EC:1.14.16.2 - FACTA Search

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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)

In the developing mesencephalon of the rat, the dopaminergic neurons are generated in the ventricular zone of the basal plate between E11 and E15 and then migrate along radial glia to the ventral surface of the developing mesencephalon. To study the factors that control migration and maturation of the dopaminergic neurons, we immunolabeled embryo and pups, ages E12-P21, for neural cell adhesion molecule (NCAM), polysialic acid (PSA) - a polysaccharide found in high amounts on NCAM during development, tyrosine hydroxylase (TH) - a marker of mesencephalic dopaminergic cells, and vimentin - the major cytoskeletal protein in radial glia in the rat. At E13, we noted that cells throughout the mesencephalon contained NCAM-immunoreactive (NCAM-IR) material but that cells along the ventral surface of the mesencephalon contained an increased amount of NCAM-IR material and PSA-immunoreactive (PSA-IR) material. At this age, we first noted a small number of TH-immunoreactive (TH-IR) cells adjacent to the marginal zone of the ventral surface of the mesencephalon. Many of the TH-IR cells contained an increased density of NCAM-IR material. At age E14, the pattern of increased density of NCAM-IR material on cells along the ventral surface of the mesencephalon persisted and a conspicuous amount of PSA-IR material was also noted on cells in this region. TH-IR cells were more numerous, and a striking number of the TH-IR cells also contained an increased amount of NCAM-IR material and PSA-IR material. With increasing age the distribution of NCAM-IR material and PSA-IR material in the mesencephalon became more uniform. Our work suggests that NCAM may be involved in control of migration and synthesis of TH in the dopaminergic cells of the developing mesencephalon.
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PMID:Mesencephalic dopaminergic cells exhibit increased density of neural cell adhesion molecule and polysialic acid during development. 134 68

The distribution of nerve growth factor-inducible large external (NILE) glycoprotein in the developing mesostriatal dopaminergic system was studied by immunolabeling prenatal, postnatal, and adult rat brains for both NILE and tyrosine hydroxylase (TH). NILE-immunoreactive (NILE-IR) material outlined the TH-immunoreactive (TH-IR) neurons in the ventral mesencephalon at ages E14, E15, and E16 but not at later ages. Fascicles of TH-IR axons in the developing mesostriatal dopaminergic tract were strongly immunoreactive for NILE from E15 through E20. In the postnatal brain, NILE-IR material no longer clearly outlined the fascicles of dopaminergic axons as they ran from the mesencephalon to the striatum. In the striatum of postnatal and adult rats, NILE-IR material was diffusely distributed through the neuropil. Our observations suggest that NILE may play a role in guidance of growing dopaminergic axons in the developing mesostriatal tract and aggregation of the dopaminergic axons into fascicles.
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PMID:Mesostriatal dopaminergic axons transiently express high levels of NILE during development. 135 Feb 53

To test the hypothesis that glia mediate interactions between embryonic serotonergic (5-HT) neurons and dopamine neurons, we studied the effects of 5-HT in co-cultures of E14 raphe neurons of mesencephalic dopamine neurons and radial glia/astrocytes derived from the same (homotypic) or opposite (heterotypic) brain region using a dose (10(-5) M) that would produce 5-HT uptake into glial cells as well as activate 5-HT receptors. Morphometric analysis of 5-HT and tyrosine hydroxylase (TH) immunoreactive neurons revealed regional differences in the effects of 5-HT (and nialamide) on survival, cell soma size, and dendrite-like neurite outgrowth in neuronal-glial co-cultures. In general, 5-HT had more significant effects on both types of monoamine neuron when they were cultured with mesencephalic glia (GSN). Stimulatory effects of 5-HT on growth of TH neurons in GSN cultures suggest that developing raphe axons, which reach the mesencephalon during the early differentiation of these neurons, may enhance the influence of local glial-derived trophic factors. Likewise, the promotion of 5-HT neuronal survival in these cultures suggests that glial factors in the mesencephalon may contribute to the support of 5-HT neurons in addition to the influences of raphe glia. The inhibitory effects of 5-HT on neurite outgrowth by raphe neurons in GSN co-cultures indicates enhanced sensitivity of these neurons to the inhibitory effects of 5-HT in the presence of mesencephalic glia. The region-specific effects of 5-HT and nialamide in glial co-cultures suggest that raphe and mesencephalic glia may express different capacities for 5-HT uptake, receptors, and/or monoamine oxidase (MAO) activities. These characteristics could be important for the specificity of growth-regulatory influences of glial cells on the development of brain monoamine neurons.
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PMID:Serotonin promotes region-specific glial influences on cultured serotonin and dopamine neurons. 135 Feb 72

