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

6-Hydroxydopamine is a neurotoxin that produces degeneration of the nigrostriatal dopaminergic pathway in rodents. Its toxicity is thought to involve the generation of superoxide anion secondary to its autoxidation. To examine the effects of the overexpression of Cu,Zn-superoxide dismutase activity on 6-hydroxydopamine-induced dopaminergic neuronal damage, we have measured the effects of 6-hydroxydopamine on striatal and nigral dopamine transporters and nigral tyrosine hydroxylase-immunoreactive neurons in Cu,Zn-superoxide dismutase transgenic mice. Intracerebroventricular injection of 6-hydroxydopamine (50 microg) in non-transgenic mice produced reductions in the size of striatal area and an enlargement of the cerebral ventricle on both sides of the brains of mice killed two weeks after the injection. In addition, 6-hydroxydopamine caused marked decreases in striatal and nigral [125I]RTI-121-labelled dopamine transporters not only on the injected side but also on the non-injected side of non-transgenic mice; this was associated with decreased cell number and size of tyrosine hydroxylase-immunoreactive dopamine neurons in the substantia nigra pars compacta on both sides in these mice. In contrast, superoxide dismutase transgenic mice were protected against these neurotoxic effects of 6-hydroxydopamine, with the homozygous transgenic mice showing almost complete protection. These results provide further support for a role of superoxide anion in the toxic effects of 6-hydroxydopamine. They also provide further evidence that reactive oxygen species may be the main determining factors in the neurodegenerative effects of catecholamines.
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PMID:Attenuation of 6-hydroxydopamine-induced dopaminergic nigrostriatal lesions in superoxide dismutase transgenic mice. 963 83

Glial cell-line-derived neurotrophic factor (GDNF) has been shown to enhance the survival of dopaminergic neurones both in vitro and in vivo, and to protect the rodent dopaminergic system from neurotoxic damage. However, most previous studies have only examined the short-term protective effects of GDNF. We have investigated the long-term effects of GDNF on a 6-hydroxydopamine (6-OHDA)-induced lesion of the rat medial forebrain bundle (MFB), which results in complete and irreversible destruction of the nigrostriatal pathway, and is a robust model of Parkinson's disease. GDNF was administered ipsilaterally above the substantia nigra and into the lateral ventricle immediately before a unilateral 6-OHDA injection into the MFB. The effects of GDNF were examined in vivo by behavioural testing and positron emission tomography (PET) at weekly intervals, for 12 weeks. GDNF prevented the development of amphetamine-induced rotations at all time-points. PET studies, using [11C]-RTI-121 as a tracer for the dopamine transporter, indicated that GDNF prevented 6-OHDA-induced reduction of dopamine reuptake sites in the ipsilateral striatum. Post-mortem neurochemical analysis at 13 weeks after surgery found that GDNF significantly inhibited 6-OHDA-induced loss of dopamine, 3,4-dihydroxyphenylacetic acid and homovanillic acid in the ipsilateral striatum. Immunocytochemistry showed that GDNF reduced 6-OHDA-induced loss of tyrosine hydroxylase-positive neurones in both the substantia nigra pars compacta and ventral tegmental area. We have shown that a single treatment with GDNF can confer long-term protective effects against a 6-OHDA lesion, which suggests that this factor may be useful for the treatment of Parkinson's disease.
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PMID:Long-term protection of the rat nigrostriatal dopaminergic system by glial cell line-derived neurotrophic factor against 6-hydroxydopamine in vivo. 975 13

