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)

This study provides in vitro evidence that rats pretreated with fluphenazine for 10 days, but not acutely, developed moderate but significant striatal autoreceptor supersensitivity as measured by the ability of S(+)-NPA, a selective DA autoreceptor agonist and very weak postsynaptic agonist, to inhibit tyrosine hydroxylase activity. In contrast, autoreceptor supersensitivity was not found with the nonselective auto- and postsynaptic receptor agonist R(-)-NPA. Presumably, this effect represents some modification of a presynaptic regulatory mechanism controlling DA synthesis which can occur despite a reportedly high striatal DA autoreceptor reserve in rat striatum [2, 7]. Such a mechanism, by tending to reduce synaptic availability of DA, may contribute to tolerance to the transient, early DA-synthesis stimulating actions of acutely administered neuroleptics [4], and help to counterbalance increases in postsynaptic DA receptor abundance and sensitivity associated with long-term neuroleptic treatment.
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PMID:Inhibition of dopamine synthesis in rat striatal minces: evidence of dopamine autoreceptor supersensitivity to S(+)- but not R(-)-N-n-propylnorapomorphine after pretreatment with fluphenazine. 167 73

In order to investigate neurotensin-dopamine receptor interactions in vivo, the effects of intraventricular injection of neurotensin were analyzed on S(-)[N-propyl-3H(N)]propylnorapomorphine [( 3H]NPA) binding in cryostat sections of the forebrain, hypothalamus and pituitary gland, and on serum levels of prolactin, luteinizing hormone and corticosterone in the male rat. The relationship of modulation of [3H]NPA binding with neurotensin-dopamine coexistence in nerve terminals was analyzed by investigating coexistence of neurotensin and tyrosine hydroxylase (TH) immunoreactive nerve terminals in various brain areas, using a double immunohistofluorescence procedure. Intraventricular injections of neurotensin (0.03-3 nmol, 30 min) reduced dose-dependently specific [3H]NPA binding (0.25 nM) in the caudate-putamen (-38 +/- 4%), nucleus accumbens (-42 +/- 5%), tuberculum olfactorium (-52 +/- 7%) and in the intermediate lobe of the pituitary gland (-17 +/- 2%). Coexistence of neurotensin and TH was demonstrated in nerve terminals in the prefrontal, cingulate, piriform and entorhinal cortex and in the cortical and deep nuclei of the amygdaloid cortex. It was not possible to demonstrate coexistence in the caudate-putamen, nucleus accumbens, tuberculum olfactorium and median eminence, in view of the high density of dopamine nerve terminals present in relation to the few visualized neurotensin terminals. Nor could coexistence be demonstrated in the few remaining TH-positive nerve terminals following unilateral 6-hydroxydopamine lesions (8 micrograms per 4 microliters; one week) in spite of increased numbers of neurotensin-containing cell bodies and terminals in the ipsilateral dorsomedial caudate. Neurotensin injection markedly decreased serum prolactin levels and increased serum corticosterone levels by about 60%, whereas serum levels of luteinizing hormone were unaffected. The present study indicates that central dopamine D2 receptors may be regulated by neurotensin in vivo and that the neurotensin involved most likely is released from nerve terminals not containing dopamine, since fibers showing coexistence were only found in prefrontal and limbic cortical areas.
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PMID:Intraventricular injection of neurotensin reduces dopamine D2 agonist binding in rat forebrain and intermediate lobe of the pituitary gland. Relationship to serum hormone levels and nerve terminal coexistence. 198 Nov 63