In the ventral mesencephalon of the E14 rat fetus, 90% of the dopaminergic, tyrosine hydroxylase positive (TH+) cells are localized in 1.0 mm3 of tissue. This same ventral mesencephalic region also contains 90% of the dopamine content of the E14 ventral brainstem (2.2 +/- 0.3 nmol/mg protein). When cells were prepared for culturing from this localized area, and plated at a density of 2.5 x 10(5) cells/cm2, 17-21% of the cells were TH+, at 4 and 12 h, and at 1, 5, 7 and 10 days after plating. The percentage of TH+ cells was also 17-21% when examined at 4 h, 12 h or 5 days after plating at densities ranging from 7.8 x 10(3) to 2.5 x 10(5) cells/cm2. However, cell survival at a density of less than 6.2 x 10(4) cells/cm2 was poor after 5 days in culture. Based on the degree of neurite elongation and complexity, cell maturation appeared to be complete at 5 days in culture (DIV5), and appeared to be maintained at this level up to DIV10. By DIV14, neurite retraction was evident, and the cells were more rounded. These signs may indicate the inception of senescence in the cultures. A benztropine-sensitive, concentration-dependent dopamine uptake mechanism was demonstrated in the cultures at DIV7, and DA could be released from preloaded cells using 50 mM K+. Five morphological subtypes of TH+ cells were identified in the cultures. This primary culture of the ventral mesencephalic, dopaminergic area, with a high percentage of TH+ cells, is suitable for use in acute biochemical and cellular studies, between DIV 5 and DIV10.
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PMID:A high percentage yield of tyrosine hydroxylase-positive cells from rat E14 mesencephalic cell culture. 135 97

Our earlier work demonstrated that certain populations of brain neurons which do not synthesize catecholamine (CA) neurotransmitters in vivo, will, when grown in culture with muscle-derived differentiation factor (MDF), unexpectedly express the gene for the CA biosynthetic enzyme tyrosine hydroxylase (TH). In this paper, we sought to determine whether MDF could also regulate TH expression in those neurons which normally synthesize CA neurotransmitters. Incubation of cultured dopamine neurons from the ventral midbrain with MDF elevated the levels of TH mRNA and TH enzyme activity 5- to 40-fold higher than that measured in control cultures. Sympathetic neurons were unaffected by a similar MDF treatment. Unlike the 2-day critical period for MDF-responsivity in non-CA neurons. CA neurons remained susceptible to MDF's influence over an extended developmental interval (E14-18), suggesting that MDF may be important for TH gene regulation in brain CA neurons even differentiation is complete. Because of these unique properties, MDF may provide a unique opportunity to explore ways in which the TH gene might be directly manipulated in these cell populations in order to correct the CA imbalances that occur in certain neurological diseases and disorders.
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PMID:Muscle-derived differentiation factor increases expression of the tyrosine hydroxylase gene and enzyme activity in cultured dopamine neurons from the rat midbrain. 136 26

We have measured [3H]dopamine ([3H]DA) uptake and tyrosine hydroxylase-immunopositive immunostaining in cells acutely dissociated from the embryonic ventral mesencephalon (MSC). DA and its metabolites as well as catechol-O-methyltransferase (COMT) and monoamine oxidase (MAO) activities were determined in homogenates taken from the MSC and striatum (STR). In the embryonic ventral MSC measurable DA and tyrosine hydroxylase (TH) immunostaining were present as early as embryonic day (E) 12.5. At E14 the number of TH+ neurons was about 50% of the values at E18. In the MSC, DA concentration increased sharply at E16 and reached a plateau before birth that was 10-fold lower than adult values. In the STR, DA was first detected at E16, suggesting that DA fibers reach the STR at this embryonic stage. High-affinity DA uptake appeared in the MSC only at E16, concomitantly with the arrival of DA fibers in the STR, increased sharply between E16 and E18, and reached a plateau before birth. This uptake mechanism was not selective for catecholamine uptake inhibitors. Thus, DA synthesis in the MSC preceded the onset of high-affinity uptake mechanism, which could be correlated to the beginning of striatal DA innervation. Measurable MAO and COMT activities were detected as early as E13 (MSC) and E15 (STR), but not DA metabolites, which appeared later. We conclude that the high-affinity DA uptake mechanism in MSC DA neurons develops coincident with the arrival of DA fibers to the STR. The sharp increase of DA uptake between E16 and E18 is due only in part to an increase in the number of TH+ cells. These results support the hypothesis that in vivo the target STR neurons regulate the maturation of MSC DA cells.
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PMID:Dopamine synthesis precedes dopamine uptake in embryonic rat mesencephalic neurons. 167 Oct 84

