid chromatography (h.p.l.c.) with electrochemical detection is described. This technique incorporates an ethyl acetate purification procedure and uses 3-hydroxy-4-methoxyphenylglycol (iso-MHPG) as the internal standard. 2. Inhibition of monoamine oxidase by injection of tranylcypromine (5 and 10 mg kg-1) or pargyline (50 and 100 mg kg-1) markedly decreased brain MHPG concentrations. After injection of the tyrosine hydroxylase inhibitor, alpha-methyl-p-tyrosine (200 mg kg-1), there were time-dependent linear decreases in the concentrations of noradrenaline and MHPG in mouse brain. In addition, a very good correlation (r = 0.95, n = 30; P less than 0.001) was found between the concentrations of noradrenaline and MHPG present in the brains of the same mice after alpha-methyl-p-tyrosine treatment. 3. Mouse brain MHPG concentrations were dose-dependently reduced after administration of the alpha 2-adrenoceptor agonist, clonidine (1-3000 micrograms kg-1), and elevated by the antagonists, idazoxan (1 and 5 mg kg-1), and yohimbine (1 and 5 mg kg-1). Intracerebroventricular injection of the alpha 1-adrenoceptor agonist, phenylephrine (5-50 micrograms) dose-dependently increased MHPG levels. The alpha 1-adrenoceptor antagonist, prazosin, had no effect at the moderate dose of 1 mg kg-1, but increased MHPG concentrations at 5 mg kg-1. The beta-adrenoceptor agonist, clenbuterol (10-1000 micrograms kg-1) and the antagonist, pindolol (1 and 5 mg kg-1), were both without effect. 4. The decrease in brain MHPG concentrations induced by clonidine (100 micrograms kg-1) was prevented by prior injection of 1 mg kg-1 of idazoxan or yohimbine, but not by prazosin or pindolol. 5. MHPG levels were decreased after administration of the noradrenaline reuptake inhibitor desipramine (5 and 10 mg kg-1) and the non-selective monoamine reuptake inhibitors, sibutramine HCl (BTS 54 524; 1 and 3 mg kg-1) and amitryptyline (5 mg kg-1). However, the selective 5-hydroxytryptamine reuptake inhibitor, zimeldine (5 and 10 mg kg-1), was without effect. Dexamphetamine (1 and 5 mg kg-1) and methamphetamine (1 and 5 mg kg-1) both decreased brain MHPG concentrations in a dose-related fashion. 6. Overall the data show that MHPG can be used as a functional index of both presynaptic alpha 2-adrenoceptor activity and noradrenaline turnover and utilisation.
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PMID:Measurement of 3-methoxy-4-hydroxyphenylglycol (MHPG) in mouse brain by h.p.l.c. with electrochemical detection, as an index of noradrenaline utilisation and presynaptic alpha 2-adrenoceptor function. 254 44

Adult beagle dogs of either sex were injected with 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP)-HCl (2.5 mg/kg, i.v.) alone or after pretreatment with pargyline (5.0 mg/kg, s.c., twice), with pargyline alone, or were uninjected. Groups were killed 2 h, 3 weeks, or 3 months after injection, and several brain areas were assayed for biogenic amines and their synthetic and degradative enzymes. MPTP caused a massive and permanent loss of striatal dopamine, tyrosine hydroxylase, and 3,4-dihydroxyphenylalanine decarboxylase activities and the loss of cells within the substantia nigra pars compacta. Dopamine and norepinephrine also were depleted to various degrees in cortex, olfactory bulb, and hypothalamus; however, dopamine beta-hydroxylase activity in cortex was normal. There was no cell loss in the ventral tegmental area or locus ceruleus. The activities of monoamine oxidase (MAO)-A and MAO-B in cortex and caudate were not affected by MPTP. Despite a permanent loss of the nigrostriatal system, the dogs exhibited only a transient hypokinesia lasting 1-2 weeks. Pargyline pretreatment prevented the loss of striatal dopamine and cells from the substantia nigra, but did not prevent a prolonged but reversible decrease in the concentration of dopamine metabolites. It is argued that this apparent inhibition of MAO is due not to suicide inactivation of the enzyme by MPTP, but to reversible inhibition by accumulation of the pyridinium metabolite, 1-methyl-4-phenylpyridinium, selectivity in aminergic terminals.
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PMID:Effects of 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine in the dog: effect of pargyline pretreatment. 256 5

Amperozide (FG 5606; N-ethyl-4-[4',4'-bis(p-fluorophenyl)butyl]-1-piperazinecarboximide ) is a new putatively antipsychotic compound with a postulated 5-HT2 antagonistic profile. Somewhat surprisingly amperozide dose dependently induced a behavioural stimulation in reserpinized and in nonpretreated rats. The behaviour consisted of both forward and backward locomotion as well as forepaw circling and a grooming like behaviour. Since the behavioural pattern clearly differ from that produced by classical dopaminergic or serotonergic agonists (e.g. apomorphine or 8-hydroxy-2-(di-n-propylamino)tetralin, 8-OH-DPAT), and has not been previously reported, we decided to investigate the origin of this effect. In the behavioural paradigms it was not possible to antagonize the amperozide stimulation in reserpinized rats with the dopamine receptor blockers haloperidol, raclopride or R(+)-7-chloro-8-hydroxy-3-methyl-1-phenyl-2,3,4,5-tetrahydro-1 H-3-benzazepine, SCH 23390. Neither the 5-HT2 receptor blocking agent ritanserin nor the tryptophan and tyrosine hydroxylase inhibitor DL-3,4-dihydroxy-phenyl-alpha-propylacetamide, H22/54, could block the motoric stimulation or the forepaw circling behaviour produced by amperozide. However, the noradrenaline synthesis inhibitor bis-(4-methyl-1-homopiperazinylthiocarbonyl)-disulfide, FLA 63, as well as the alpha-adrenoceptor antagonist phenoxybenzamine, could partly inhibit the locomotor stimulation. Hence, noradrenaline seems to be, at least in part, involved in the behavioural stimulatory effect of amperozide. Biochemically amperozide had no effect on the dopamine synthesis rate (DOPA formation) in normal or reserpinized animals in the striatal or the limbic brain regions. In reserpinized animals amperozide also failed to antagonize the decrease in DOPA formation after apomorphine and 3-hydroxy-benzylhydrazine HCl, NSD 1015, in these regions.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:The putatively antipsychotic agent amperozide produces behavioural stimulation in the rat. A behavioural and biochemical characterization. 257 72