The in vitro and in vivo effects of (-)-nicotine on dopamine D2 receptors in the rat neostriatum have been studied using biochemical binding, in situ hybridization and immunocytochemistry. A single i.p. injection (1 mg/kg) of (-)-nicotine resulted in a reduction of the KD value of the D2 antagonist [3H]raclopride binding sites in rat neostriatal membrane preparations at 12 h without any significant change in the Bmax value. This action of (-)-nicotine was counteracted by pretreatment 15 min earlier with the nicotine antagonist mecamylamine (1 mg/kg, i.p.). However, the KD and the Bmax values of the D2 agonist [3H]NPA binding sites in the rat neostriatal membrane preparations were not significantly affected 0.5-48 h after a single i.p. injection with 1 mg/kg of (-)-nicotine. No significant change in neostriatal D2 receptor mRNA levels was observed at any time interval after the (-)-nicotine injection. No significant change was observed in tyrosine hydroxylase (TH) immunoreactivity in either the substantia nigra or the neostriatum, nor in nigral TH mRNA levels during the time interval studied (4-24 h posttreatment). Furthermore, addition of low (10 nM) or high (1 microM) concentrations of (-)-nicotine in vitro to rat neostriatal membranes did not alter the characteristics of [3H]raclopride or [3H]NPA binding. These results indicate that a single (-)-nicotine injection can produce a selective and delayed increase in the affinity of D2 receptors for the antagonist, but not for the agonist without modifying the levels of D2 receptor mRNA, probably via the activation of central nicotinic receptors.
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PMID:A single (-)-nicotine injection causes change with a time delay in the affinity of striatal D2 receptors for antagonist, but not for agonist, nor in the D2 receptor mRNA levels in the rat substantia nigra. 764 59

The irreversible mitochondrial toxin 3-nitropropionic acid (3-NPA) is a specific inhibitor of succinate dehydrogenase. We performed stereotaxic unilateral injections of 3-NPA into the nigrostriatal dopaminergic pathway in rats in order to examine its specific effects on the dopamine system. The 3-NPA-treated rats displayed unidirectional apomorphineinduced rotations, suggesting that 3-NPA selectively damages dopaminergic neurons when injected into the nigrostriatal pathway. In situ hybridization 7 weeks postinjection indicated a decrease in tyrosine hydroxylase (TH) mRNA to 30% of the noninjected side in the substantia nigra pars compacta (P < 0.05) and decreased to 62% of the noninjected side in the ventral tegmental area (VTA) (nonsignificant) of 3-NPA-lesioned rats. The number of TH mRNA positive cells showed statistically significant decreases in substantia nigra and VTA (P < 0.001) within the lesioned side. In contrast, expression of mRNAs encoding choline acetyltransferase, p75 low-affinity NGF receptor, neurotrophin tyrosine kinase receptors Trk and TrkB, and brain-derived neurotrophic factor showed neuronal sparing in several other regions of the brain. The results suggest that the nigrostriatal dopaminergic system might be selectively vulnerable to 3-NPA and demonstrate that it is possible to employ 3-NPA in a model of partial lesion of the nigrostriatal dopaminergic system resembling early stages of Parkinson's disease.
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PMID:Specific lesions in the extrapyramidal system of the rat brain induced by 3-nitropropionic acid (3-NPA). 772 Aug 19

The combined effects of amphetamine (AMPH) and 3-nitropropionic acid (3-NPA) were investigated to determine how the energy depletion proposed to be produced by AMPH interacts with an inhibitor of mitochondrial respiration to produce striatal neurotoxicity. Neither two doses (2 h apart) of 3.75 mg/kg AMPH alone nor a single dose of 30 mg/kg 3-NPA i.p. produced neurotoxicity in the striatum or lowered striatal dopamine content in rat. Administration of 40 mg/kg of 3-NPA alone almost invariably produced either lethality or did not produce neurotoxicity in the striatum of surviving animals. However, 30 mg/kg of 3-NPA administered along with 2 doses of 3.75 mg/kg AMPH to 47 animals produced striatal damage in the 31 survivors with 15 of the surviving rats showing muscle rigidity/catatonia for several days after dosing, along with decreased food consumption. Thirteen of these 15 rats showed degeneration of axons and cell bodies in the medial caudate-putamen with minimal damage to the globus pallidus. However, two rats exhibited hindlimb paralysis and signs of axonal and neuronal soma degeneration in the thalamus and cerebellar nuclei as well as striatum. Sixteen of the rats given both AMPH and 3-NPA exhibited only torpidity and loss of muscle tone 1-3 h after dosing. Such rats showed no signs of neuronal cell degeneration in the striatum, but did show significant dopamine depletions (60% of control) and reductions in tyrosine hydroxylase immunoreactivity at 14 days postexposure. The mitochondrial dysfunction produced by 3-NPA combined with activation of neuronal pathways by AMPH may have predisposed terminals, axons and cell bodies in striatum to degeneration.
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PMID:Parenterally administered 3-nitropropionic acid and amphetamine can combine to produce damage to terminals and cell bodies in the striatum. 881 96

