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)

Following a previous study in which we showed ameliorative effects of basic fibroblast growth factor (FGF-2) locally applied to the nigrostriatal system in 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP)-lesioned mice, we investigated FGF-2 actions at different time intervals after the lesion and effects on non-dopaminergic striatal transmitter systems. A triple intraperitoneal injection of 30 mg/kg MPTP at 24 h intervals caused a reduction of striatal dopamine to 23% of control levels that lasted for at least 4 weeks. Four micrograms FGF-2 soaked into gel foam and placed onto the right striatum partially and bilaterally restored dopamine levels and tyrosine hydroxylase activity after 2 weeks, when the treatment started simultaneously or 1 day after the toxin lesion. FGF-2 was ineffective, if administration commenced with a delay of 7 days. Striatal neurotransmitters that are known to be linked to the dopaminergic system were also altered by the MPTP treatment. GABA was significantly increased, while somatostatin levels were reduced. Upon FGF-2 administration both GABA and somatostatin levels were partially normalized. Our data are consistent with the notion that FGF-2 protects and rescues acutely and subacutely MPTP-lesioned nigrostriatal neurons and that its effects must be mainly indirect. Likewise, positive effects of FGF-2 on non-dopaminergic neurons may be due to the partial restoration of striatal dopamine.
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PMID:FGF-2 modulates dopamine and dopamine-related striatal transmitter systems in the intact and MPTP-lesioned mouse. 750 15

Form-deprivation myopia (FDM) in the chick is a popular model for studying the postnatal regulation of ocular growth. Using this model, we have shown previously that dopamine and FGF-2 can counteract the effects of form-deprivation, thereby producing emmetropia. In the present study, we tested the hypothesis that the emmetropizing effects of flickering light and intraocular injections of FGF-2 in the chick are mediated by the activity of dopaminergic retinal amacrine cells. We have assessed the rate of dopamine synthesis in the retina by measuring the accumulation of 3,4-dihydroxyphenylalanine (DOPA). We found that form-deprivation reduces the rate of dopamine synthesis in the light-adapted retina, and that the normal rate of dopamine synthesis in the light can be restored by stroboscopic illumination at frequencies around 10 Hz. By labeling cells immunocytochemically we have shown that the synthesis of c-fos, a putative transcriptional regulator of the tyrosine hydroxylase gene, is induced in dopaminergic amacrine cells by stroboscopic illumination at around 10 Hz. These observations are consistent with a critical role for dopaminergic amacrine cells in the regulation of ocular growth by intermittent illumination. We have found also that intraocular injections of FGF-2 cause emmetropization without altering levels of expression of c-fos, amounts of tyrosine hydroxylase, or rates of dopamine synthesis with respect to vehicle-injected controls. We conclude that FGF acts either in parallel to or downstream from the dopaminergic amacrine cells, rather than through them. We observed that intravitreal injection per se induces high levels of c-fos expression in both form-deprived and non-deprived retinas, and causes partial emmetropization in form-deprived eyes, while inhibiting dopamine synthesis in non-deprived retinas. It is likely, therefore, that injection stimulates the production and/or release of unknown factors whose diverse effects on ocular growth and dopamine metabolism are mediated by complex pathways. Taken together, our results are consistent with the view that the retinal circuitry that controls postnatal ocular growth in the chick involves multiple messengers and pathways.
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PMID:Stimulation of dopaminergic amacrine cells by stroboscopic illumination or fibroblast growth factor (bFGF, FGF-2) injections: possible roles in prevention of form-deprivation myopia in the chick. 758 83

Intraperitoneal injection of GM1 ganglioside or intracerebroventricular infusion of basic fibroblast growth factor (FGF-2) or epidermal growth factor (EGF) partially restored dopamine and 3,4-dihydroxyphenylacetic acid (DOPAC) levels in the striatum of young MPTP-treated mice. Combined treatments of GM1 ganglioside with FGF-2 or EGF produced a greater restoration of striatal dopamine levels than treatments with GM1 or either of the neurotrophic factors alone. GM1 treatment, but not trophic factor treatments caused significant sparing of substantia nigra pars compacta (SNc) tyrosine hydroxylase (TH)-positive neurons. These results confirm previous findings that GM1 provides trophic support for damaged dopamine neurons and suggests that GM1, FGF-2, and EGF may also enhance dopaminergic function in residual neurons. The results also suggest that a potentially fruitful approach to treating degenerative disorders of the dopamine system may be the use of combined trophic factor therapies.
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PMID:Enhanced restoration of striatal dopamine concentrations by combined GM1 ganglioside and neurotrophic factor treatments. 779 5

