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)

Cultured human neuroblastoma cell lines were assayed for biochemical characteristics of neuonal function. Cell lines studied included LA-N-1, LA-N-2, IMR-32, SK-N-SH, and SK-N-MC. Veratridine-dependent uptake of 22Na+ implied the presence of the action potential Na+ ionophore in LA-N-1, LA-N-2, IMR-32, and SK-N-SH. The time course of 22Na+ uptake and inhibition of uptake by tetrodotoxin supported this. SK-N-MC had no veratridine-dependent 22Na+ uptake. Tyrosine hydroxylase (EC 1.14.10.), glutamic acid decarboxylase (EC 4.1.1.15), and acetylcholine contents in neuroblastoma cells were compared to those in brain. LA-N-1 and IMR-32 contained 15 and 5 times as much tyrosine hydroxylase, respectively, whereas LA-N-2, SK-N-SH, and SK-N-MC contained only 0.5 to 5% of that in brain. Acetylcholine was present in -LA-N-2 in 15- to 20-fold greater quantities than in brain; other lines had only 10 to 50% of that in brain. None of the cell lines contained glutamic acid decarboxylase. Thus, continuously propogated human neuroblastoma cell lines may have the action potential Na+ ionophore and may be adrenergic (LA-N-1 and IMR-32), cholinergic (LA-N-2), or inactive (SK-N-SH and SK-N-MC). This is the first demonstration of the action potential Na+ ionophore and of acetylcholine production in human neuroblastoma cell lines.
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PMID:Adrenergic, cholinergic, and inactive human neuroblastoma cell lines with the action-potential Na+ ionophore. 1 22

Embryonic striatal grafts develop a modular organization in which patches of tissue enriched in many transmitter substances characteristic of striatum (P regions) are embedded in surrounds (NP regions) expressing only low levels of these substances. Catecholaminergic fibers from the host brain, identified by their expression of tyrosine hydroxylase (TH), grow into such grafts and selectively terminate in the striatum-like P regions. This terminal pattern suggests that cell-cell affinities between neurons of the substantia nigra and striatum may play a role either in the aggregation of the striatal cells into P regions, or in the targeting of the TH-positive fibers to the cell clusters. In the present study, we tested the first of these possibilities. Striatal grafts derived from embryonic day 15 striatal primordia were implanted into the ibotenate-damaged host striatum of rats previously treated with 6-hydroxydopamine (6-OHDA) to destroy TH-containing dopaminergic nigrostriatal afferents. The 6-OHDA lesions that eliminated nearly all TH-like immunostaining in the host striatum also resulted in disappearance of nearly all TH-positive fibers in the grafts. In this dopamine-depleted environment, the grafts nevertheless developed a clear modular organization. They contained striatum-like patches with neurons expressing many of the neurochemicals characteristic of striatum (ACh, ChAT, calbindin-D28KD, met-enkephalin, and dopamine- and adenosine 3':5'-monophosphate-regulated phosphoprotein-32,000 or DARPP-32), and these patches were surrounded by graft tissue expressing few of these striatal markers. These observations suggest that the ingrowth of TH-positive fibers from the host is not obligatory for the sorting out of striatal from nonstriatal cells during the formation of P regions in embryonic striatal grafts. Despite the fact that dopaminergic denervation of the host striatum did not disrupt either the aggregation of grafted cells into P regions or the acquisition of striatal neurochemical phenotypes by cells in the P regions, there were clear differences between the staining patterns of these grafts and grafts placed into dopamine-innervated striatum. Most striking was a sharp increase of met-enkephalin-like immunostaining in the P zones of the denervated grafts. Upregulation of met-enkephalin is known to occur in the dopamine-depleted mature striatum, and was observed in the parts of host striatum surrounding the grafts on the side ipsilateral to the 6-OHDA lesions. This result suggests that functional interactions between dopaminergic and enkephalinergic systems can occur in the striatal circuits reconstructed by embryonic striatal grafting. More generally, our results suggest that TH-containing afferents from the host striatum, though not required for induction and maintenance of striatal phenotypy in striatal grafts, can chronically regulate neurotransmitter/neuromodulator expression in neurons of the striatum-like P zones in a manner similar to that found for the normal striatum.
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PMID:Influence of mesostriatal afferents on the development and transmitter regulation of intrastriatal grafts derived from embryonic striatal primordia. 127 38

