Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

Opioids and some alpha 2-adrenergic agonists are both known for their potent hypotensive actions following local application to the rostral ventrolateral medulla (RVL), in particular the region containing the C1 adrenergic neurons. We sought to determine whether coexistence and/or synaptic interactions might account for the commonality of cardiovascular responses to opioids and catecholamines in the RVL. Dual light and electron microscopic (EM) immunoperoxidase labeling of a rat monoclonal antibody against the opioid peptide Leucine5 (Leu5)-enkephalin and immunoautoradiographic localization of a rabbit antiserum against the catecholamine synthesizing enzyme tyrosine hydroxylase (TH) were examined in single sections through the RVL of adult colchicine-pretreated rats. Cross-reactivity of the enkephalin antibody was most intense with Leu5-enkephalin. Methionine5-enkephalin as well as dynorphin A, but not beta-endorphin, were also recognized by the antisera. By light microscopy, the Leu5-enkephalin-like immunoreactivity (LE-LI) was identified by peroxidase reaction product in perikarya and processes. Most of the perikarya containing LE-LI were located dorsolaterally or ventromedially to those showing immunoautoradiographic labeling for TH. However, a few perikarya appeared to contain both LE-LI and TH-immunoreactivity (TH-I) which were difficult to differentiate by light microscopy. By EM, perikarya and dendrites immunoreactive for LE, TH, and both LE and TH were readily distinguishable. Perikarya and dendrites immunoautoradiographically labeled for TH alone were more numerous than those containing LE-LI or TH-I and LE-LI. Axon terminals also were immunolabeled either for one or both reaction products. However, the TH-labeled neurons constituted one of the primary (42% from a total of 118) targets of terminals containing LE-LI. Additionally, some of these terminals containing LE-LI shared a common target with TH-labeled terminals. These common target neurons contained either TH-I or TH-I and LE-LI. In most cases, the identified junctions were symmetric and the terminals with LE-LI (0.4-1.2 microns in diameter) contained either (1) a few small clear vesicles (scv's) and numerous intensely immunoreactive large (100-150 nm) dense-core vesicles (dcv's); or (2) many scv's and from 0-6 dcv's of a somewhat smaller (80-120 nm) diameter. The latter type of terminal was more consistently dually labeled for TH. The remaining terminals containing LE-LI formed synaptic junctions with unlabeled perikarya or dendrites (32%), were in apposition to other unlabeled as well as TH or LE- and TH-containing terminals (4%) or were without recognizable specializations within the plane of section (22%).(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Ultrastructural basis for interactions between central opioids and catecholamines. I. Rostral ventrolateral medulla. 256 65

A study was made of the distribution of sympathetic preganglionic neurons identified by retrograde labeling with horseradish peroxidase from various peripheral nerve trunks and of the distributions of monoaminergic terminals in the spinal cord of the rat. Nerve terminals were stained immunohistochemically by using antisera raised against tyrosine hydroxylase, phenylethanolamine-N-methyl-transferase, neuropeptide Y, and 5-hydroxytryptamine and by using formaldehyde-induced fluorescence. The three-dimensional distribution of sympathetic preganglionic neurons was described by using computer reconstruction and compared with the arrangement of each population of immunohistochemically stained terminals in the intermediate zone. Although monoaminergic terminals are associated with most sympathetic neurons, particularly in the intermediolateral column, the relationship of many terminals to sympathetic neuron somata in other parts of the intermediate zone is tenuous. Some of the descending innervation may terminate on interneurons. The data are consistent with the coexistence of phenylethanolamine-N-methyl-transferase and neuropeptide Y in terminals arising from cell bodies in the C1 region in the ventrolateral medulla and with the presence of at least two populations of catecholaminergic terminals as well as the adrenergic one. Serotoninergic terminals are denser and have a different arrangement from those of catecholaminergic terminals in the intermediate zone.
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PMID:Distribution of sympathetic preganglionic neurons and monoaminergic nerve terminals in the spinal cord of the rat. 256 44

