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)

Neuronal antigens can be demonstrated histologically by numerous direct and indirect immunocytochemical techniques in which a specific antibody is identified by a marker compound such as fluorescein isothiocyanate, ferritin, or horseradish peroxidase. One of the more sensitive methods for the light and electron microscopic localizations of antigens in sections of tissue is the peroxidase-antiperoxidase (PAP) technique. The experimental procedures and the results obtained using this technique for the localization of the catecholamine synthesizing enzyme, tyrosine hydroxylase, are described. The cellular and ultrastructural localization of the enzyme is demonstrated in perikarya, processes, and terminals of catecholaminergic neurons in rat brain. The immunocytochemical localization of tyrosine hydroxylase is compared to the localization of two peptides, substance P and [Met5]-enkephalin, in the A2 region of the medulla. These studies suggest that a synaptic interaction exists between the catecholaminergic neurons and neurons showing positive immunoreactivity for the peptides. The limitations of the PAP immunocytochemical technique are also discussed in relation to the immunocytochemical localization of tyrosine hydroxylase and other antigens.
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PMID:Immunocytochemical localization of neuronal antigens: tyrosine hydroxylase, substance P, [Met5]-enkephalin. 3 6

The dependence of superior cervical ganglion (SCG) adrenergic neurons on their target organ submandibular salivary gland containing high concentrations of nerve growth factor was studied in adult and aged male mice. The submandibular salivary glands were removed (sialectomy) either uni- or bilaterally, and the SCG were studied by fluorescence microscopy and histochemically. Catecholamine fluorescence and tyrosine hydroxylase immunoreactivity decreased after sialectomy, suggesting reduced noradrenaline production. Neuronal density was lower in the aged controls than in the young controls. In both age groups, sialectomy reduced the density of catecholamine-producing neurons. In the mouse SCG, there was remarkable heterogeneity in the size of neuronal somata. In aged control mice there was a greater number of large-size neurons than in young adult control mice. Six weeks postoperatively, no large catecholamine-producing neurons could be observed in the ganglia. Yellow autofluorescent lipopigments accumulated with age in the adrenergic neurons. Sialectomy increased the accumulation of lipopigments in both young and aged neurons. Sialectomy resulted in (a) reduced catecholamine fluorescence, (b) reduced tyrosine hydroxylase immunoreactivity, (c) reduced number of catecholamine neurons, (d) increased autofluorescent lipopigment. Ageing resulted in (a) reduced number of neurons, (b) increased ratio of large to small neurons, (c) increased autofluorescent lipopigment. Alterations after sialectomy were more detrimental in the aged ganglia than in the young adult ganglia. The discontinuation of the retrograde supply of nerve growth factor may contribute to these alterations.
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PMID:Effect of sialectomy on the superior cervical ganglion sympathetic neurons in young adult and aged mice. 134 65

Neuronal expression of c-fos protein (Fos) in the medulla in response to baroreceptor activation was studied in conscious rabbits. Raising arterial pressure resulted in a marked increase, compared to control animals, in Fos immunoreactivity in the nucleus tractus solitarius, area postrema and ventrolateral medulla (VLM). Fos-immunoreactive neurons in the VLM extended from the level just rostral to the obex to 3 mm more caudal. Only a small proportion of these neurons showed tyrosine hydroxylase immunoreactivity. The results indicate that baroreceptor activation induces Fos expression in circumscribed medullary regions which have previously been shown to receive excitatory baroreceptor inputs.
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PMID:Expression of c-fos protein in the medulla oblongata of conscious rabbits in response to baroreceptor activation. 135 81

Rhesus monkeys (Macaca mulatta) reared during the first year of life without social contact develop persistent stereotyped movements, self-directed behaviors, and psychosocial abnormalities, but neurobiological mechanisms underlying the behaviors of socially deprived (SD) monkeys are unknown. Monkeys were reared in total social deprivation for the first 9 months of life; control monkeys were reared socially (SR) with mothers and peers. Subjects were killed at 19-24 yr of age. Because the behaviors of SD monkeys are reminiscent of changes in striatal or amygdalar function, we used immunocytochemistry for substance P (SP), leucine-enkephalin (LENK), somatostatin, calbindin, and tyrosine hydroxylase (TH) to evaluate qualitatively and quantitatively patterns of neurotransmitter marker immunoreactivity within subcortical regions. In SD monkeys, the chemoarchitecture of the striatum was altered. Neuronal cell bodies and processes immunoreactive for SP and LENK were depleted markedly in patch (striosome) and matrix regions of the caudate nucleus and putamen; the average density of SP-immunoreactive neurons was reduced 58% relative to SR monkeys. Calbindin and TH immunoreactivities were diminished in the matrix of caudate and putamen of SD monkeys. TH-immunoreactive neurons, but not cresyl violet-stained neurons, in the substantia nigra pars compacta were decreased (43%) in SD monkeys. Peptide-immunoreactive terminals were reduced in the globus pallidus and substantia nigra in SD monkeys. The nucleus accumbens was the least affected of striatal regions. Striatal somatostatin immunoreactivity wa qualitatively and quantitatively similar in SD and SR monkeys. Several regions, for example, bed nucleus of the stria terminalis, amygdala, and basal forebrain magnocellular complex, that were in the same sections and are enriched in these markers did not appear altered in SD monkeys, suggesting a regional specificity for vulnerability. The altered chemoarchitecture of some basal ganglia regions in adult monkeys that experienced social deprivation as infants suggests that the postnatal maturation of neurotransmitter phenotypes in some structures is influenced by social environment. Abnormal motor and psychosocial behaviors resulting from this form of social/sensory deprivation may result from alterations in peptidergic and dopaminergic systems within the basal ganglia.
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PMID:Social deprivation of infant rhesus monkeys alters the chemoarchitecture of the brain: I. Subcortical regions. 168 26