Primary cultures of bovine adrenal medullary cells (AM) in a chemically defined media were used to examine the role of neural and hormonal factors in the expression of proenkephalin A (pEK), phenylethanolamine N-methyltransferase (PNMT) and tyrosine hydroxylase (TH) genes. Acetylcholine or nicotine reduced cellular content of catecholamines by 30% and increased the relative abundance of pEK, TH, and PNMT mRNAs. The increases produced by acetylcholine were +129%, +147%, and +43% for pEK, TH, and PNMT mRNA, respectively. The kinetics of increases produced by nicotine were different for the 3 mRNAs, with pEK and TH showing enhanced levels over 48 h incubation, while PNMT showed increase during the initial 18 h (+90%) followed by decline to control levels at 48 h. 8-Br cAMP and forskolin elicited a similar pattern of changes as nicotine, suggesting that cyclic AMP may be involved in the mediation of the nicotinic effects. To examine the role of depletion of cellular catecholamines in the regulation of mRNA levels, cells were exposed to tetrabenazine or reserpine. Decreases in cellular catecholamine contents were accompanied by increases in TH and pEK mRNA levels, while the expression of PNMT gene exhibited a transient 4-fold increase and then profound inhibition (60-95%) over a 48-h period. The tetrabenazine effect on TH and pEK mRNA was reduced by alpha-amanitin, suggesting transcriptionally-mediated regulation. Inductions of pEK but not TH or PNMT mRNAs were inhibited by cycloheximide. Hormonal regulation of TH, PNMT, and pEK mRNAs was examined by incubation of cells with dexamethasone. Low concentrations of dexamethasone (0.1, 10 nM) were effective to increase PNMT (+35%, +90%) and pEK (+27%, 45%) mRNA levels. TH mRNA was not affected by similar concentrations of dexamethasone, however, there was a 45% increase at 1 microM. Dexamethasone-elicited increases in PNMT mRNA levels were observed at 48 h and persisted up to 7 days, suggesting that hormonal mechanisms may be distinct from those mediating effects of nicotine, cAMP or tetrabenazine. Taken together, these results indicate that (1) the level of TH, PNMT, and pEK mRNAs are regulated by direct neural (acetylcholine) and hormonal (glucocorticoid) inputs to adrenal medullary cells; (2) effects of acetylcholine could be mediated by cyclic AMP and alterations in catecholamine content; and (3) expression of individual genes is regulated differentially. Such differential regulation of TH, PNMT, and pEK mRNAs may contribute to the long-term selective control of hormonal output from adrenomedullary cells.
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PMID:Coordinate and differential regulation of phenylethanolamine N-methyltransferase, tyrosine hydroxylase and proenkephalin mRNAs by neural and hormonal mechanisms in cultured bovine adrenal medullary cells. 197 May 6

Ca2+-dependent protein phosphorylation has been detected in numerous tissues and may mediate some of the effects of hormones and other extracellular stimuli on cell function. In this paper we demonstrate that a Ca2+/calmodulin-dependent protein kinase similar to the enzyme previously purified and characterized from rat brain is present in PC12, a rat pheochromocytoma cell line. We show that Ca2+ influx elicited by various forms of cell stimulation leads to increased 32P incorporation into tyrosine hydroxylase (TH), a major phosphoprotein in these cells. Several other unidentified proteins are either phosphorylated or dephosphorylated as a result of Ca2+ influx. Acetylcholine stimulates TH phosphorylation by activation of nicotinic receptors. K+-induced depolarization stimulates TH phosphorylation in a Ca2+-dependent manner, presumably by opening voltage-dependent Ca2+ channels. Ca2+ influx that results from the direct effects of the ionophore A23187 also leads to TH phosphorylation. Phosphorylation of TH is accompanied by an activation of the enzyme. These Ca2+-dependent effects are independent of cyclic AMP and thus implicate a Ca2+-dependent protein kinase as a mediator of both hormonal and electrical stimulation of PC12 cells.
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PMID:Ca2+-dependent phosphorylation of tyrosine hydroxylase in PC12 cells. 241 38

Acetylcholine, released from splanchnic nerve terminals innervating adrenal chromaffin cells, is known to increase synthesis of adrenal tyrosine hydroxylase, the rate-limiting enzyme in catecholamine synthesis. The neuropeptide substance P is also present in the splanchnic nerve innervating the adrenal medulla, and this study examined whether substance P has any long-term effects on tyrosine hydroxylase activity and catecholamine levels in cultures of adult bovine adrenal chromaffin cells. When cultures were incubated for 3 days with substance P and carbachol, a cholinergic agonist, substance P (10(-6) M, and greater) completely inhibited the increase in tyrosine hydroxylase activity normally induced by carbachol. Long-term stimulation with carbachol also depleted endogenous catecholamines from the cells and substance P prevented this carbachol-induced depletion of catecholamine content. Substance P by itself, in the absence of carbachol, had only a slight effect on tyrosine hydroxylase activity. 8-Bromoadenosine 3':5'-cyclic monophosphate, an analogue of adenosine 3':5'-cyclic monophosphate, also increases tyrosine hydroxylase activity in chromaffin cells; however, substance P had no effect on the increase in tyrosine hydroxylase activity induced by this analogue. These results indicate that substance P's effects are relatively specific for the carbachol-induced increased in tyrosine hydroxylase activity and that the primary site of action of substance P is not a site common to the mechanism of tyrosine hydroxylase induction by carbachol and 8-bromoadenosine 3':5'-cyclic monophosphate.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effects of substance P on the long-term regulation of tyrosine hydroxylase activity and catecholamine levels in cultured adrenal chromaffin cells. 243 94