The mesolimbic dopamine (DA) system preferentially innervates the D3 receptor, whereas the D2 receptor is, in addition, a target of the nigrostriatal DA system. In human brain D3 receptors and D3 mRNA-expressing neurons are largely segregated to brain regions that are the targets of the mesolimbic DA system and the efferents of the "limbic striatum." Thus, D3 receptors may regulate effects of DA on the "limbic" cortico-striatal-pallidal-thalamic-cortical loop. The nigrostriatal DA system is considerably more damaged in Parkinson's disease (PD) than the mesolimbic DA system. We report here, using radioligands selective for the D2 and D3 receptor, that these receptors are independently changed in PD. Tissue collected at autopsy from nine subjects with a diagnosis of PD and eight age-matched subjects with no evidence of a neurologic disorder was processed for [125I]epidepride binding to D2 receptors, [125I] trans-7-OH-PIPAT binding to D3 receptors, [125I]RTI-55 for the DA transporter (DAT), and immunoautoradiography for tyrosine hydroxylase (TH) using autoradiographic methods. Dopaminergic innervation to the caudal putamen was profoundly reduced and to a lesser extent in the rostral putamen in PD. DAT sites but not TH protein levels were reduced in the nucleus accumbens (NAS) in PD compared with age-matched control subjects. This is consistent with a loss of dopaminergic innervation from the mesolimbic DA system but elevation in TH production. D3 receptors were significantly reduced in PD by 40-45% particularly in the NAS and putamen. D2 receptors were elevated in PD in the dorsal putamen by 15%. The reduction in D3 receptor number was not observed in PD cases with a diagnosis of less than 10 years. The changes in DA D3 receptor number is interesting in light of the development of antiparkinsonian agents that are D3-preferring agonists.
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PMID:Dopamine D3 receptor is decreased and D2 receptor is elevated in the striatum of Parkinson's disease. 975 47

Cocaine is a highly addictive drug that binds to the dopamine transporter (DAT), inhibits the reuptake of dopamine, and initiates multiple actions within midbrain dopaminergic systems. Using the rhesus monkey, we have investigated the consequences of in utero cocaine exposure on the expression of DAT in the fetal brain. By using the selective DAT ligand [125I]RTI-121 and tyrosine hydroxylase (TH) immunocytochemistry, we found that DAT binding sites are highly developed by day 70 of gestation and show a distribution pattern similar to TH. The rank order of specific 3beta-(4-[125I]iodophenyl)tropane-2beta-carboxylic acid isopropyl ester ([125I]RTI-121) binding densities was substantia nigra-ventral tegmental area > putamen > caudate > lateral hypothalamus > accumbens > linear/interfascicular nuclei >/= globus pallidus > prefrontal cortex. Furthermore, we observed that DAT mRNA was differentially expressed within fetal midbrain dopamine neurons with the highest levels detected in the ventral tier of the substantia nigra pars compacta, and the lowest levels in the ventral tegmental area and the linear/interfascicular nuclei. In utero cocaine exposure between days 22 and 70 significantly increased DAT mRNA expression, and the density of [125I]RTI-121 binding sites within midbrain dopamine neurons in the 70-d-old fetus. This increased DAT expression is accompanied by other presynaptic and postsynaptic neuronal changes, which collectively suggest that midbrain dopamine neurons are hypoactive after prolonged cocaine exposure, a state that may be a contributing factor in the development of attention deficit disorders observed in subjects exposed prenatally to cocaine.
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PMID:Cocaine upregulates the dopamine transporter in fetal rhesus monkey brain. 1051 15

Methamphetamine neurotoxicity has been demonstrated in rodents and nonhuman primates. These neurotoxic effects may be associated with mechanisms involved in oxidative stress and the activation of immediate early genes (IEG). It is not clear, however, whether these IEG responses are involved in a methamphetamine-induced toxic cascade or in protective mechanisms against the deleterious effects of the drug. As a first step toward clarifying this issue further, the present study was thus undertaken to assess the toxic effects of methamphetamine in heterozygous and homozygous c-fos knock-out as well as wild-type mice. Administration of methamphetamine caused significant reduction in [(125)I]RTI-121-labeled dopamine uptake sites, dopamine transporter protein, and tyrosine hydroxylase-like immunohistochemistry in the striata of wild-type mice. These decreases were significantly exacerbated in heterozygous and homozygous c-fos knock-out mice, with the homozygous showing greater loss of striatal dopaminergic markers. Moreover, in comparison with wild-type animals, both genotypes of c-fos knock-out mice showed more DNA fragmentation, measured by the number of terminal deoxynucleotidyl transferase-mediated dUTP nick-end-labeled nondopaminergic cells in their cortices and striata. In contrast, wild-type mice treated with methamphetamine demonstrated a greater number of glial fibrillary acidic protein-positive cells than did c-fos knock-out mice. These data suggest that c-fos induction in response to toxic doses of methamphetamine might be involved in protective mechanisms against this drug-induced neurotoxicity.
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PMID:Null mutation of c-fos causes exacerbation of methamphetamine-induced neurotoxicity. 1055 18