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

In mice carrying the autosomal recessive gene weaver, there is a massive postnatal loss of dopamine in the caudoputamen, the target of the nigrostriatal system, with relative (though not complete) preservation of dopamine in the ventral striatum, a target of the mesolimbic system. There is concomitant death of catecholaminergic neurons in the substantia nigra, with much less cell death in the limbic midbrain area. In the study reported here, we have reexamined the mesostriatal system of weaver mice by means of tyrosine hydroxylase (TH) immunohistochemistry in order to determine the local architecture of the defect within the striatum and substantia nigra. For the dorsal striatum, the most striking finding was the appearance in the weaver caudoputamen of small pockets of especially weak immunostaining within a larger dorsal zone of generally reduced TH-positive neuropil. These pockets were identified as striosomes by calbindin28k and met-enkephalin immunohistochemistry carried out on adjacent sections. In dorsal, central, and caudal sectors of the caudoputamen, there was also more generalized depletion of TH-immunoreactive neuropil. In the mid-brains of the mutants, the patterns of loss of TH-positive neurons appeared to correspond to these distributions of reduced immunostaining in the striatum. In the substantia nigra pars compacta, ventrally situated TH-positive neurons were especially affected, suggesting preferential depletion of TH-positive neurons projecting to striosomes. In addition, there was a central sector of nearly complete loss of TH-positive neurons in the substantia nigra para compacta and a marked depletion of TH-positive neurons in cell group A8 that, together, may have accounted for the diminution of TH-positive innervation of the striatal matrix. We conclude that the effects of the weaver gene discriminate among mesostriatal subsystems not only according to the regional affiliations of these subsystems within the dorsal and ventral striatum, but also according to the preferential association of the subsystems for the striosomal and matrical compartments of the caudoputamen. The depletion of TH-positive innervation was not confined to the dorsal striatum proper. The defect extended into the adjoining nucleus accumbens, where it appeared to affect the lateral "core" division, and included also a lateral part of the olfactory tubercle. Thus, as in the dorsal striatum, the defect in the TH-positive innervation of the ventral striatum closely follows the local architecture of this striatal region. Neuronal loss in the ventral tegmental area was not evident on qualitative analysis, but at the border between lateral cell group A 10 and medial cell group A9 there was obvious loss of immunostained neurons.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Patterns of cell and fiber vulnerability in the mesostriatal system of the mutant mouse weaver. I. Gradients and compartments. 169 Jul 89

Conventional immunoperoxidase preparations of the coronally sectioned brains of rats killed at various times during the early postnatal period revealed the distributions of tyrosine hydroxylase, substance P, and neurotensin immunoreactivities. At birth, patches of dense tyrosine hydroxylase immunoreactivity were present across the breadth of the rostral striatum, whereas patches displaying substance P immunoreactivity were present only in its lateral half, appearing in its medial half by about postnatal day 3. Neuronal neurotensin immunoreactivity was absent in the rostral striatum at birth, although some neurotensin immunoreactive cells were present in the tail of the caudate-putamen. Rostrally, neurotensin immunoreactive cells appeared first along the lateral margin of the caudate-putamen on postnatal day 3, became numerous there about day 5, spread medially into the striatum by day 7, and achieved their medialmost distribution by about day 10. Their numbers and those of substance P immunoreactive neurons diminished thereafter. Substance P immunoreactive patches, which contained numerous labeled neurons and "puncta," shared coextensive distributions with patches of dense tyrosine hydroxylase immunoreactivity, but interdigitated with neurotensin immunoreactive cell clusters. The neurotensin immunoreactive cell clusters lacked puncta, the light microscopic representation of axon terminals, or swellings. It is concluded that the patchy infrastructure of the striatum, which is established prior to birth, is substrate for the progression of separate "waves" of elevated neuronal peptide content, one reflecting substance P and a later one reflecting neurotensin. These proceed along rostromedialward trajectories to involve interdigitating neuronal domains.
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PMID:Postnatal development of striatal neurotensin immunoreactivity in relation to clusters of substance P immunoreactive neurons and the "dopamine islands" in the rat. 169 90

