EC:1.14.16.2 - FACTA Search

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 neurotrophins brain-derived neurotrophic factor (BDNF), neurotrophin-3 (NT-3), and neurotrophin-4/5 (NT-4/5) were compared for their effects in promoting the survival and/or regulation of expression of phenotypic markers of dopaminergic and GABAergic neurons in cultures derived from embryonic rat ventral mesencephalon. Dopaminergic neuron number and phenotypic expression were monitored by tyrosine hydroxylase (TH) immunocytochemistry, and measurement of high-affinity dopamine uptake activity and dopamine content, respectively. High-affinity GABA uptake, glutamic acid decarboxylase (GAD) activity, and endogenous GABA content were used to detect GABAergic neurons. Seven days of treatment with either BDNF or NT-3 resulted in dose-dependent increases in the number of TH-positive neurons, with maximal responses of 3-fold and 2.3-fold, respectively. Dopamine uptake activity and dopamine content were similarly increased. The effects of BDNF and NT-3 on dopamine uptake activity showed no additivity. NT-4/5 treatment elicited the greatest increase (7-fold) in the number of TH-positive neurons, as well as a 2.6-fold increase in dopamine content. In marked contrast to BDNF or NT-3, NT-4/5 had no effect on dopamine uptake capacity. BDNF, NT-3, or NT-4/5 also produced dose-dependent elevations of 2-3-fold in GABA uptake activity. These effects were not additive. GAD activity was increased by BDNF (1.8-fold) and NT-3 (threefold) treatment, but not by NT-4/5, whereas GABA content was increased to a similar extent by all three neurotrophins. NGF had no effect on any of the parameters measured in this study. Northern analyses indicated that the mRNAs encoding TrkB and TrkC, the functional high-affinity receptors for BDNF and NT-4/5, and NT-3, respectively, are expressed in the substantia nigra of adult rat brain, as well as in cultures of developing ventral mesencephalon. Taken together, our results indicate that BDNF and NT-3 have broadly similar effects in promoting the survival and differentiated phenotype of both dopaminergic and GABAergic neurons of the developing substantia nigra. Although BDNF and NT-4/5 are thought to act through the same high-affinity receptor, TrkB, it is evident that these two neurotrophins have distinct as well as overlapping actions toward mesencephalic dopaminergic or GABAergic neurons.
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PMID:Overlapping and distinct actions of the neurotrophins BDNF, NT-3, and NT-4/5 on cultured dopaminergic and GABAergic neurons of the ventral mesencephalon. 828 41

Previous research has shown an increase in tyrosine hydroxylase in the ventral tegmental area following chronic morphine and chronic cocaine treatments. Chronic morphine treatment also increases levels of glial fibrillary acidic protein in this brain region. In the present study, we investigated the effects of infusing neurotropic factors (nerve growth factor, brain-derived neurotrophic factor, neurotrophin-3, neurotrophin-4 or ciliary neurotrophic factor) via midline intra-ventral tegmental area cannulae on these biochemical changes. Our studies examined the effects of neurotrophic factor infusion alone, neurotrophic factor infusion followed by morphine treatment, morphine treatment followed by neurotrophic factor infusion, and concurrent neurotrophic factor infusion and cocaine treatment. Brain-derived neurotrophic factor, which by itself tended to decrease tyrosine hydroxylase levels in the ventral tegmental area, prevented the characteristic increase in tyrosine hydroxylase following morphine and cocaine exposure and reversed the increase in rats pretreated with morphine. Neurotrophin-4 and neurotrophin-3 exerted similar effects. In addition, neurotrophin-4 prevented the morphine-induced increase in glial fibrillary acidic protein. In contrast, ciliary neurotrophic factor infusions alone resulted in an increase in tyrosine hydroxylase levels, with no additional increase induced by morphine or cocaine coadministration. Nerve growth factor alone had no effect on tyrosine hydroxylase or glial fibrillary acidic protein levels and did not affect morphine's ability to induce these proteins. We also looked at the effects of intra-ventral tegmental area infusion of neurotrophic factor on cAMP-dependent protein kinase and adenylyl cyclase activity in the nucleus accumbens, both of which are increased by chronic morphine or cocaine exposure. In general, regulation of cAMP-dependent protein kinase and adenylyl cyclase morphine by neurotrophic factors paralleled effects seen in the ventral tegmental area. Intra-ventral tegmental area infusion of brain-derived neurotrophic factor (or neurotrophin-4) alone tended to decrease cAMP-dependent protein kinase and adenylyl cyclase activity in the nucleus accumbens and prevented the morphine-induced increases in these enzymes. These effects were not seen with ciliary neurotrophic factor or nerve growth factor. These studies demonstrate novel interactions within the ventral tegmental area, and its target the nucleus accumbens, between neurotrophic factors and drugs of abuse, which have potentially important implications for the pathophysiology and treatment of drug addiction.
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PMID:Influence of neurotrophic factors on morphine- and cocaine-induced biochemical changes in the mesolimbic dopamine system. 854 3