Interactions between central opioids and catecholamines are thought to underlie the ability of adrenergic agonists both to lower blood pressure and alleviate certain symptoms of opiate withdrawal. We examined the cellular substrate for interactions between neurons containing enkephalin-like opioid peptides and catecholamines in cardiovascular portions of the medial nuclei of the solitary tracts (m-NTS) of adult rats. Single sections were dually labeled using a double-bridged peroxidase method for the localization of a monoclonal leucine (Leu5)-enkephalin-antibody and immunoautoradiography for the localization of polyclonal antibodies against the catecholamine-synthesizing enzyme tyrosine hydroxylase (TH). Light microscopy revealed a few perikarya and numerous varicosities containing Leu5-enkephalin-like immunoreactivity (LE-LI). These were distributed among TH-labeled perikarya and processes throughout the rostrocaudal NTS. Electron microscopy of the m-NTS at the level of the area postrema further established the single as well as dual localization of TH and LE-LI in individual perikarya, dendrites, and axon terminals. Silver grains indicative of TH-labeling were usually distributed throughout the cytoplasm, whereas the peroxidase reaction product for LE-LI was localized principally to large (80-150 nm), dense-core vesicles. Immunoautoradiographic labeling for TH was detected in 118 terminals within a series of sections containing 183 terminals with LE-LI. Of these, 26% of the TH-labeled terminals and 32% of the enkephalin-containing terminals formed symmetric synapses with unlabeled dendrites, while only 7% of each type formed symmetric synapses with TH-labeled dendrites. In favorable planes of sections, the unlabeled as well as TH-labeled dendrites received convergent input from both types of terminals. A few of the remaining terminals that contained either TH or LE-LI formed asymmetric junctions with unlabeled distal dendrites; the others were without recognizable synaptic specializations within the plane of section. Approximately 20% of the TH-labeled terminals and 6% of the terminals containing LE-LI were dually labeled for both antibodies. These were invested with astrocytic processes characterized by bundles of intermediate filaments. We conclude that within cardiovascular portions of the m-NTS, opioid peptides and catecholamines contained within the same or separate terminals modulate the activity of target neurons through direct symmetric, probably inhibitory, synaptic junctions and may additionally modulate the activity of neighboring astrocytes through exocytotic release from large dense-core vesicles.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Ultrastructural basis for interactions between central opioids and catecholamines. II. Nuclei of the solitary tracts. 256 12

Cryostat- and vibratome-cut sections of rat kidneys were singly or doubly labeled to visualize immunoreactive tyrosine hydroxylase (THI), dopamine beta-hydroxylase (DBHI), vasoactive intestinal peptide (VIPI), and neuropeptide Y (NPYI). Rats were perfusion fixed with 2-4% paraformaldehyde with or without 0.15% picric acid and rinsed in buffer for 18-48 hr. Single antigens were labeled with horseradish peroxidase in vibratome sections, whereas cryostat sections were used to label one antigen with peroxidase and another with a fluorophore in the same tissue section. A dense plexus of DBHI noradrenergic nerves innervates the renal arterial tree, and such nerves innervate the interlobar veins and renal calyx as well. Immunoreactive NPY is colocalized in most of these nerves, but some intrarenal noradrenergic nerves do not contain NPY but do contain VIP immunoreactivity. The distribution of NPYI nerves resembles that of DBHI nerves, whereas most perivascular noradrenergic nerves immunoreactive for VIP innervate selected arcuate and interlobular arteries. A small population of nonadrenergic, VIPI nerves innervates the renal calyx.
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PMID:Identification of noradrenergic nerve terminals immunoreactive for neuropeptide Y and vasoactive intestinal peptide in the rat kidney. 256 49

