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)

Glial cell-line derived neurotrophic factor (GDNF) enhances dopamine (DA) cell survival and fiber outgrowth, and may be beneficial in enhancing cell restorative strategies for Parkinson's disease (PD). However, GDNF may have different roles for transplanted DA cell sub-types. The present in vitro study investigated the effect of GDNF on the survival of rat DA cells displaying a phenotype consistent with either the substantia nigra [A9 cells immunopositive for tyrosine hydroxylase (TH) and G-protein-gated inwardly rectifying potassium channel subunit 2 (GIRK2)] or with the ventral tegmental area [A10 cells immunopositive for TH and calbindin]. It was found that a single exposure of GDNF enhanced the number of DA cells of an A9 phenotype, without affecting DA cells of an A10 phenotype. Conversely, repeated GDNF exposure did not alter the survival of A9 phenotypic cells, but doubled the percentage of A10 cells. It was concluded that GDNF administration may affect dopaminergic cells differently depending on time and degree of GDNF exposure. For cell transplantation in PD, long-term GDNF administration may result in detrimental effects for transplanted A9 TH+ cells as this may introduce competition with A10 TH+ cells for survival and fiber outgrowth into the host striatum. These results may have important implications for clinical neural transplantation in PD.
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PMID:Differential effects of glial cell line-derived neurotrophic factor on A9 and A10 dopamine neuron survival in vitro. 1758 36

Several findings suggest that glial cell line-derived neurotrophic factor (GDNF) may be a useful tool to treat parkinsonism by acting as a neuroprotective and neurotrophic factor for dopaminergic neurotransmission systems. In the present study, we implanted alginate-poly-L-lysine-alginate microcapsules containing immobilized Fischer rat 3T3 fibroblasts transfected to produce GDNF in vitro into the striatum of 6-hydroxydopamine (6-OHDA) lesioned rats. Microencapsulated GDNF secreting cells were stable for at least 3 weeks in vitro. Intrastriatal implantation of microencapsulated GDNF secreting cells into 6-OHDA lesioned rats resulted in a decrease in apomorphine-induced rotations by 84%, 64%, 84%, 60% and 52% (2, 5, 8, 16 and 24 weeks, respectively) with respect to the value before implantation and with respect to the value obtained from the empty microcapsule implanted-group at each time point. Six months after transplantation, immunohistochemical detection of GDNF revealed strong immunoreactivity in the striatal tissue surrounding the microcapsules in the absence of tissue damage due to microcapsule implantation. No changes in the levels of dopamine and its metabolites or of tyrosine hydroxylase immunoreactivity were detected in the striatum. In summary, the implantation of microencapsulated GDNF secreting cells allows the delivery of this molecule into the rat striatum for at least 6 months and results in substantial behavioral improvement.
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PMID:Long-term survival of encapsulated GDNF secreting cells implanted within the striatum of parkinsonized rats. 1758 54

Mesenchymal stem cells (MSCs) secrete a variety of neuroregulatory molecules, such as nerve growth factor, brain-derived neurotrophic factor, and glial cell-derived neurotrophic factor, which upregulate tyrosine hydroxylase (TH) gene expression in PC12 cells. Enhancing TH gene expression is a critical step for treatment of Parkinson's disease (PD). The objective of this study was to assess the effects of co-culturing PC12 cells with MSCs from feline bone marrow on TH protein expression. We divided the study into three groups: an MSC group, a PC12 cell group, and the combined MSC + PC12 cell group (the co-culture group). All cells were cultured in DMEM-HG medium supplemented with 10% fetal bovine serum for three days. Thereafter, the cells were examined using western blot analysis and immunocytochemistry. In western blots, the co-culture group demonstrated a stronger signal at 60 kDa than the PC12 cell group (p < 0.001). TH was not expressed in the MSC group, either in western blot or immunocytochemistry. Thus, the MSCs of feline bone marrow can up-regulate TH expression in PC12 cells. This implies a new role for MSCs in the neurodegenerative disease process.
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PMID:Enhanced tyrosine hydroxylase expression in PC12 cells co-cultured with feline mesenchymal stem cells. 1799 52