Peptide-containing nerves have been examined in the rat femoral artery and vein using immunocytochemical and vasomotor techniques. The general neuronal marker PGP 9.5 revealed a moderate supply of nerve fibres and fascicles forming a loose network in the adventitia and the adventitial-medial border of the artery and vein. The majority of the nerve fibres in both the artery and vein displayed immunoreactivity for neuropeptide Y (NPY) and tyrosine hydroxylase (TH). The distribution pattern and number of these two types correlated well. The artery had a slightly richer PGP 9.5- immunoreactive nerve supply compared to the vein, but the nerve plexus in the vein displayed a more uniform arrangement. In contrast, relatively few nerve fibres displayed calcitonin gene-related peptide, substance P, or vasoactive intestinal peptide immunoreactivity in either the artery or vein. The calcitonin gene-related peptide immunoreactive fibres had a similar distribution to that of the substance P containing fibres. Using a sensitive in vitro method the vasomotor responses to perivascular peptides were characterized. In the femoral artery NPY potentiated alpha 1-adrenoceptor mediated contractions, and had very little effect by itself. In contrast, 10(-7) M NPY contracted femoral veins by up to 68% relative to 60 mM potassium induced contraction, and there was no potentiation of alpha-adrenoceptor mediated contractions. Acetylcholine, peptide histidine isoleucine, vasoactive intestinal peptide, substance P and calcitonin gene-related peptide, all relaxed the contracted femoral artery and vein. Regarding the putative parasympathetic neurotransmitters, acetylcholine caused stronger relaxation of veins as compared to arteries whereas for vasoactive intestinal peptide and peptide histidine isoleucine the relaxations were stronger in the arterial preparation. These three agonists were more potent in the femoral vein. Substance P was more potent on the femoral vein, having the same maximum response in both preparations. On the other hand, the response induced by CGRP was some three times greater in the venous than in the arterial preparation. These data reveal that although there appear to be only minor differences in the peptidergic innervation of the rat femoral artery and vein pronounced differences occur in the peptide effector responses. The data support the concept that perivascular peptides play different roles in regulating various parts of the circulation.
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PMID:Peptide-containing nerves in the rat femoral artery and vein. An immunocytochemical and vasomotor study. 248 49

The ability to vary systematically the neuronal environment is one advantage afforded by the use of cell culture. Replacement of serum, a variable and undefined medium supplement, with known ingredients allows even greater control of culture conditions. We have studied biochemical and morphological properties related to neurotransmitter metabolism of rat sympathetic neurons cultured in a modified defined medium. Neuronal survival, ultrastructure, and expression of noradrenergic properties appear similar in serum-free and serum-supplemented cultures: small granular vesicles characteristic of norepinephrine storage were observed in both types of culture, and tyrosine hydroxylase activity, conversion of dopamine to norepinephrine, catecholamine production, and storage capacity are equivalent in serum-free and serum-containing cultures. Several of these properties were not exhibited at high levels in previous formulations of this defined medium. Acetylcholine production, however, was about 10-fold lower in serum-free compared to serum-supplemented cultures, consistent with the findings of lacovitti et al. (lacovitti, L., M. I. Johnson, T. H. Joh, and R. P. Bunge (1982) Neuroscience 7:2225-2239). Acetylcholine production can be induced under serum-free conditions by a previously characterized cholinergic inducing factor from heart cell conditioned medium. This responsiveness to serum-free heart cell conditioned medium indicates that serum-free cultures retain plasticity with respect to transmitter status, despite expression of noradrenergic characteristics, unlike cultured neurons of which the noradrenergic transmitter status is maintained by chronic depolarization. Thus, sympathetic neurons survive, express numerous differentiated properties, and display a novel transmitter status under serum-free conditions.
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PMID:Expression of noradrenergic and cholinergic traits by sympathetic neurons cultured without serum. 286 Dec 57