Three neurotrophic factors associated with the nigrostriatal dopaminergic system were tested for their trophic potential to rescue degenerating substantia nigra dopaminergic neurons in adult rats with transections of the medial forebrain bundle. Axotomy of nigral dopaminergic neurons results in a retrograde degeneration of their cell bodies. Unilateral transections resulted in a partial reduction of the number of dopaminergic neurons as identified by immunocytochemistry for tyrosine hydroxylase to approximately half of the number of neurons present on the intact contralateral substantia nigra. A similar percentage loss was found for the subpopulation of nigral neurons which contain the calcium binding protein calretinin. In contrast, the small subpopulation of neurons which contain calbindin was less sensitive to the lesion and showed only mild loss in the number of cells, which was reduced to 87% of control. Neurotrophin-4/5, transforming growth factor alpha or basic fibroblast growth factor were infused supranigrally for two weeks after transection. None of the trophic factors tested reversed the loss of tyrosine hydroxylase-positive or calretinin-positive cells. In contrast, neurotrophin-4/5, but not transforming growth factor alpha or basic fibroblast growth factor, was found to reverse the axotomy-induced loss of calbindin-positive neurons and indeed increased the number of cells to 45% above control levels. In addition, neurotrophin-4/5 elevated the number of calbindin-containing neurons in intact unlesioned animals to 15% above control. These findings suggest that neurotrophin-4/5 selectively acts on nigral calbindin neurons following medial forebrain bundle transection and prevents these cells from degenerating.
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PMID:Neurotrophin-4/5 selectively protects nigral calbindin-containing neurons in rats with medial forebrain bundle transections. 873 19

The neurotrophins, brain-derived neurotrophic factor (BDNF) and neurotrophin-4 (NT-4), are established survival promoting molecules for dopaminergic (DAergic) neurons cultured from the fetal rat midbrain floor. We have cultured and compared the survival of embryonic day (E) 14 mesencephalic cells in fully defined, serum-free medium, with serum-primed cultures (one hour during dissociation). Cultures were characterized using antibodies against neuron-specific enolase (NSE), tyrosine hydroxylase (TH), vimentin, glial fibrillary acidic protein (GFAP), and the antigen A2B5. The absolute absence of serum did not reduce the survival of TH-positive DAergic neurons nor alter the percentages of cells staining for the above markers. Transforming growth factor-beta 3 (TGF-beta 3) and glial cell line-derived neurotrophic factor (GDNF), two members of the TGF-beta superfamily, both promoted the survival of TH-positive cells (TGF-beta 3: 2-fold; GDNF: 1.6-fold) over the 8-day culture period. Survival mediated by TGF-beta 3 and GDNF was independent of whether or not the cells had been initially exposed to serum. In contrast, the survival promoting effects of BDNF and NT-4 were crucially dependent on serum priming. RT-PCR for the full-length trkB high affinity neurotrophin receptor revealed its presence in both culture systems. We conclude that priming with serum is important to make DAergic neurons fully responsive to BDNF and NT-4. Underlying mechanisms might be sought at the level or distal of trkB receptor expression, without excluding the possiblity that serum elicits production of growth factors that synergistically act with neurotrophins in these cultures.
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PMID:The survival response of mesencephalic dopaminergic neurons to the neurotrophins BDNF and NT-4 requires priming with serum: comparison with members of the TGF-beta superfamily and characterization of the serum-free culture system. 884 70

Neurotrophins, including nerve growth factor, brain-derived neurotrophic factor (BDNF), neurotrophin-3 (NT-3) and neurotrophin-4/5 (NT-4/5), have been shown to enhance survival and differentiation of a variety of central neuronal populations, such as those with the dopaminergic, cholinergic, GABAergic phenotype during development. In this paper we present evidence that BDNF, NT-3 and NT-4/5 acting synergistically with dopamine (DA) can artificially induce the full dopaminergic phenotype in rat fetal cerebral cortex which normally has very few dopaminergic neurons in adulthood. Thus, BDNF/DA, NT-3/DA, NT-4/DA elicited a great increase in the number of tyrosine hydroxylase (TH)-immunoreactive cells, which was up to 5-7% of total neuronal population in cultures of fetal rat cortical cells. This stimulatory effect was not dependent on glial proliferation, or on addition of serum to the culture. Pharmacological studies showed that dopamine receptors D1 and D2 were involved in this effect. The TH+ cortical cells possessed other biochemical phenotypic features of dopaminergic neurons. Thus, high-affinity DA uptake was elevated in cortical cultures treated with neurotrophin/DA. Also DA and 3,4-dihydroxyphenlacetic acid production was detected (5.42 +/- 1.24 and 13.72 +/- 2.84 pmol/dish respectively, zero in controls). This show the presence of functionally active TH, aromatic acid decarboxylase and monoamine oxidase. Neurotrophins/DA had no effect on noradrenergic phenotype expression by cortical fetal cells. Taken together, these results support the long-standing view that development of the central nervous system is determined not only by intrinsic genetic programmes, but also involves environmental influences such as the action of growth factors and extracellular neurotransmitter. In this case we report the effect of specific DA phenotype-inducing agents.
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PMID:Induction of dopaminergic neurotransmitter phenotype in rat embryonic cerebrocortex by the synergistic action of neurotrophins and dopamine. 895 97