Neural progenitor cell grafting is a promising therapeutic option in the treatment of Parkinson's disease. In previous experiments we grafted temperature-sensitive immortalized CSM14.1 cells, derived from the ventral mesencephalon of E14-rats, bilaterally in the caudate putamen of adult hemiparkinsonian rats. In these studies we were not able to demonstrate either a therapeutic improvement or neuronal differentiation of transplanted cells. Here we examined whether CSM14.1 cells grafted bilaterally orthotopically in the substantia nigra of hemiparkinsonian rats have the potential to differentiate into dopaminergic neurons. Adult male rats received 6-hydroxydopamine into the right medial forebrain bundle, and successful lesions were evaluated with apomorphine-induced rotations 12 days after surgery. Two weeks after a successful lesion the animals received bilateral intranigral grafts consisting of either about 50 000 PKH26-labelled undifferentiated CSM14.1 cells (n = 16) or a sham-graft (n = 9). Rotations were evaluated 3, 6, 9 and 12 weeks post-grafting. Animals were finally perfused with 4% paraformaldehyde. Cryoprotected brain slices were prepared for immunohistochemistry using the freeze-thaw technique to preserve PKH26-labelling. Slices were immunostained against neuronal epitopes (NeuN, tyrosine hydroxylase) or glial fibrillary acidic protein. The CSM14.1-cell grafts significantly reduced the apomorphine-induced rotations 12 weeks post-grafting compared to the sham-grafts (P < 0.05). There was an extensive mediolateral migration (400-700 microm) of the PKH26-labelled cells within the host substantia nigra. Colocalization with NeuN or glial fibrillary acidic protein in transplanted cells was confirmed with confocal microscopy. No tyrosine hydroxylase-immunoreactive grafted cells were detectable. The therapeutic effect of the CSM14.1 cells could be explained either by their glial cell-derived neurotrophic factor-expression or their neural differentiation with positive effects on the basal ganglia neuronal networks.
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PMID:Orthotopic transplantation of immortalized mesencephalic progenitors (CSM14.1 cells) into the substantia nigra of hemiparkinsonian rats induces neuronal differentiation and motoric improvement. 1803 47

Glial-derived neurotrophic factor (GDNF) is a neurotrophin that could be developed as a neurotherapeutic for Parkinson's disease, stroke, and motor neuron disease. However, GDNF does not cross the blood-brain barrier (BBB). Human GDNF was re-engineered by fusion of the mature GDNF protein to the carboxyl terminus of the chimeric monoclonal antibody (MAb) to the human insulin receptor (HIR). The HIRMAb-GDNF fusion protein is bi-functional, and both binds the HIR, to trigger receptor-mediated transport across the BBB, and binds the GDNF receptor (GFR)-alpha1, to activate GDNF neuroprotection pathways behind the BBB. COS cells were dual transfected with the heavy chain (HC) and light chain fusion protein expression plasmids, and the HC of the fusion protein was immunoreactive with antibodies to both human IgG and GDNF. The HIRMAb-GDNF fusion protein bound with high affinity to the extracellular domain of both the HIR, ED(50) = 0.87 +/- 0.13 nM, and the GFRalpha1, ED(50) = 1.68 +/- 0.17 nM. The HIRMAb-GDNF fusion protein activated luciferase gene expression in human neural SK-N-MC cells dual transfected with the c-ret kinase and a luciferase reporter gene under the influence of the rat tyrosine hydroxylase promoter, and the ED(50), 1.68 +/- 0.45 nM, was identical to the ED(50) in the GFRalpha1 binding assay. The fusion protein was active in vivo in a rat middle cerebral artery occlusion model, where the stroke volume was reduced 77% (P < 0.001). In conclusion, these studies describe the re-engineering of GDNF, to make this neurotrophin transportable across the human BBB.
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PMID:GDNF fusion protein for targeted-drug delivery across the human blood-brain barrier. 1808 Mar 33