Activation of striatal dopamine (DA) neurons by neuroleptic treatment or by electrical stimulation of the nigrostriatal pathway increases the activity of tyrosine hydroxylase (TH). The increase is mediated by phosphorylation of the enzyme. However, abolition of DA neuronal activity [by gamma-butyrolactone (GBL) treatment or transection of the nigrostriatal pathway] also increases TH activity. Quantitative blot immunolabeling experiments using site- and phosphorylation state-specific antibodies to TH demonstrated that GBL treatment (750 mg/kg, 35 min) significantly increased phosphorylation at Ser19 (+40%) and Ser40 (+217%) without altering Ser31 phosphorylation. Concomitantly, GBL treatment [along with the 3,4-dihydroxyphenylalanine (dopa) decarboxylase inhibitor NSD-1015, 100 mg/kg, 30 min] increased in vivo striatal dopa accumulation and in vitro TH activity 3-fold. Likewise, cerebral hemitransection of the nigrostriatal pathway significantly increased phosphorylation of TH at Ser19 (+89%) and Ser40 (+158%) but not at Ser31; dopa levels were increased accordingly (+191%). Kinetic analysis of TH activity established that GBL treatment and hemitransection primarily decreased the Km for the cofactor tetrahydrobiopterin (3-fold). The effects of GBL and hemitransection were abolished or attenuated by pretreatment with the DA agonist R-(-)-N-n-propylnorapomorphine (NPA; 30 microgram/kg, 40 min), presumably via stimulation of inhibitory presynaptic DA autoreceptors. NPA dose-response curves for reversal of GBL-induced dopa accumulation and Ser40 phosphorylation were identical; however, only the highest dose of NPA reversed the small and variable increase in Ser19 phosphorylation. Thus, TH activity seems to be regulated by phosphorylation in both hyper- and hypoactive striatal DA neurons; in the latter case, activation seems to be caused by selective phosphorylation of Ser40.
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PMID:Increased site-specific phosphorylation of tyrosine hydroxylase accompanies stimulation of enzymatic activity induced by cessation of dopamine neuronal activity. 992 9

1-Methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) is a dopaminergic neurotoxin which inhibits mitochondrial complex I. 3-Nitropropionic acid (3-NPA) inhibits mitochondrial complex II and produces specific striatal lesions. In order to produce a combined striatal neuronal and dopaminergic afferent lesion, we administered both toxins simultaneously to the mouse. The combination brought about a lesion in the striatum that was not simply additive of the two combined toxins. Intriguingly, a group of striatal neurons became immunoreactive to tyrosine hydroxylase after day 1. Some of them were clearly visible up to the dendritic details. Immuno-electron microscopy indicated that the tyrosine hydroxylase-positive striatal neurons contained densely immunoreactive polyribosomes. Reverse transcriptase-polymerase chain reaction analysis indicated the up-regulation of tyrosine hydroxylase mRNA in the treated striatum. These neurons were also immunoreactive to aromatic L-amino acid decarboxylase.We conclude that the combined administration of MPTP and 3-NPA caused a more profound damage to the nigro-striatal dopaminergic system, and thus some striatal neurons capable of up-regulating tyrosine hydroxylase were induced to produce dopamine, probably to compensate for the dopamine depletion.
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PMID:Neuronal ectopic expression of tyrosine hydroxylase in the mouse striatum by combined administration of 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine and 3-nitropropionic acid. 1173 97