The tyrosine kinase TrkB is a receptor for the neurotrophic factors brain-derived neurotrophic factor (BDNF) and neurotrophin-4 (NT-4). Retinal ganglion cells are responsive to BDNF, and TrkB has been localized in ganglion cells as well as in a subpopulation of amacrine cells in the retina of the chicken and the rat. In the present paper, we analyzed the distribution of TrkB immunoreactivity in the retina of marmoset monkeys, ferrets, rabbits, rats, mice, chickens, pigeons, barn owls, Pseudemys turtles, Xenopus frogs, goldfishes, and carps. TrkB antibodies gave a positive reaction in all of these vertebrates. TrkB immunoreactivity was detected in the majority of retinal ganglion cells. Some amacrine cells also contained TrkB immunoreactivity; they were located mainly at the vitreal border of the inner nuclear layer, and their relative abundance varied in the different species. Until now, no information has been available concerning the neurochemical identity of the amacrine neurons containing TrkB. In some species (marmoset monkeys, rats, pigeons), we observed that the morphology and location of TrkB-immunoreactive amacrine cells was reminiscent of that of the well-described dopaminergic cells. To determine whether dopaminergic amacrine cells contained TrkB immunoreactivity, we therefore performed double-labelling immunohistochemistry by using tyrosine hydroxylase (TH) antibodies in combination with TrkB antibodies in marmoset monkeys, rats, pigeons, Pseudemys turtles, and goldfishes. The most novel finding of the present paper is that, in all of these species, the majority of dopaminergic neurons were found to contain TrkB immunoreactivity. Dopaminergic neurons, on the other hand, represented only a fraction of the TrkB+ amacrine cells. Our data suggest that BDNF and/or NT-4 might modulate expression of TH in the retina and may therefore influence the retinal dopaminergic system. Whatever the action of TrkB ligands on the retinal dopaminergic system, it was conserved during vertebrate evolution.
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PMID:Brain-derived neurotrophic factor/neurotrophin-4 receptor TrkB is localized on ganglion cells and dopaminergic amacrine cells in the vertebrate retina. 930 31

Glial cell line-derived neurotrophic factor (GDNF) promotes survival of mesencephalic dopaminergic neurons in vitro and when injected locally into the brains of lesioned adult animals. Here, we show that GDNF (3 micrograms per day and higher) can promote the survival of all (retrogradely labeled) axotomized nigrostriatal dopaminergic neurons of adult rats when continuously infused for 2 weeks close to the substantia nigra, compared to only approximately 30% survival with control infusions. Based on our previous observations, GDNF was as potent as ciliary neurotrophic factor and neurotrophin-4 and approximately five to ten times more potent than brain-derived neurotrophic factor and was most effective in promoting survival. GDNF prevented neuronal death induced by 6-hydroxydopamine to a lesser extent than after axotomy. GDNF treatments begun 1 week after axotomy could maintain those neurons that had not yet died. When a 2 week GDNF treatment was interrupted, most of the GDNF-rescued neurons died over the following 2 weeks. This suggests that longer trophic factor treatments or nigrostriatal connections are needed to achieve permanent survival. Measurements of tyrosine hydroxylase (TH) immunoreactivity of the rescued neuronal cell bodies suggest that GDNF cannot prevent the lesion-induced loss of this rate-limiting enzyme for dopamine synthesis. In fact, GDNF induced a decrease in TH in normal animals, suggesting an active down-regulation of TH synthesis. Levels of TH immunoreactivity were recovered between 7 and 14 days after withdrawal of a 2 week GDNF infusion, in the neurons that survived axotomy. These results may have implications for developing new treatment strategies for Parkinson's disease.
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PMID:Glial cell line-derived neurotrophic factor prevents death, but not reductions in tyrosine hydroxylase, of injured nigrostriatal neurons in adult rats. 936 55