The protective role of basic fibroblast growth factor (FGF-2) for 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP)- and methylpyridiniumion (MPP+)-lesioned dopaminergic (DAergic) nigrostriatal neurons was studied, using dissociated cell cultures of embryonic day (E) 14 rat mesencephalon. Cells were grown in different culture media and received FGF-2 (5 ng/ml) and/or the toxins (5 microM) at various schedules, but were consistently allowed to differentiate for 3 days prior to becoming exposed to the toxin. Survival of tyrosine hydroxylase (TH)-immunoreactive cells at 7 days was only markedly impaired by MPTP, if horse serum (HS) or bovine serum albumin (BSA) were omitted from the culture medium. FGF-2 increased the number of TH-immunoreactive cells, and this increase was not diminished by MPTP under any culture condition. Uptake of 3H-DA was significantly reduced by MPTP in HS- and BSA-containing, but not in protein-less cultures. A protective effect by FGF-2 was only seen in the presence of BSA. MPP+ caused a more pronounced reduction in 3H-DA uptake than MPTP, and this effect was partially reversed by the addition of FGF-2, unless cultures contained HS. Neurofilament protein (NF), and indirect measure for the total number of neurons present in the cultures, was not significantly reduced by MPTP or MPP+ corroborating the specificity of the toxin for DAergic neurons, which constitute only a minor fraction in these cultures. In line with the wide spectrum of target neurons of FGF-2, this factor significantly increased NF contents under any culture condition. Quantification of the amounts of glial fibrillary acidic protein (GFAP) revealed stimulatory effects of FGF-2 (2.5- to 4-fold) and at least 10-fold higher levels in the presence as compared to the absence of HS. These data show that FGF-2 can protect DAergic neurons against MPTP- and MPP(+)-mediated damage. However, the effects of the toxins as well as of FGF-2 are partially dependent on culture conditions. Variations in the effectiveness of toxins and FGF-2 are not overtly related to the total numbers of neurons or astroglial cells, but may reflect culture type-dependent alterations of neuronal and glial metabolism.
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PMID:FGF-2-mediated protection of cultured mesencephalic dopaminergic neurons against MPTP and MPP+: specificity and impact of culture conditions, non-dopaminergic neurons, and astroglial cells. 809 65

By means of light and confocal laser microscopical analysis of choleratoxin (CT) binding sites indicating the localization of the ganglioside GM1, evidence has been obtained for the presence of ganglioside GM1 in discrete nerve terminals, some of them identified by synapsin-1 immunoreactivity (IR), with a focal distribution in the nerve terminal membrane. Double immunolabelling studies demonstrate that GM1 positive nerve terminals are associated with tyrosine hydroxylase/fibroblast growth factor-2 (TH/FGF-2) immunoreactive dopamine (DA) perikarya in the zona compacta of the rat substantia nigra. It is suggested that GM1 may be released from these terminals to become incorporated into the nerve cell membrane of the FGF-2-containing DA nigral nerve cells, where they may enhance the activity of neurotrophic factor receptors such as those for FGF-2.
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PMID:Codistribution of choleratoxin binding sites and tyrosine hydroxylase/FGF-2 immunoreactive nigral nerve cells. 810 82

We have investigated the regulation of the morphological phenotype of chromaffin cells cultured from 6-day-old rat adrenal glands. We show that pituitary adenylate cyclase activating polypeptide (PACAP), which is present in and released from nerves innervating chromaffin cells, rapidly induces neuritic growth, affecting 25% of tyrosine hydroxylase-positive chromaffin cells after 3 days at an optimal concentration of about 20 nM. PACAP does not synergistically act with other factors known to promote neurite growth, including nerve growth factor (NGF), basic fibroblast growth factor (bFGF, FGF-2), and ciliary neurotrophic factor (CNTF). The neurite promoting effect of PACAP and FGF-2 is entirely overridden by dexamethasone (2 x 10(-8) M) suggesting that, despite the presence of these promoting factors in the adrenal medulla, glucocorticoids from the adrenal cortex are probably sufficient to prevent the development of neuronal traits in adrenal chromaffin cells.
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PMID:Phenotypic development of neonatal rat chromaffin cells in response to adrenal growth factors and glucocorticoids: focus on pituitary adenylate cyclase activating polypeptide. 906 13

Basic fibroblast growth factor (FGF-2) mediates numerous important physiological processes, including differentiation and survival of dopaminergic neurons. FGF-2 was found to trigger elevation of tyrosine hydroxylase (TH) gene expression in PC12 cells that was sustained for 1-8 days. FGF-2 induced chloramphenicol acetyltransferase (CAT) reporter activity under control of the TH promoter, indicating that the induction is transcriptionally mediated. The transcriptional activation of TH by FGF-2 was examined using various deletions and point mutations of the 5' flanking region controlling CAT reporter activity. In contrast to the reported mechanisms of transcriptional regulation of TH expression by NGF and phorbol esters, the AP-1 site at -205/-199 was not required for the activation by FGF-2. A construct containing only 60 nucleotides of the promoter was still inducible by FGF-2. However, a construct with a point mutation in the CRE/CaRE was not responsive to induction by FGF-2. These findings indicate that the CRE/CaRE, but not the AP-1, element is required for induction by FGF-2 and point to differences between NGF and FGF-2 in the regulation of TH gene expression.
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PMID:Requirement for cAMP/calcium response element but not AP-1 site in fibroblast growth factor-2-elicited activation of tyrosine hydroxylase gene expression in PC12 cells. 938 81

