Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P01178 (oxytocin)
 15,767 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Luteinizing hormone releasing hormone (LHRH) neurons from the preoptic area (POA)/hypothalamus of the postnatal rat were cultured for up to 7 weeks using a slice explant roller culture technique. The slices thinned to quasi-monolayers, but maintained organotypic distributions of large numbers of immunocytochemically identifiable LHRH, neurotensin, tyrosine hydroxylase, neurophysin and corticotropin releasing hormone-containing neurons. The distribution, survival and morphology of LHRH cells in co-cultures with brainstem and anterior pituitary was quantitated, and found to be similar to that observed in single cultures. LHRH fibers grew into either pituitary or brainstem tissue, however when all three tissues were co-cultured, LHRH fibers preferentially invaded the pituitary. LH immunoreactive anterior pituitary gonadotropes were maintained only in co-cultures containing POA/hypothalamic slices, and addition of an LHRH antagonist in such cultures, inhibited LH immunoreactivity in the gonadotropes. This slice explant roller culture method effectively maintains the cyto- and chemoarchitecture and functional properties of the LHRH system for long periods in vitro and should provide excellent models for studying the interactive and molecular characteristics of postnatal LHRH neurons.
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PMID:Slice cultures of LHRH neurons in the presence and absence of brainstem and pituitary. 307 35

Colocalization of thyrotropin-releasing hormone-like immunoreactivity with other neuroactive substances was examined immunohistochemically in colchicine-treated rat brains using double-staining or elution-restaining methods. Thyrotropin-releasing hormone-like immunoreactivity was shown to be located in the same neurons as: 1. enkephalin-, gamma-amino butyric acid- and tyrosine hydroxylase-, but not somatostatin-like immunoreactivity in the glomerular layer of the olfactory bulb 2. oxytocin- and cholecystokinin-, but not vasopressin-like immunoreactivity in the supraoptic nucleus 3. cholecystokinin-like immunoreactivity in posterior pituitary 4. enkephalin-like immunoreactivity in the perifornical area of the hypothalamus and 5. neuropeptide Y- and neurotensin-like immunoreactivity in the periaqueductal central grey. These findings provide further examples of coexistence of thyrotropin-releasing hormone with classical neurotransmitters and/or peptides in the rat central nervous system.
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PMID:Coexistence of TRH with other neuroactive substances in the rat central nervous system. 315 46

The above procedures clearly demonstrate the effectiveness of the fluorescence histochemical and immunohistochemical methods in analysis of central CA neuron systems. Each method is well characterized and possesses sufficient versatility to permit a variety of experimental applications. The fluorescence histochemical technique is extremely reliable, produces good cell and fiber morphology, and has served as the fundamental procedure used to define the organization and distribution of CA-containing neurons throughout both the central and peripheral nervous system. However, the basic method makes no distinction between individual catecholamine neuron systems unless combined with mechanical or chemically induced lesions. The immunohistochemical technique relies upon the availability of antisera generated against the catecholamine-synthesizing enzymes tyrosine hydroxylase (TH), dopamine beta-hydroxylase(DBH), and phenylethanolamine N-methyltransferase (PNMT). Each of these enzymes catalyzes different steps in catecholamine metabolism and therefore can be used in conjunction with one another to selectively delineate the organization and distribution of neuronal cells and processes containing dopamine (TH), noradrenaline (TH and DBH), and adrenaline (PNMT). In addition, the immunohistochemical method may be coupled with the fluorescence histochemical technique, dual-labeling immunohistochemical methods, and retrograde tract tracing methods to provide further information on the interrelations of individual CA systems with one another and other chemically distinct systems of neurons. The usefulness of the immunohistochemical method in elucidating the organization of separate systems of CA-containing neurons is illustrated in a recent study by Swanson and collaborators. Utilizing antisera raised against the previously mentioned CA synthesizing enzymes, they analyzed the organization of CA systems within the paraventricular and supraoptic nuclei of the hypothalamus. By combining this analysis with immunohistochemical staining with antisera generated against vasopressin and oxytocin, they were able to demonstrate differential distribution of adrenergic and noradrenergic fibers within each nucleus which could be correlated with the distribution of vasopressin-containing neurons. In addition, through the combined use of immunofluorescence and retrograde transport of the tracer dye true blue, they were able to show that a small percentage of TH-containing neurons within the paraventricular nucleus project to the region of the dorsal motor vagal complex and/or thoracic levels of the spinal cord. Although the later finding relied upon fluorescence microscopy, Bowker a
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PMID:Neurotransmitter histochemistry: comparison of fluorescence and immunohistochemical methods. 614 2