Brain-derived neurotrophic factor (BDNF), neurotrophin-3 (NT-3), and neurotrophin-4 (NT-4) promote survival of mesencephalic dopaminergic neurons in vitro and affect normal and damaged ones in vivo. Here, these neurotrophins had markedly different potencies to prevent the death of axotomized nigrostriatal dopaminergic neurons when infused close to the rostral end of the nigral nucleus of adult rats (NT-4 > BDNF > NT-3; nerve growth factor or NGF without effect). With a high dose of BDNF (30 micrograms/day) complete protection was achieved in the rostral but not caudal nigral regions, consistent with its poor diffusion characteristics in brain tissue. Measurements of tyrosine hydroxylase immunoreactivity suggest that BDNF and NT-4 (presumably through their TrkB receptor) reduce the synthesis of this rate-limiting enzyme for dopamine synthesis in rescued as well as in normal neurons. In sharp contrast, survival-promoting doses of NT-3 (presumably through its TrkC receptor) maintained normal levels of tyrosine hydroxylase immunoreactivity in the rescued nigrostriatal neurons. These results suggest that for these adult central nervous system neurons, some neurotrophic factors are predominantly involved in facilitating cell survival, whereas others are more involved in regulating neurotransmitter function.
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PMID:Neurotrophins prevent death and differentially affect tyrosine hydroxylase of adult rat nigrostriatal neurons in vivo. 945 27

In situ hybridization studies have revealed high levels of protease (thrombin)-activated receptor-1 messenger RNA in the mesencephalon of rats, suggesting that dopaminergic neurons are a target for thrombin's actions. We have evaluated the effect of thrombin receptor activation, either by thrombin or by thrombin receptor agonist peptide, a 14 amino acid agonist of protease-activated receptor-1, on tyrosine hydroxylase-positive neurons. Pure cultures of rat mesencephalic neurons or co-cultures of mesencephalic neurons and glial cells were treated with either thrombin or thrombin receptor agonist peptide the day after plating. Tyrosine hydroxylase-positive cell counting, [3H]dopamine uptake and morphometric analysis were performed on day 5. Thrombin and thrombin receptor agonist peptide influenced neurite elongation, branching and the number of primary, secondary and tertiary neurites of tyrosine hydroxylase-positive neurons. In pure cultures, the most significant effects of thrombin and thrombin receptor agonist peptide were to delay branching and to increase the centrifugal growth of neurites without affecting the total neuritic length. Thrombin (up to 10 nM) and thrombin receptor agonist peptide did not affect the number of tyrosine hydroxylase-positive neurons or [3H]dopamine uptake. Neurotrophin-4 also influenced the morphology of tyrosine hydroxylase-positive neurons. The increase of neuritic length initiated by this neurotrophin is complementary to the radial elongation induced by protease-activated receptor-1 activation. When neurons were cultured in the presence of glial cells, the effects of thrombin and thrombin receptor agonist peptide on most of these parameters were larger than those observed with pure cultures. Thus, thrombin is able to initiate a complex remodelling of the architecture of tyrosine hydroxylase-positive neurons through the activation of protease-activated receptor-1. These results provide further support for the involvement of protease-activated receptor-1 activation in the development and differentiation of the central nervous system.
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PMID:Involvement of protease-activated receptor-1 in the in vitro development of mesencephalic dopaminergic neurons. 948 32

Dopaminergic cells in the retina express the receptor for brain-derived neurotrophic factor (BDNF) (). To investigate whether BDNF can influence the development of the retinal dopaminergic pathway, we performed intraocular injections of BDNF during the second or third postnatal week and visualized the dopaminergic system with tyrosine hydroxylase (TH) immunohistochemistry. Both regimens of BDNF treatment caused an increase in TH immunoreactivity in stratum 1 and stratum 3 of the inner plexiform layer (IPL). D2 dopamine receptor immunoreactivity, a presynaptic marker of dopaminergic cells (), was also increased in stratum 1 and stratum 3 of the inner plexiform layer. These data suggest that BDNF causes sprouting of dopaminergic fibers in the inner plexiform layer. Other neurochemical systems, for example, the cholinergic amacrine cells, remained unaffected. Similar effects were observed after injections of neurotrophin-3 and neurotrophin-4, but not nerve growth factor. Analysis of whole-mounted TH-immunolabeled retinae revealed hypertrophy of dopaminergic cells (+41% in soma areas; p < 0.01) and an increase of labeled dopaminergic varicosities in stratum 1 of the IPL (+51%; p < 0.01) after BDNF treatment. The opposite was observed in mice homozygous for a null mutation of the bdnf gene: dopaminergic cells were atrophic (-22.5% in soma areas; p < 0.05), and the density of TH-positive varicosities in stratum 1 was reduced (57%; p < 0.01). We conclude that BDNF controls the development of the retinal dopaminergic network and may be particularly important in determining the density of dopaminergic innervation in the retina.
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PMID:Brain-derived neurotrophic factor modulates the development of the dopaminergic network in the rodent retina. 954 43

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