The arrangement of the enteric nerve plexuses in the colon of the guinea-pig and the distributions and projections of chemically specified neurons in this organ have been studied. Immunoreactivity for neuron specific enolase was used to examine the total population of neurons and individual subpopulations were studied using antibodies raised against calbindin, calcitonin gene-related peptide (CGRP), leu-enkephalin, gastrin releasing peptide (GRP), galanin, gamma aminobutyric acid, neurokinin A, neuropeptide Y (NPY), somatostatin, substance P, tyrosine hydroxylase and vasoactive intestinal peptide (VIP). Neuronal pathways within the colon were lesioned using myotomy and myectomy operations and extrinsic pathways running between the inferior mesenteric ganglia and the colon were also severed. Each of the antibodies revealed nerve cells and nerve fibres or only nerve fibres within the wall of the colon. VIP, galanin and GRP were in anally projecting pathways in the myenteric plexus, as they are in other species. In contrast, there are differences in the projection directions of enkephalin, substance P, NPY and somatostatin nerve fibres between regions and species. Surprisingly, somatostatin and NPY fibres have opposite projections in the small intestine and colon of the guinea-pig. The majority of nerve fibres that innervate the circular muscle, including fibres with immunoreactivity for VIP, enkephalin, substance P, NPY, galanin and GRP come from the myenteric ganglia. The mucosa is innervated by fibres from both the myenteric and submucous ganglia. The present results suggest that the guinea-pig distal colon is a suitable place in which to determine relations between structure, neurochemistry and functions of enteric neural circuits.
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PMID:Projections of chemically-specified neurons in the guinea-pig colon. 170 5

We have previously described hypertrophy of neurons containing estrogen receptor mRNA in the infundibular nucleus of postmenopausal women. In the present investigation we identified peptide mRNAs in the hypertrophied neurons and determined whether postmenopausal neuronal hypertrophy was accompanied by changes in gene expression. In the first study in situ hybridization was performed on sections from hypothalami of postmenopausal women (n = 3) using synthetic 35S-labeled cDNA probes complementary to mRNAs encoding estrogen receptor, substance-P (SP), neurokinin-B (NKB), POMC, cholecystokinin, dynorphin, CRF, enkephalin, galanin, neuropeptide-Y, GH-releasing hormone, and tyrosine hydroxylase. Neuronal cross-sectional areas and cell densities were measured with the aid of a computer microscope system. Neurons labeled with the NKB and SP probes were comparable in size, morphology, and distribution to the hypertrophied neurons containing estrogen receptor mRNA. In contrast, neurons labeled with other cDNA probes were sparsely distributed (CRF and dynorphin), smaller in size (neuropeptide-Y, galanin, GH-releasing hormone, enkephalin, cholecystokinin, and POMC), or located anterior to the hypertrophied population (tyrosine hydroxylase). In the second study sections from hypothalami of premenopausal (n = 3) and postmenopausal (n = 3) women were incubated with cDNA probes complementary to SP or NKB mRNAs. The mean cross-sectional areas of postmenopausal infundibular neurons containing NKB and SP mRNAs increased to 194% and 176% of premenopausal values, respectively. The autoradiographic grain densities of infundibular neurons labeled with either probe were also significantly increased in the postmenopausal group. Finally, the numbers of labeled neurons/tissue increased 6-fold (SP) and 15-fold (NKB) in the postmenopausal infundibular nucleus. These data demonstrate that human menopause is associated with marked increases in hypothalamic NKB and SP gene expression. We propose that neurons containing estrogen receptor, SP, and NKB mRNAs participate in the hypothalamic circuitry regulating estrogen negative feedback in the human.
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PMID:Hypertrophy and increased gene expression of neurons containing neurokinin-B and substance-P messenger ribonucleic acids in the hypothalami of postmenopausal women. 170 31

Neuronal cells from established cell lines can offer a well-characterized source of cells for transplantation to the brain that is an alternative to fetal neurons. The infection of members of the PC12 cell line with a retrovirus containing ras-oncogene leads to their neuronal differentiation without the need of nerve growth factor (NGF). We find that neoplastic, naive PC12 cells grafted to the striatum of normal adult rats cause the transient formation of large hemorrhagic cavities and do not survive. After differentiation by infection with Kirsten-ras murine sarcoma virus, and transplantation to the opposite striatum of the same brain, PC12 cells survive for at least 8 weeks and emit neurites. These neuron-like cells and their neurites retain tyrosine hydroxylase and choline acetyl transferase, as detected immunohistochemically. Thus, ras-primed PC12 cells may serve as a continuous source for both cholinergic and adrenergic transmitters, in vivo, without the need of exogenous nerve growth factor.
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PMID:Viral Kirsten ras infection differentiates PC12 cells and enhances their survival upon implantation into brain. 191 24


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