Antiserum against tyrosine hydroxylase clearly reacts with two types of neurons in the rabbit paraventricular nucleus: catecholaminergic neurons, also present in rat and mouse, and neurons also staining for ocytocin and neurophysin; the latter neurons have not been reported in other species. This result raises the question of a possible aminergic potentiality of a subpopulation of oxytocinergic neurons in the rabbit hypothalamus.
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PMID:Oxytocinergic neurons with tyrosine hydroxylase-like immunoreactivity in the paraventricular nucleus of the rabbit hypothalamus. 614 35

The development of two monoclonal antibodies for use as second antibodies in immunocytochemistry is described. The antibodies are produced by mouse X mouse hybrid myelomas, and are both of the IgG type. The two antibodies, RB23 and ND13, were used to detect neurophysin by three-step peroxidase-antiperoxidase (PAP) immunostaining, and were "internally labeled" with 3H-lysine for the radioimmunocytochemical localization of neurophysin, substance P, and tyrosine hydroxylase using rabbit first antibodies. The binding sites of RB23 and ND13 on the rabbit IgG antibodies were determined by solid-phase radioimmunoassay, using allotype-specific rabbit serum to compete with RB23 and ND13. It was found that both RB23 and ND13 are directed against the B4 kappa-light-chain allotype. The immunocytochemical localization of adrenocorticotropic hormone and somatostatin with rabbit primary antibodies was not achieved with RB23 or ND13, and it is proposed that these antibodies are not of the B4 allotype. The findings demonstrate that monoclonal second antibodies can be useful general reagents for conventional immunocytochemistry as well as for radioimmunocytochemistry. Furthermore, allotype-specific monoclonal second antibodies may prove useful in the simultaneous immunohistochemical localization of more than one antigen in a given tissue section.
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PMID:Immunocytochemistry with monoclonal anti-immunoglobulin as a developing reagent: application to immunoperoxidase staining and radioimmunocytochemistry. 641 91

Activation of abdominal vagal afferents by peripheral injection of cholecystokinin octapeptide induces oxytocin release into the circulation. To test the hypothesis that cholecystokinin increases oxytocin release via activation of noradrenergic afferents from the brainstem, we injected rats with 5-amino-2,4-dihydroxy-alpha-methylphenylethylamine, a selective neurotoxin to noradrenergic fibres, into a lateral cerebral ventricle. The neurotoxin treatment reduced the noradrenaline content in the hypothalamus by 75% and reduced the oxytocin secretion in response to cholecystokinin by over 90%. In separate experiments, the neurotoxin was injected unilaterally in the vicinity of the supraoptic nucleus to test whether direct noradrenergic afferents to the supraoptic nucleus are involved in the response to cholecystokinin. The injection reduced the immunoreactivity for dopamine beta-hydroxylase in the supraoptic nucleus and significantly decreased the number of the supraoptic neurons expressing Fos-like protein after cholecystokinin but not after hypertonic saline. In further experiments, rhodamine-conjugated latex microspheres were injected into the supraoptic nucleus to retrogradely label afferent neurons, and the brains were processed with double-immunohistochemistry for tyrosine hydroxylase and Fos-like protein. In the C2/A2 but not the C1/A1 region of the brainstem, cholecystokinin increased the expression of Fos-like protein in the population of retrogradely-labelled catecholaminergic cells. In the C2/A2 region, the majority of retrogradely labelled cells expressing Fos-like protein after cholecystokinin were catecholaminergic. We conclude that noradrenergic afferents from the A2 but not from the A1 region of the brainstem to the hypothalamus mediate, at least in part, oxytocin release following cholecystokinin.
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PMID:Involvement of the noradrenergic afferents from the nucleus tractus solitarii to the supraoptic nucleus in oxytocin release after peripheral cholecystokinin octapeptide in the rat. 747 81