We have examined the expression of mRNAs encoding five major neurotransmitter-synthesizing enzymes in MAH cells, a clonal cell line derived by retroviral immortalization of a rat embryonic sympathoadrenal progenitor cell. These mRNAs include tyrosine hydroxylase (TH), choline acetyltransferase (ChAT), tryptophan hydroxylase (TpH), and glutamic acid decarboxylases (GADs) 1 and 2. We find that MAH cells express high levels of TH mRNA and low levels of ChAT and TpH mRNAs. Neither GAD1 nor GAD2 mRNAs are detectable using an RNase protection assay with a detection limit of less than one transcript per cell. A similar pattern of mRNA expression is observed in postnatal superior cervical ganglia, adrenal medulla, and in PC12 cells. Transmitter synthesis and accumulation assays indicate that MAH cells can synthesize both catecholamines and acetylcholine. Thus the TH and ChAT mRNAs detected in these cells are likely to be translated into active enzyme. To corroborate these data obtained using MAH cells, we performed similar transmitter synthesis and accumulation assays on sympathoadrenal progenitors directly isolated from E14.5 fetal adrenal glands by fluorescence-activated cell sorting. These progenitor cells also synthesize and accumulate both catecholamines and acetylcholine, albeit to different extents than MAH cells. Both MAH cells and their nonimmortal counterparts are able to increase slightly their cholinergic function upon short-term exposure to CDF/LIF, a factor known to induce acetylcholine synthesis in postmitotic sympathetic neurons. Taken together, these data suggest that progenitor cells in the sympathoadrenal lineage acquire the ability to simultaneously transcribe several different neurotransmitter enzyme genes early in development, prior to their choice of final cell fate. At the same time, the progenitors possess receptors which regulate expression of these genes in response to environmental factors. This ability may permit the cells to choose from several different transmitter phenotypes in response to different environments, as they migrate through the embryo. The persistent transcription of these genes in adult cells, moreover, may in part account for the phenotypic plasticity of cells in this lineage.
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PMID:Co-expression of multiple neurotransmitter enzyme genes in normal and immortalized sympathoadrenal progenitor cells. 168 90

Neuronal differentiation is influenced by extracellular factors; however, only a few such factors have been identified for central neurons. To address this issue, we have screened media conditioned (CM) by several glial cell lines for neurotrophic effects on dopaminergic neurons in dissociated cell cultures of the E14.5 rat mesencephalon grown in serum-free conditions. To establish culture conditions under which dopaminergic cell survival depends on the exogenous support from neurotrophic factors, cell suspensions were seeded at varying densities and the number of tyrosine hydroxylase-immunoreactive (TH-IR) neurons was determined. This number was maximal at plating densities greater than 175,000 cells/cm2 and was 10-fold lower at the plating density of 80,000 cells/cm2. Cell density had only a minimal effect on [3H]dopamine uptake per TH-IR neuron. Treatment of cultures plated at 80,000 cells/cm2 with CM derived from the glial cell line, B49, the neural retina glial cell line, R33, and the Schwannoma cell line JS1, increased the number of surviving TH-IR neurons 160-330%. These effects were dose dependent and heat sensitive. All CM stimulated neurite elongation of TH-IR neurons, while only the B49-CM increased [3H]dopamine uptake. The neurotrophic effects of these media were not confined to dopaminergic neurons but increased overall neuronal density in culture by 50-100%. Moreover, all three CM were mitogenic for mesencephalic glia as demonstrated by glial fibrillary acidic protein (GFAP)-immunocytochemistry in combination with [3H]thymidine-autoradiography. By contrast, medium conditioned by the pheochromocytoma cell line, PC12, did not increase the number of astrocytes or promote the survival of dopaminergic neurons. Inhibition of glial proliferation reduced the neurotrophic effects of the B49-, R33-, and JS1-CM by 40-80%. These observations suggest that the glial cell lines B49, R33, and JS1 secrete factors that promote the survival of dopaminergic neurons and induce proliferation of glial precursors. The partial decrease of the survival-promoting effects of these CM on dopaminergic neurons in glial-free mesencephalic cultures further suggests that the observed neurotrophic effects result from the combined action of cell line-derived substances directly on neurons and indirectly via effects on mesencephalic astrocytes or astrocyte precursors.
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PMID:Conditioned media derived from glial cell lines promote survival and differentiation of dopaminergic neurons in vitro: role of mesencephalic glia. 168 85