A number of signaling molecules and transcription factors play important roles in the development of the autonomic nervous system. Here, we show that mouse trunk neural crest cells can differentiate into autonomic neurons expressing mammalian achaete-scute homolog 1 (mash1), Phox2b, tyrosine hydroxylase, and/or dopamine-beta-hydroxylase in the absence of bone morphogenetic protein (BMP)-4. The expression of mash1 and Phox2b is induced even in the presence of noggin or chordin, which are inhibitors of BMP signaling. Whereas these autonomic neurons do not express c-ret, the receptor for glial-cell-line-derived neurotrophic factor (GDNF), GDNF promotes the differentiation of c-ret-positive autonomic neurons in the presence of noggin. Autonomic neurogenesis is completely prevented by fibroblast growth factor (FGF)-2 treatment or by activation of Notch signaling. Furthermore, the suppression of Phox2b expression by FGF-2 can be recovered by treatment with Notch-1 small interfering RNA. Our data suggest that BMP-independent mechanisms promote the differentiation of autonomic neurons, and that FGF-2 suppresses autonomic neurogenesis by means of the activation of Notch signaling.
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PMID:Differentiation of autonomic neurons by BMP-independent mechanisms. 1819 75

A reliable method to induce neural progenitor/stem cells (NPCs) into dopaminergic (DAergic) neurons has not yet been established. As well, the mechanism involved remains to be elucidated. To induce DAergic differentiation from NPCs, a cytokine mixture (C-Mix) of interleukin (IL)-1beta, IL-11, leukemia-inhibitory factor (LIF), and glial-derived neurotrophic factor or low oxygen (3.5% O(2): L-Oxy) was used to treat embryonic stem (ES) cell-derived NPCs. Treatment with C-Mix increased the number of tyrosine hydroxylase (TH)-positive cells compared with controls (2.20-fold of control). The C-Mix effect was induced by mainly LIF or IL-1beta treatment. Although L-Oxy caused an increase in TH-positive cells (1.34-fold), the combination of L-Oxy with C-Mix did not show an additive effect. Increases in DA in the medium were shown in the presence of C-Mix, LIF, and L-Oxy by high-performance liquid chromatography. Gene expression patterns of neural markers [tryptophan hydroxylase (TPH), GAD67, GluT1, beta-tubulin III, glial fibrillary acidc protein, and TH] were different in C-Mix and L-Oxy treatments. Because increases in hypoxia-inducible factor (HIF)-1alpha protein were found in both treatments, we investigated the effect of HIF-1alpha on differentiation of NPCs to DAergic neurons. Inhibition of HIF-1alpha by the application of antisense oligodeoxynucleotides (ODNs) to NPCs caused a decrease in TH-positive cells induced by LIF treatment. Gene expressions of TH, GAD67, and GluT1 were decreased, and those of TPH, beta-tubulin III, and S-100beta were increased by treatment with just ODNs, indicating the importance of the endogenous effect of HIF-1alpha on neuronal differentiation. These data suggest that enhanced differentiation into DAergic neurons from ES cell-derived NPCs was induced by C-Mix or L-Oxy mediated by HIF-1alpha.
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PMID:Increase in dopaminergic neurons from mouse embryonic stem cell-derived neural progenitor/stem cells is mediated by hypoxia inducible factor-1alpha. 1843 29