A quantitative study of the morphology and distribution of norepinephrinergic neurons in the human locus coeruleus (LC) is given for normal young and older adult brain. Norepinephrine (NE)-producing neurons are identified by immunocytochemistry of two NE biosynthetic enzymes, tyrosine hydroxylase (TH) and dopamine-beta-hydroxylase (DBH), visualized by the peroxidase-antiperoxidase and immunogold-silver-staining methods. TH and DBH immunoreactions yield equivalent results. Both immunocytochemical visualization methods allow detailed analysis of neuronal morphology. The neurons of the human LC fall into four classes: large multipolar neurons with round or multiangular somata, large elliptical "bipolar" neurons, small multipolar neurons, and small ovoid "bipolar" neurons. Though most of the neurons contain neuromelanin pigment, some larger neurons lack pigmentation. Dendritic arborization of all neurons is extensive. Computer-assisted quantitative measurements of the parameters somatic size, dendritic arbor length, surface area, and volume are given. Somatic areas of LC neurons of all four classes are decreased in older adult brain, but dendritic arborization is equally extensive as in the younger. The rostrocaudal length of the LC is approximately 15 mm, and no age-dependent decrease is observed. Computer-assisted mapping of immunoreactive neurons and three-dimensional reconstruction allow division of the LC into rostral, middle, and caudal parts with characteristic distribution of neurons. Small neurons predominate in all parts, but the relative contribution of larger cells decreases in a rostrocaudal direction. A cell loss of 27-37% occurs in older adult brains and to 55% in the brain of a chronically depressed patient without dementia. Cell loss is highest in the rostral part, lower in the middle, and absent in the caudal part, and more small cells are lost than larger ones.
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PMID:Quantitation of catecholamine neurons in the locus coeruleus in human brains of normal young and older adults and in depression. 257 Jul 93

An antibody to tyrosine hydroxylase has been used in a correlated light and electron microscopic study to characterize dopaminergic neurons and synaptic junctions in three-dimensional reaggregate cell culture. Dissociated fetal mesencephalic cells containing dopamine neurons were coaggregated with dissociated fetal striatal cells in rotatory culture for 21 days. Sections of the coaggregates were stained by the peroxidase anti-peroxidase technique to reveal tyrosine hydroxylase-immunoreactive structures. Clusters of immunoreactive perikarya as well as dendrites and axons were observed. Immunolabeled perikarya were round or oval and approximately 20 microns in diameter. Boutons immunoreactive for tyrosine hydroxylase formed symmetric synapses, primarily with unlabeled dendritic shafts. Symmetric membrane specializations were also observed between tyrosine hydroxylase-positive boutons and unlabeled dendritic spines as well as with the perikaryon of an unlabeled medium-size neuron possessing a slightly indented nucleus. To characterize the neurochemical nature of the neurons postsynaptic to tyrosine hydroxylase-positive boutons in the reaggregates, an antibody against DARPP-32 (a dopamine and adenosine 3':5'-monophosphate-regulated phosphoprotein) and an antibody against tyrosine hydroxylase were employed to visualize striatal dopaminoceptive neurons and dopaminergic structures, respectively, in the same section. Examination of reaggregate sections at the light microscopic level demonstrated that DARPP-32-immunoreactive cells were distributed into discrete clusters that were associated with patches of tyrosine hydroxylase-positive axonal varicosities. Ultrastructural analysis of tyrosine hydroxylase-positive boutons in such clusters revealed that dopaminergic axons synaptically contacted DARPP-32-immunoreactive neurons as well as unlabeled neuronal structures.
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PMID:Correlated light and electron microscopic study of dopaminergic neurons and their synaptic junctions with DARPP-32-containing cells in three-dimensional reaggregate tissue culture. 257 12