Primary cultures from dissociated locus coeruleus (LC) neurons of 14-day-old (E14) fetal rats were grown in vitro in serum complemented medium. Noradrenergic cells were identified using immunocytochemical staining for tyrosine hydroxylase (TH) antibody. Maturation of noradrenergic neurons was assessed by measuring the high-affinity uptake of [3H]norepinephrine (NE). The presence of hippocampal cells stimulated the specific uptake of [3H]NE by LC cells only when plated at low density. Increasing the concentration of hippocampal cells resulted in a 50% decrease in NE uptake by LC cells. A similar inhibitory effect was observed with striatal cells. The inhibition exerted by striatal cells appears to be developmentally regulated, with E18 exerting a stronger inhibitory effect than E15 striatum. The decrease in [3H]NE uptake in hippocampal-LC cocultures was due to a decrease in uptake by individual noradrenergic neurons. For a given plating density, the decrease in uptake of [3H]NE per noradrenergic cell in LC culture was only half the decrease in the cocultures, suggesting a target-associated effect rather than density-derived toxic effect. In culture conditions which favored neuronal but not glial survival, the stimulatory target effect was evident, and the inhibitory effect was absent. Medium conditioned by target glial cells had a marked stimulatory effect on [3H]NE uptake. Glial feader-layer had a strong inhibitory effect on [3H]NE uptake in serum-containing medium. We suggest that both neurons and glia mediate the target-stimulatory effect, whereas the inhibitory effect is mediated by direct contact between target glia and LC neurons.
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PMID:Target cell stimulation and inhibition of norepinephrine uptake in dissociated rat locus coeruleus cultures. 197 May 16

Experiments were done to study the fate of transient catecholaminergic (TC) cells that develop in the rodent gut during ontogeny. When they are first detected, at Day E11 in rats, TC cells are distributed along the vagal pathway, in advance of the descending fibers of the vagus nerves, and in the foregut. The early TC cells coexpress the immunoreactivities of several neural markers, including 150-kDa neurofilament protein, peripherin, microtubule associated protein (MAP) 5, and growth-associated protein (GAP)-43, with those of the catecholamine biosynthetic enzymes tyrosine hydroxylase (TH) and dopamine-beta-hydroxylase (DBH). All cells in the fetal rat bowel at Day E11 that express neural markers also express TH immunoreactivity. The primitive TC cells also express the immunoreactivities of neural cell adhesion molecule (N-CAM), neuropeptide Y (NPY), and nerve growth factor (NGF) receptor (and NGF receptor mRNA). By Day E12 TC cells are found along the vagal pathway and throughout the entire preumbilical bowel. At this age TC cells acquire additional characteristics, including MAP 2 and synaptophysin immunoreactivities and acetylcholinesterase activity, which indicate that they continue to mature as neurons. In addition, TC cells of the rat are immunostained at Day E12 by the NC-1 monoclonal antibody, which in rats labels multiple cell types including migrating cells of neural crest origin. Despite their neural properties, at least some TC cells divide and therefore are neural precursors and not terminally differentiated neurons. At Day E10 TH mRNA-containing cells were not detected by in situ hybridization; however, by Day E11 TH mRNA was detected in sympathetic ganglia and in scattered cells in the mesenchyme of the foregut and vagal pathway. At this age, the number of enteric and vagal cells containing TH mRNA is about 30% less than the number of cells containing TH immunoreactivity in adjacent sections. The ratio of TH mRNA-containing cells to TH-immunoreactive vagal and enteric cells is even less at Day E12, especially in more caudal regions of the preumbilical bowel. A similar decline in the ratio of TH mRNA-containing to TH-immunoreactive cells was not observed in sympathetic ganglia. After Day E12 TH mRNA cannot be detected in enteric or vagal cells by in situ hybridization; nevertheless, TH immunoreactivity continues to be present through Day E14. DBH, NPY, and NGF receptor immunoreactivities are expressed by TH-immunoreactive transitional cells in the fetal rat gut after TH mRNA is no longer detectable.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Transiently catecholaminergic (TC) cells in the bowel of the fetal rat: precursors of noncatecholaminergic enteric neurons. 197 56

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