Progenitor cells generated in the subventricular zone (SVZ) migrate toward the olfactory bulb (OB), where they differentiate into neurons. Growth factors have been shown to promote neurogenesis in the SVZ/OB-system while dopaminergic lesion exerts an opposite effect. As carotid body (CB) cells express growth factors here we study the impact of intrastriatal CB graft on migration and differentiation of neural progenitor cells in the hemiparkinsonian rat SVZ/OB-system. Bromodeoxyuridine (BrdU) was given to intact, 6-hydroxydopamine (6-OHDA)-lesioned and 6-OHDA-lesioned animals transplanted with vehicle or rat CB cells. The migration of progenitor cells was assessed by the quantification of BrdU-labeled cells in the SVZ/OB-system and the neuronal differentiation by the proportion of newborn neurons in the OB. The graft survival was confirmed by CB cell morphology and their tyrosine hydroxylase expression. Some of these CB cells were stained with BrdU, thus indicating their ability for self-renewal. Grafted glomus cells also expressed brain derived neurotrophic factor (BDNF), glial derived neurotrophic factor (GDNF), epidermal growth factor (EGF) and vascular endothelial growth factor (VEGF). The migration of neural progenitor cells was significantly decreased in 6-OHDA-lesioned respect to intact animals. We found a similar number of BrdU-labeled cells in sham-operated than in CB-grafted animals, suggesting that CB graft has no effect on progenitor cell migration. CB-grafted animals exhibited a significantly larger percentage of newborn cells (BrdU/Neuronal Nuclei-labeled cells) respect to 6-OHDA-lesioned and sham-operated animals. This study suggests that striatal CB graft might promote differentiation of SVZ progenitor cells into neurons, probably by the growth factors contained in CB cells.
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PMID:Striatal carotid body graft promotes differentiation of neural progenitor cells into neurons in the olfactory bulb of adult hemiparkisonian rats. 1850 1

A parasite-derived neurotrophic factor (PDNF) produced by the Chagas' disease parasite Trypanosoma cruzi binds nerve growth factor (NGF) receptor TrkA, increasing receptor autophosphorylation, and activating phosphatidylinositol 3-kinase (PI3K) and mitogen-activated protein kinase (MAPK/Erk) pathways, and transcription factor CREB. The end-result is enhanced survival and neuritogenesis of various types of neurons. PDNF also enhances the expression and activity of tyrosine hydroxylase, a rate limiting enzyme in the synthesis of dopamine and other catecholamine neurotransmitters. It remains unknown, however, if PDNF alters expression and metabolism of acetylcholine (ACh), a neurotransmitter thought to play a role in Chagas' disease progression. Here we demonstrate that PDNF stimulates mRNA and protein expression of choline acetyltransferase (ChAT) and vesicular acetylcholine transporter (VAChT), which are critical for synthesis and storage of ACh. Stimulation requires functional TrkA because it did not occur in cell mutants that lack the receptor and in TrkA-expressing wild-type cells treated with K252a, an inhibitor of TrkA kinase activity. It also requires TrkA-dependent PI3K and MAPK/Erk signaling pathways because PDNF stimulation of cholinergic transcripts is abolished by specific pharmacological inhibitors. Furthermore, the cholinergic actions of PDNF were reproduced by PDNF-expressing extracellular T. cruzi trypomastigotes at the start of host cell invasion. In contrast, host cells bearing intracellular T. cruzi showed decreased, rather than increased, cholinergic gene expression. These results suggest that T. cruzi invasion of the nervous system alters cholinergic gene expression and that could play a role in neuropathology, and/or lack thereof, in Chagas' disease patients.
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PMID:Chagas' disease parasite-derived neurotrophic factor activates cholinergic gene expression in neuronal PC12 cells. 1850 3

GDNF is a potent neurotrophic factor that protects catecholaminergic neurons from toxic damage and induces fiber outgrowth. However, the actual role of endogenous GDNF in the normal adult brain is unknown, even though GDNF-based therapies are considered promising for neurodegenerative disorders. We have generated a conditional GDNF-null mouse to suppress GDNF expression in adulthood, hence avoiding the developmental compensatory modifications masking its true physiologic action. After Gdnf ablation, mice showed a progressive hypokinesia and a selective decrease of brain tyrosine hydroxylase (Th) mRNA, accompanied by pronounced catecholaminergic cell death, affecting most notably the locus coeruleus, which practically disappears; the substantia nigra; and the ventral tegmental area. These data unequivocally demonstrate that GDNF is indispensable for adult catecholaminergic neuron survival and also show that, under physiologic conditions, downregulation of a single trophic factor can produce massive neuronal death.
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PMID:Absolute requirement of GDNF for adult catecholaminergic neuron survival. 2571 Aug 29


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