This study tested the hypothesis that the expression of uncoupling proteins (UCPs) and dopamine (DA) system genes is responsive to 3-nitropropionic acid (3-NPA) neurotoxic effects and to the neuroprotective effects of the mitochondrial enhancer, L-carnitine (LC), in the rat striatum. Inactivation of mitochondrial succinate dehydrogenase (SDH) by 3-NPA results in hypoxic brain damage. Hypoxic conditions induce uncoupling protein-2 (UCP-2). An increase in UCP-2 expression may lead to a decrease in production of reactive oxygen species (ROS) associated with energy depletion. However, this adaptive response can also lead to a reduction of ATP that may further contribute to energy deficit and mitochondrial dysfunction. Here, male adult Sprague-Dawley rats (n=5/group) were injected either with saline or 3-NPA at 30 mg/kg, s.c. alone or 30 min after pre-treatment with LC (100mg/kg, i.p.). Rectal temperature was monitored before treatment and 4h following 3-NPA administration. Animals were sacrificed 4h post-treatment. Total RNA was isolated from the striatum and transcripts of UCP-2, UCP-4 and UCP-5 genes, as well as genes related to dopamine metabolism, such as DA D(1) and D(2) receptors, tyrosine hydroxylase (TH), monoamine oxidase-B (MAO-B), and vesicular monoamine transporter-2 (VMAT-2), were measured using real-time reverse transcription polymerase chain reaction (RT-PCR). While core temperature decreased significantly in 3-NPA-treated rats, LC significantly inhibited the hypothermic effect of 3-NPA (p<0.05). 3-NPA caused a significant increase in UCP-2 and DA D(1) receptor gene expression in the striatum and both effects were attenuated by pre-treatment with LC. Since LC maintains the ATP/ADP ratio and was previously shown to be neuroprotective against 3-NPA toxicity, the modulation of UCP-2 expression by LC suggests that LC counteracts energy dissipation and thus prevents the negative effects of ATP decline on DA neurotransmission.
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PMID:Co-regulation of dopamine D1 receptor and uncoupling protein-2 expression in 3-nitropropionic acid-induced neurotoxicity: neuroprotective role of L-carnitine. 1705 44

3-nitropropionic acid (3-NPA) is a naturally occurring neurotoxin produced by legumes of the genus Astragalus and Arthrium fungi. Acute exposure to 3-NPA results in striatal astrocytic death and variety of behavior dysfunction in rats. Oxidative stress has been reported to play an important role in 3-NPA-induced neurotoxicity. Trolox is a potent free radical chain breaking antioxidant which has been shown to restore structure and function of the nervous system following oxidative stress. This rapid and efficient antioxidant property of trolox was attributed to its enhanced water solubility as compared with alpha-tocopherol. This investigation was aimed to study the effect of trolox against 3-NPA-induced neurotoxicity in female Wistar rats. The animals received trolox (0, 40 mg, 80 mg and 160 mg/kg, orally) daily for 7 days. 3-NPA (25mg/kg, i.p.) was administered daily 30 min after trolox for the same duration. One additional group of rats served as control (vehicle only). On day 8, the animals were observed for neurobehavioral performance. Immediately after behavioral studies, the animal's brains were dissected out for histological studies. Lesions in the striatal dopaminergic neurons were assessed by immunohistochemical method using tyrosine hydroxylase immunostaining. Administration of 3-NPA alone caused significant depletion of striatal dopamine and glutathione, whereas, the levels of thiobarbituric acid reactive substance (TBARS) and nitric oxide (NO) were significantly increased suggesting an elevated level of oxidative stress. Trolox significantly and dose-dependently protected animals against 3-NPA-induced neurobehavioral, neurochemical and structural abnormalities. These results clearly suggest that protective effect of trolox against 3-NPA-induced neurotoxicity is mediated through its free radical scavenging activity.
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PMID:Trolox ameliorates 3-nitropropionic acid-induced neurotoxicity in rats. 1975 48