The ready availability of unlimited quantities of neural stem cells derived from the human brain holds great interest for basic and applied neuroscience, including therapeutic cell replacement and gene transfer following transplantation. We report here the combination of epigenetic and genetic procedures for perpetuating human neural stem cell lines. Thus we tested various culture conditions and genes for those that optimally allow for the continuous, rapid expansion and passaging of human neural stem cells. Among them, v-myc (the p110 gag-myc fusion protein derived from the avian retroviral genome) seems to be the most effective gene; we have also identified a strict requirement for the presence of mitogens (FGF-2 and EGF) in the growth medium, in effect constituting a conditional perpetuality or immortalization. A monoclonal, nestin-positive, human neural stem cell line (HNSC.100) perpetuated in this way divides every 40 h and stops dividing upon mitogen removal, undergoing spontaneous morphological differentiation and upregulating markers of the three fundamental lineages in the CNS (neurons, astrocytes, and oligodendrocytes). HNSC.100 cells therefore retain basic features of epigenetically expanded human neural stem cells. Clonal analysis confirmed the stability, multipotency, and self-renewability of the cell line. Finally, HNSC.100 can be transfected and transduced using a variety of procedures and genes encoding proteins for marking purposes and of therapeutic interest (e.g., human tyrosine hydroxylase I).
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PMID:Establishment and properties of a growth factor-dependent, perpetual neural stem cell line from the human CNS. 1068 74

Embryonic stem (ES) cells are self-renewing, pluripotent, and capable of differentiating into all of the cell types found in the adult body. Therefore, they have the potential to replace degenerated or damaged cells, including those in the central nervous system. For ES cell-based therapy to become a clinical reality, translational research involving nonhuman primates is essential. Here, we report monkey ES cell differentiation into embryoid bodies (EBs), neural progenitor cells (NPCs), and committed neural phenotypes. The ES cells were aggregated in hanging drops to form EBs. The EBs were then plated onto adhesive surfaces in a serum-free medium to form NPCs and expanded in serum-free medium containing fibroblast growth factor (FGF)-2 before neural differentiation was induced. Cells were characterized at each step by immunocytochemistry for the presence of specific markers. The majority of cells in complex/cystic EBs expressed antigens (alpha-fetal protein, cardiac troponin I, and vimentin) representative of all three embryonic germ layers. Greater than 70% of the expanded cell populations expressed antigenic markers (nestin and musashi1) for NPCs. After removal of FGF-2, approximately 70% of the NPCs differentiated into neuronal phenotypes expressing either microtubule-associated protein-2C (MAP2C) or neuronal nuclear antigen (NeuN), and approximately 28% differentiated into glial cell types expressing glial fibrillary acidic protein. Small populations of MAP2C/NeuN-positive cells also expressed tyrosine hydroxylase (approximately 4%) or choline acetyltransferase (approximately 13%). These results suggest that monkey ES cells spontaneously differentiate into cells of all three germ layers, can be induced and maintained as NPCs, and can be further differentiated into committed neural lineages, including putative neurons and glial cells.
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PMID:Differentiation of monkey embryonic stem cells into neural lineages. 1260 31

Effects of three neurotrophins, i.e., nerve growth factor, brain-derived neurotrophic factor, and neurotrophin-3, on the expression of four neurotransmitter-synthesizing enzymes, i.e. choline acetyltransferase (ChAT), tyrosine hydroxylase (TH), dopamine beta hydroxylase (DBH), and glutamate decarboxylase 65 were investigated in cultured mouse neural stem cells. All three neurotrophins enhanced the mRNA expression of ChAT, TH, or DBH of the cells caused to differentiate by the removal of fibroblast growth factor (FGF)-2 from the culture medium, and increased the protein and mRNA levels of ChAT and TH of even the undifferentiated proliferating neural stem cells due to the presence of FGF-2. These results demonstrate that neurotrophins stimulate the synthesis of ChAT and TH of the neural stem cells prior to neuronal differentiation, and suggest that neurotrophins may play roles in the commitment to neuronal cells and choice of specific neurotransmitter phenotypes in early stages of neurogenesis.
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PMID:Neurotrophins facilitate synthesis of choline acetyltransferase and tyrosine hydroxylase in cultured mouse neural stem cells independently of their neuronal differentiation. 1263 95


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