The substrates of dihydropteridine reductase (EC 1.6.99.7), quinonoid 7,8-dihydro(6 H)pterins, are unstable and decompose in various ways. In attempting to prepare a more stable substrate, 6,6,8-trimethyl-5,6,7,8-tetrahydro(3 H)pterin was synthesised and the quinonoid 6,6,8-trimethyl-7,8-dihydro(6 H)pterin derived from it is extremely stable with a half-life in 0.1 M Tris/HCl (pH 7.6, 25 degrees C) of 33 h. Quinonoid 6,6,8-trimethyl-7,8-dihydro(6 H)pterin is not a substrate for dihydropteridine reductase but it is reduced non-enzymically by NADH at a significant rate and it is a weak inhibitor of the enzyme: I50 200 microM, pH 7.6, 25 degrees C when using quinonoid 6-methyl-7,8-dihydro(6 H)pterin as substrate. 6,6,8-Trimethyl-5,6,7,8-tetrahydropterin is a cofactor for phenylalanine hydroxylase (EC 1.14.16.1) with an apparent Km of 0.33 mM, but no cofactor activity could be detected with tyrosine hydroxylase (EC 1.14.16.2). Its phenylalanine hydroxylase activity, together with the enhanced stability of quinonoid 6,6,8-trimethyl-7,8-dihydro(6 H)pterin, suggest that it may have potential for the treatment of variant forms of phenylketonuria.
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PMID:Reduced 6,6,8-trimethylpterins. Preparation, properties and enzymic reactivities with dihydropteridine reductase, phenylalanine hydroxylase and tyrosine hydroxylase. 285 23

The potential neuroleptic alpha-(4-fluorophenyl)-4-(5-fluoro-2-pyrimidinyl)-1-piperazine-butanol HCl (BMY 14802-1) was tested for its effects on mesotelencephalic dopamine (DA) neurons in albino rats. BMY 14802-1 increased DA turnover in DA terminal regions, increased nigral DA neuronal impulse flow and blocked the behavioral stimulation and inhibition of DA neuronal impulse flow caused by DA agonists. BMY 14802-1 also increased tyrosine hydroxylase activity in vivo but did not directly affect tyrosine hydroxylase activity in vitro. In contrast to these findings, BMY 14802-1 did not cause catalepsy at any dose and reversed catalepsy produced by haloperidol. BMY 14802-1 did not block DA autoreceptors on either DA neuron soma/dendrites or on striatal nerve terminals, as assessed by inhibition of DA neuronal impulse flow by microiontophoresed DA and by inhibition of tyrosine hydroxylase activity by apomorphine, respectively. BMY 14802-1 had very low affinity for striatal D-2 receptors (IC50 greater than 10(-5) M) as determined by displacement of [3H]spiperone binding in vitro. Finally, BMY 14802-1 increased impulse flow of nigral DA neurons after pretreatment with haloperidol but had no effect on impulse flow when microiontophoresed directly onto DA neurons. It is concluded that BMY 14802-1 blocked DA-mediated effects in the mesostriatal and mesocortical/limbic systems through a non-DA receptor mechanism. BMY 14802-1 has potential as a neuroleptic with little indication of extrapyramidal motor effects.
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PMID:Effects of BMY 14802, a potential antipsychotic drug, on rat brain dopaminergic function. 287 91

The phosphodiesterase inhibitor and putative antidepressant rolipram (0.3-30 mg/kg i.p.) stimulated the accumulation of dopa following inhibition of the aromatic amino acid decarboxylase with 3-hydroxybenzylhydrazine HCl dose-dependently in all brain regions investigated, suggesting that both dopamine and noradrenaline synthesis was enhanced. The stimulatory effect of rolipram on dopa accumulation in dopamine rich regions persisted even after pretreatment with gamma-butyrolactone which by itself increased dopa accumulation three fold. Following inhibition of catecholamine synthesis with alpha-amethyl-p-tyrosine rolipram accelerated the disappearance of noradrenaline and slowed the disappearance of dopamine. At low doses rolipram tended to reduce the pargyline-induced accumulation of 3-methoxytyramine. Rolipram attenuated the accumulation of 5-hydroxytryptophan in the neocortex and the diencephalon of 3-hydroxybenzylhydrazine HCl pretreated rats. The data suggest that rolipram enhances noradrenergic transmission by direct stimulation of tyrosine hydroxylase and by an increase of neuronal activity. Despite a stimulatory effect on tyrosine hydroxylase rolipram does not appear to alter dopamine release and metabolism to a large extent. In view of the occurrence of head-twitches the rolipram-induced reduction of 5-hydroxytryptamine metabolism may be due to feedback inhibition.
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PMID:Effects of rolipram, a novel antidepressant, on monoamine metabolism in rat brain. 403 44


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