The distribution of acetylcholine neurons in the brainstem of the cat was studied by choline acetyltransferase (ChAT) immunohistochemistry and compared to that of catecholamine neurons examined in the same or adjacent sections by tyrosine hydroxylase (TH) immunohistochemistry. The largest group of ChAT-positive (+) neurons was located in the lateral pontomesencephalic tegmentum within the pedunculopontine tegmental nucleus and the laterodorsal tegmental nucleus rostrally and within the parabrachial nuclei and locus coeruleus nucleus more caudally. TH+ neurons were found to be coextensive and intermingled with ChAT+ neurons in the dorsolateral pontomesencephalic tegmentum, where the number of ChAT+ cells (approximately 18,500) exceeded that of the TH+ cells (approximately 12,000). In the caudal pons, scattered ChAT+ neurons were situated in the ventrolateral tegmentum together with TH+ neurons. In the medulla, numerous ChAT+ cells were located in the lateral tegmental field, where they extended in a radial column from the dorsal motor nucleus of the vagus to the ventrolateral tegmentum around the facial and ambiguus nuclei, occupying the position of preganglionic parasympathetic neurons of the 7th, 9th, and 10th cranial nerves. TH+ cells were also present in this field. Neurons within the general visceral, special visceral, and somatic motor cranial nerve nuclei were all immunoreactive to ChAT. Scattered ChAT+ neurons were also present within the medullary gigantocellular and magnocellular tegmental fields together with a small number of TH+ neurons. Other groups of ChAT+ cells were identified within the periolivary nuclei, parabigeminal nucleus, prepositus hypoglossi nucleus, and the medial and inferior vestibular nuclei. Acetylcholine neurons thus constitute a heterogeneous population of cells in the brainstem, which in addition to including the somatic and visceral efferent systems, comprises many other discrete systems and represents an important component of the brainstem reticular formation. The proximity to and interdigitation with catecholamine neurons within these systems may be of important functional significance.
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PMID:Distribution of acetylcholine and catecholamine neurons in the cat brainstem: a choline acetyltransferase and tyrosine hydroxylase immunohistochemical study. 288 93

A low-molecular-weight component present in medium conditioned by cultured chick liver cells (LCM) enhances the adrenergic properties of dissociated chick superior cervical ganglion (SCG) neurons in culture (Zurn and Mudry, 1986). This substance cannot replace NGF as a survival, growth, or differentiation factor. However, in the presence of NGF, it stimulates neuronal metabolism and catecholamine (CA), but not ACh production by the SCG neurons. The effect on transmitter production is greater than that on neuronal metabolism. Yet this is not due to an increase in the specific activity of tyrosine hydroxylase (TH), the rate-limiting enzyme in CA synthesis. Interestingly, the effect of LCM on CA and ACh production, but not on neuronal metabolism, is potentiated in the presence of a large excess of NGF. The active component(s) present in LCM has a molecular weight lower than 500 Da and is not inactivated by heat or pronase treatment. So far, none of the small molecules tested (ascorbic acid, pyruvate, glucose, L-glutamic acid, glutathione, etc.) were able to mimic the effects of LCM on the SCG neurons. Thus this report describes a novel low-molecular-weight component different from NGF that promotes metabolism and adrenergic development in cultured chick sympathetic neurons.
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PMID:A new low-molecular-weight component promoting adrenergic development in cultured chick sympathetic neurons. 289 Jul 20

Acetylcholine acts via presynaptic receptors to inhibit adrenergic neurotransmission in vascular tissue. To test the possibility that this modulation might be altered by hyperactivity of the sympathetic nervous system, rats were exposed to cold stress for 5 days. Rat caudal (tail) arteries were excised, cannulated and perfused at constant flow. Responses to transmural nerve stimulation and/or acetylcholine were measured. In arteries from nonstressed rats, acetylcholine produced a dose-dependent inhibition of responses to nerve stimulation of 10 Hz. Likewise, acetylcholine (32 ng/ml) produced a frequency-dependent inhibition to nerve stimulation. Cold stress elevated sympathetic nerve activity in the tail artery as indicated by increased tyrosine hydroxylase activity. Responses to exogenous norepinephrine alone were not different between arteries from cold-stressed and nonstressed rats. In arteries from cold-stressed rats, acetylcholine inhibited the response to nerve stimulation in a dose-dependent manner and at each dose of acetylcholine the inhibition was greater than in arteries from nonstressed rats. Likewise, the inhibition of the frequency-dependent responses to nerve stimulation by acetylcholine was greater in arteries from cold-stressed than from nonstressed rats. These data show that after chronic elevation of vasomotor tone, acetylcholine is a more effective modulator of neurogenic tone which indicates the development of the functional equivalent of supersensitivity of presynaptic receptor-mediated events.
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PMID:The effect of cold stress on the modulation of vascular adrenergic transmission by acetylcholine. 611 78

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