Continuous infusion of cocaine or the selective dopamine uptake inhibitors GBR 12909 or RTI-117 increases locomotor stimulation, to which partial tolerance occurs. In addition, all three drugs produce significant decreases in tyrosine hydroxylase immunoreactivity in caudate putamen and nucleus accumbens core, suggesting a decreased dopaminergic tone. An interaction between cocaine and opioids has long been documented. Chronic cocaine significantly increases mu and kappa-opioid receptors and treatment with a kappa-opioid agonist markedly reduces the behavioral effects of cocaine. In addition, chronic cocaine, but not GBR 12909, increases prodynorphin gene expression in caudate putamen. To further understand the interaction between cocaine and the kappa-opioid system, the effects of a chronic continuous infusion for 14 days of cocaine or one of the selective dopamine uptake inhibitors GBR 12909 or RTI-117 via osmotic minipump were examined on kappa-opioid receptors using the selective kappa-opioid ligand [3H] U-69593. [3H] U-69593 binding density was significantly increased in caudate putamen, nucleus accumbens shell, claustrum, and endopiriform nucleus after cocaine, while neither GBR 12909 nor RTI-117 had any effect. The increased kappa-opioid receptor densities observed following cocaine are likely not related to dopamine uptake inhibition, since they were not produced by selective dopamine uptake inhibitors. These findings suggest that regulation of kappa-opioid receptors by cocaine may be via inhibition of serotonin or norepinephrine uptake, by a combination of effects on two or three monoamine transporters, or by a mechanism unrelated to transporter inhibition.
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PMID:Chronic cocaine increases kappa-opioid receptor density: lack of effect by selective dopamine uptake inhibitors. 1211 94

Methamphetamine (METH) is a highly addictive compound that induces toxicity of the dopamine (DA) terminals of the neostriatum. Exposure to METH induces long-term deficits in dopamine transporter (DAT) and tyrosine hydroxylase (TH) levels as well as induction of glial fibrillary acidic protein (GFAP) in the caudate putamen (CPu) and the nucleus accumbens (NAc). The primary effect of exposure to METH is elevation of the level of extracellular DA; therefore, we assessed the role of the DA D1 receptor (D1R) and neurokinin-1 receptor (NK-1R) on the expression of toxicity. METH was injected intraperitoneally (10 mg/kg) four times at 2-h intervals (an acute toxic dose), and the mice were sacrificed three days after the treatment. Exposure to METH resulted in marked reduction of DAT sites (reduced to 30 and 21% relative to control in medial and lateral aspects of the CPu) assessed by binding of [125I]RTI-121 by autoradiography or Western blot analysis. Pretreatment with the nonpeptide NK-1R antagonist WIN-51,708 (10 mg/kg) 30 min prior to the first and fourth injections of METH prevented the loss of DAT sites of the CPu. Moreover, pretreatment with WIN-51,708 also prevented the reduction of TH levels induced by METH as well as the induction of GFAP in astrocytes. Pretreatment with the D1R antagonist SCH-23390 (0.25 mg/kg) 30 min before the first and fourth injections of METH conferred partial protection on DAT sites of the CPu. These results demonstrate that receptors postsynaptic to the DA terminals of the CPu are needed in order to express the neurotoxic effects of METH on integral components of the DA terminals of the nigrostriatal projection.
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PMID:Antagonists of the neurokinin-1 or dopamine D1 receptors confer protection from methamphetamine on dopamine terminals of the mouse striatum. 1554 15