Earlier studies have shown the formation of a novel neural lobe after hypophysectomy, an experimental manipulation that causes transection of neurohypophyseal nerve fibers and removal of pituitary hormones. The mechanisms that underly this regenerative process are poorly understood. The localization and number of peptide-immunoreactive (-IR) fibers in the median eminence were studied in normal rats and in rats at different times of survival after hypophysectomy using indirect immunofluorescence histochemistry. The number of vasopressin (VP)-IR fibers increased in the external layer of the median eminence in 5 d hypophysectomized rats. Oxytocin (OXY)-IR fibers decreased in the internal layer and progressively extended into the external layer. At long survival times (9 and 16 months) both VP- and OXY-IR fibers had a bilayered distribution occupying both the external and internal layers. Double-labeling experiments combining VP and tyrosine hydroxylase antisera as well as OXY and growth hormone-releasing factor antisera showed that injured neurosecretory fibers growing into the external layer displaced fibers from parvocellular cells originally located there. As a result, there was essentially an inversion in the distribution of these fibers within the median eminence. Galanin (GAL)- and cholecystokinin (CCK)-IR fibers exhibited a similar pattern of distribution after the lesion. Thus, after 5 d there was an increase in GAL- and CCK-IR fibers in the internal layer. At 14 and 30 d, the number of GAL- and CCK-IR fibers progressively decreased, but after longer survivals (9 and 16 months) there was a dramatic reappearance. Dynorphin (DYN)-LI showed a dramatic increase at all levels of the median eminence at short survival times after hypophysectomy, followed by a subsequent decrease to a final stage of a few, strongly immunoreactive fibers in the external layer at longer survival times. Vasoactive intestinal polypeptide (VIP)- and peptide histidine-isoleucine (PHI)-IR fibers in hypophysectomized animals had already contacted portal vessels 5 d after hypophysectomy, and from then on progressively increased in numbers. Finally, most of the peptide fibers described above formed dense innervation patterns around the large blood vessels along the lateral borders of the median eminence. The present results show that hypophysectomy induces a wide variety of changes in hypothalamic neurosecretory fibers. Not only is the expression of several peptides in these fibers modified following different survival times, but a reorganization of the distribution of immunoreactive fibers within the median eminence is demonstrated. The hypothesis is raised that regeneration of injured neurosecretory fibers may be dependent on changes in the expression of peptides possessing trophic actions.
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PMID:Reorganization of neural peptidergic systems in the median eminence after hypophysectomy. 752 31

Magnocellular perikarya within the retrochiasmatic division of the supraoptic nucleus of bovine and porcine hypothalami were immunoreactive (ir) with antiserum against tyrosine hydroxylase (TH), but not dopamine-beta-hydroxylase (DBH). Few cells in this region were also immunoreactive for vasopressin (VP) or oxytocin (OT). In contrast, the main division of the supraoptic nucleus contained numerous perikarya immunoreactive for VP and OT, but not TH nor DBH. Both the retrochiasmatic and principal divisions of the supraoptic nuclei contained TH- and DBH-ir fibers and varicosities. This region in bovine and porcine hypothalami corresponds to the ventral A15 catecholaminergic (dopamine-producing) cell group.
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PMID:Catecholaminergic region A15 in the bovine and porcine hypothalamus. 762 Sep 7