Pharmacological and biochemical studies suggest that interactions between cholinergic and catecholaminergic and catecholaminergic neurons, particularly those of the C1 adrenergic cell group, in the rostral ventrolateral medulla (RVL) may be important in cardiovascular control. Ultrastructural localization of choline acetyltransferase (ChAT), the biosynthetic enzyme for acetylcholine, and its relation to neurons exhibiting immunoreactivity for catecholamine- (tyrosine hydroxylase; TH) or adrenaline (phenylethanolamine-N-methyltransferase; PNMT) -synthesizing enzymes were examined in the RVL using dual immunoautoradiographic and peroxidase anti-peroxidase (PAP) labeling methods. By light microscopy, the ChAT-immunoreactive neurons were located both dorsally (i.e. the nucleus ambiguus) and ventromedially to those labeled with TH or PNMT (TH/PNMT). A few ChAT-labeled processes were dispersed among TH/PNMT-containing neurons with the majority of overlap immediately ventral to the nucleus ambiguus. By electron microscopy, ChAT-immunoreactivity (ChAT-I) was detected in neuronal perikarya, dendrites, axons and axon terminals and in the vascular endothelial cells of certain blood vessels. The ChAT-labeled perikarya in the ventromedial RVL were medium-sized (15-20 microns), elongated, contained abundant cytoplasm and had had slightly indented nuclei. Synaptic junctions on ChAT-immunoreactive perikarya and dendrites were primarily symmetric with 64% (45 out of 70) of the presynaptic terminals unlabeled. The remaining terminals were immunoreactive for ChAT (30%) or TH/PNMT (6%). Terminals with ChAT-I were large (0.8-2.0 microns) and contained numerous small clear vesicles and 1-2 dense core vesicles. Seventy-seven percent (112 out of 145) of the ChAT-labeled terminals formed symmetric synapses with unlabeled perikarya and dendrites, whereas only 8% were with TH/PNMT-labeled perikarya and dendrites, and 15% were with ChAT-immunoreactive perikarya and dendrites. We conclude (1) that cholinergic neurons in the RVL principally terminate on and receive input from non-catecholaminergic neurons, and (2) that the reported sympathetic activation following application of cholinergic agents to the RVL may be mediated by cholinergic inhibition of local inhibitory interneurons. The observed synapses between ChAT and TH/PNMT-containing neurons suggests that cholinergic and adrenergic neurons additionally may exert a minor reciprocal control on each other and thus may modulate their response to the more abundant input from afferents containing other transmitters.
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PMID:Ultrastructural localization of choline acetyltransferase in the rat rostral ventrolateral medulla: evidence for major synaptic relations with non-catecholaminergic neurons. 257 7

Previous reports from this laboratory have indicated that fetal rat striatal grafts have the major types of neuronal and glial components known to be involved in Huntington's chorea. In this study a number of major afferent and efferent innervations seen in normal striatum were examined in the striatal grafts and were compared with embryonic striatal afferents. First, using immunocytochemistry and histochemistry, the host serotonergic (5-HT), dopaminergic (DA, stained with anti-tyrosine hydroxylase (TH) antiserum), and acetylcholinesterase (AChE) fibers exhibited vigorous growth into the grafts implanted in neostriatum, lateral ventricle, globus pallidus or substantia nigra within a period of 6 and 10 weeks. Individual characteristic terminal patterns formed in striatal grafts: 5-HT fibers were diffused; TH fibers became heavily packed, and AChE fibers were patchy. This peculiar patternization of 5-HT and TH growth into striatal graft appeared to be a recapitulation of the normal 5-HT and TH ingrowth into striatum in the embryonic stage. However, a significantly slow (6 week) onset of adult 5-HT and TH ingrowth into the fetal graft was noted, as compared with that of normal embryonic development (5-6 days from the appearance of 5-HT and TH neurons). With the anterograde-transport marker Phaseolus vulgaris agglutinin leuca method, host cortical neurons also projected to the graft, but in limited numbers. Finally, with the retrograde-transport marker (horseradish peroxidase method, the grafts implanted in neostriatum were found incapable of sending fibers to a major, distal target, substantia nigra. In a current evaluation of striatal transplants, it is shown that major input to the graft can be achieved over time, but output to the distal nigra seems an unrealistic expectation. These data suggest that: (1) the fetal brain tissue was found to be a strong stimulant for sprouting or regeneration of adult nerve fibers; (2) a number of functional recoveries reported on the tested behavior paradigm in this grafting model could be due to the survival of striatal graft and the establishment of input circuitries; further, (3) the data illustrate the necessity of seeking a bridge from the striatal transplant to the host nigra. If a proper functional recovery in Huntington's chorea requires complete striatonigral circuitry, then such a bridge is worthy of a major investigation.
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PMID:Connectivities of the striatal grafts in adult rat brain: a rich afference and scant striatonigral efference. 259 10