Forced use of the forelimb contralateral to a unilateral injection of the dopaminergic neurotoxin 6-hydroxydopamine can promote recovery of motor function in that limb and can significantly decrease damage to dopamine terminals. The present study was conducted to determine (1) whether a form of voluntary exercise, wheel running, would improve motor performance in rats with such lesions, and (2) whether any beneficial effects of wheel running are attributable to ameliorating the dopaminergic damage. In experiment 1, rats were allowed to run in exercise wheels or kept in home cages for 2 1/2 weeks, then given stereotaxic infusions of 6-hydroxydopamine into the left striatum. The rats were replaced into their original environments (wheels or home cages) for four additional weeks, and asymmetries in forelimb use were quantified at 3, 10, 17, and 24 days postoperatively. After killing, dopaminergic damage was assessed by both quantifying 3 beta-(4-iodophenyl)tropan-2 beta-carboxylic acid methyl ester ([(125)I]RTI-55) binding to striatal dopamine transporters and counting tyrosine hydroxylase-positive cells in the substantia nigra. Exercised 6-hydroxydopamine-infused rats showed improved motor outcomes relative to sedentary lesioned controls, effects that were most apparent at postoperative days 17 and 24. Despite this behavioral improvement, 6-hydroxydopamine-induced loss of striatal dopamine transporters and tyrosine hydroxylase-positive nigral cells in exercised and sedentary groups did not differ. Since prior studies suggested that forced limb use improves motor performance by sparing nigrostriatal dopaminergic neurons from 6-hydroxydopamine damage, experiment 2 used a combined regimen of forced plus voluntary wheel running. Again, we found that the motor performance of exercised rats improved more rapidly than that of sedentary controls, but that there were no differences between these groups in the damage produced by 6-hydroxydopamine. It appears that voluntary exercise can facilitate recovery from partial nigrostriatal injury, but it does so without evident sparing of dopamine nerve terminals.
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PMID:Running wheel exercise enhances recovery from nigrostriatal dopamine injury without inducing neuroprotection. 1715 92

Repeated administration of methamphetamine (mAMPH) to rodents in a single-day "binge" produces long-lasting damage to dopaminergic and serotonergic terminals. Because previous research has demonstrated that physical activity can ameliorate nigrostriatal injury, this study investigated whether voluntary exercise in rats can alter the monoaminergic damage resulting from a neurotoxic mAMPH binge. Adult male rats were allowed constant access to running wheels or kept in nonwheel cages for three weeks, then given a binge dosing regimen of mAMPH or saline. The rats were returned to their original environments for three additional weeks post-mAMPH. [(125) I]RTI-55 binding and autoradiography was used to quantify dopamine transporters (DAT), and radioimmunocytochemistry was used to quantify striatal tyrosine hydroxylase (TH). Binge mAMPH treatment significantly reduced striatal DAT and TH in a regionally specific pattern; with greatest effects in ventral caudate-putamen (CP) and relative sparing of the nucleus accumbens septi (NAc). The effects of mAMPH on striatal DAT and TH were ameliorated in the running, compared to the sedentary, animals. Also, mAMPH was found to reduce [(125) I]RTI-55 binding to serotonin transporters (SERT) in frontoparietal cortex, and this too was significantly attenuated by exercise. Additional correlational analyses showed that the post-mAMPH running of individual animals predicted the amelioration of striatal DAT and TH as well as frontoparietal SERT. Overall, voluntary exercise significantly diminished mAMPH-induced forebrain monoaminergic damage. The significant correlations between post-mAMPH exercise and markers of monoaminergic terminal integrity provide novel evidence that voluntary exercise may exert beneficial effects on behavior in recovering mAMPH addicts.
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PMID:Running wheel exercise ameliorates methamphetamine-induced damage to dopamine and serotonin terminals. 2195 18