The hypothalamus has been claimed to be involved in a great number of physiological functions in development, such as sexual differentiation (gender, sexual orientation) and birth, as well as in various developmental disorders including mental retardation, sudden infant death syndrome (SIDS), Kallman's syndrome and Prader-Willi syndrome. In this review a number of hypothalamic nuclei have therefore been discussed with respect to their development in health and disease. The suprachiasmatic nucleus (SCN) is the clock of the brain and shows circadian and seasonal fluctuations in vasopressin-expressing cell numbers. The SCN also seems to be involved in reproduction, adding interest to the sex differences in shape of the vasopressin-containing SCN subnucleus and in its VIP cell number. In addition, differences in relation to sexual orientation can be seen in this perspective. The vasopressin and VIP neurons of the SCN develop mainly postnatally, but as premature children may have circadian temperature rhythms, a different SCN cell type is probably more mature at birth. The sexually dimorphic nucleus (SDN, intermediate nucleus, INAH-1) is twice as large in young male adults as in young females. At the moment of birth only 20% of the SDN cell number is present. From birth until two to four years of age cell numbers increase equally rapidly in both sexes. After this age cell numbers start to decrease in girls, creating the sex difference. The size of the SDN does not show any relationship to sexual orientation in men. The large neurosecretory cells of the supraoptic (SON) and paraventricular nucleus (PVN) project to the neurohypophysis, where they release vasopressin and oxytocin into the blood circulation. In the fetus these hormones play an active role in the birth process. Fetal oxytocin may initiate or accelerate the course of labor. Fetal vasopressin plays a role in the adaptation to stress--caused by the birth process--by redistribution of the fetal blood flow. Corticotropin-releasing hormone (CRH) neurons of the PVN play a central role in stress response. Thus fetal CRH neurons may play a role in the timing of the moment of birth. Recently, alterations have been described in peptidergic, aminergic and cholinergic transmitters in the hypothalamus in SIDS. Future research will have to establish whether these changes are part of the course of SIDS. A large proportion of the SON and PVN neurons also produce tyrosine hydroxylase (TH). In neonates the majority of TH-immunoreactive neurons colocalizes vasopressin, while in the adult the majority of TH-positive neurons colocalizes oxytocin.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Development of the human hypothalamus. 764 57

Previous studies have demonstrated that the number of vasopressin (VP) neurons present in primary diencephalic cultures can be markedly augmented by treatment with drugs that elevate intracellular cAMP. To evaluate the effect of this drug treatment on VP secretion by hypothalamic cultures and to determine if this represents a developmental phenomenon or a mechanism involved in the continuing dynamic regulation of the VP gene, we have exposed primary dispersed hypothalamic cultures derived from 14-day-old fetal Sprague-Dawley rats to forskolin (25 microM) and the phosphodiesterase inhibitor 3-isobutyl-1-methylxanthine (IBMX; 500 microM), either continually or intermittently, for up to 39 days. Culture medium was collected throughout the culture period for VP RIA, and at the end of the culture period, cultures were stained immunocytochemically for neurophysin (NP). As reported by previous investigators, exposure to the drugs for 11 days resulted in an increase in the number of NP-positive neurons. The increase was sustained with longer periods of exposure up to 39 days. IBMX and forskolin treatment also resulted in detectable release of VP into the culture medium, which increased from 1.4 +/- 0.15 pg/ml at 11 days to 8.4 +/- 0.6 pg/ml after 32 days of drug treatment. The VP concentration remained undetectable (< 1.25 pg/ml) in nontreated cultures throughout this period. The effect on VP expression did not require immediate exposure to the drugs in culture, but did require the continuous presence of the drugs. Removal of the drugs from days 11-18 of culture resulted in an almost complete loss of NP-positive cells; however, reexposure to the drugs reinstated NP expression in a time-dependent fashion. The effect of IBMX/forskolin treatment on the expression of other neuronal markers was also evaluated. The treatment did not alter the total number of neurons, and there was no evidence of stimulation of oxytocin expression. There was a marked increase in the number and size of neurons stained immunocytochemically for tyrosine hydroxylase and a small increase in the number of cells staining for somatostatin. These results demonstrate that treatment with cAMP-elevating drugs markedly and selectively elevates VP secretion from dispersed hypothalamic cultures, but continuous exposure to the drugs is necessary to sustain the effect. These findings suggest that although cAMP is required in hypothalamic cultures for VP gene expression, it may also participate in the dynamic regulation of VP gene transcription in response to physiological challenges.
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PMID:The stimulation of vasopressin gene expression in cultured hypothalamic neurons by cyclic adenosine 3',5'-monophosphate is reversible. 768 52


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