The presence of the catecholamines dopamine and noradrenaline in the posterior pituitary is well documented. Dopaminergic terminals are thought to derive from cells in the periventricular hypothalamus including the rostral arcuate nucleus, but the origin of the noradrenergic terminals is uncertain. The majority of central noradrenaline-containing neurons are in the brainstem and lesions of the ventral noradrenergic tract significantly reduce the noradrenaline content of the neural lobe. We have explored the possibility of a direct noradrenergic projection from the brainstem to the neural lobe using as a retrograde tract tracer horseradish peroxidase alone or in combination with immunohistochemical detection of tyrosine hydroxylase. Horseradish peroxidase was injected into the neural lobes of 20 rats using a ventral approach, and the animals were perfusion fixed 12 h later. In all 20 cases, cells retrogradely labelled with horseradish peroxidase were found not only in the periventricular zone and magnocellular nuclei of the hypothalamus but also in the A2 region of the brainstem. In all six cases simultaneously processed for horseradish peroxidase and tyrosine hydroxylase immunohistochemistry, retrogradely labelled cells in both the arcuate nucleus and A2 region were found to be tyrosine hydroxylase-positive. These findings demonstrate the presence of a direct projection from catecholaminergic neurons in the A2 region of the brainstem to the neurohypophysis. Since catecholaminergic neurons in this region are known to be noradrenergic and lesions of the ventral noradrenergic tract deplete the neurohypophysis of noradrenaline, these neurons may represent an important source of noradrenaline in the neurohypophysis.
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PMID:A direct catecholaminergic projection from the brainstem to the neurohypophysis of the rat. 260 53

Embryonic neural tissues were taken from the ventral mesencephalon, the striatal anlage, the cerebellum, or the dorsal telencephalon. Prior to grafting these tissues were dissociated. This provided the opportunity to generate experimental cografts and allowed the introduction of neuronal tracers. Projections from grafts that contained dopaminergic neurons of the mesencephalon were identified immunocytochemically with antisera to tyrosine hydroxylase. Acetylcholinesterase histochemistry was employed to both stain the graft and to visualize graft efferent fibers. Moreover, dissociated tissues, with the exception of the ventral mesencephalon, were treated in vitro with rhodamine-conjugated microspheres. The immature cells incorporated the tracer in vitro. Labeled grafts were placed adjacent to large fiber tracts of the recipient brain or into the lateral ventricle and grown for one to two months. Different types of neurons within the grafts retained the rhodamine tracer. Some of the labeled neurons were positive for acetylcholinesterase. Efferent fibers from the different neural grafts followed similar routes within the host brain. Fibers containing microspheres projected commonly along the nearest host pathway or the labeled fibers followed the reactive glia along the original stab wound. Grafts that were located within the lateral ventricle projected their efferent fibers adjacent to the ventricular surface. Similar routes were followed by efferent fibers from transplanted dopaminergic neurons. One of the projection routes along the hosts corpus callosum was confirmed by horseradish peroxidase tracer transport. We conclude that elongation of graft pathways may occur along existing fiber tracts of the host brain, near structures of the ventricular surface, and alongside glia scars of a graft placement tract.
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PMID:Neo-pathway formation of dissociated neural grafts demonstrated by immunocytochemistry, fluorescent microspheres, and retrograde transport. 273 Oct 44


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