Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P01185 (vasopressin)
 23,126 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

125I-Staphylococcal protein A was used to visualize immunoreactive cell antigen in rat brain and pituitary by autoradiography. Autoradiograms of rat brain sections generated with 125I-protein A were clear and showed low background signals. We were able to visualize neural structures containing tyrosine hydroxylase or methionine-enkephalin-like immunoreactivities in the brain, and vasopressin-like immunoreactivity in the pituitary gland. Our results suggest that 125I-protein A can be used for the radioimmunohistochemical visualization of cell antigens in tissue sections.
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PMID:A radioimmunohistochemical method for autoradiographic visualization of cell antigens using 125I-staphylococcal protein A. 339 90

1. We have used horseradish peroxidase-conjugated protein A- and 125I-protein A to develop immunohistochemical and radioimmunohistochemical methods for the localization of antigens in brain and other tissues of the rat. 2. We visualized methionine-enkephalin fibers in the rat brain by incubating tissue sections with a specific polyclonal antibody and peroxidase-conjugated protein A. The method is simple, fast, and less expensive and more sensitive than classical immunohistochemical techniques and the principle could be used to visualize many other tissue antigens. 3. Incubation of tissue samples with specific polyclonal antibodies and 125I-protein A, followed by autoradiography, allows the permanent recording of the radioimmunohistochemical localization of brain methionine-enkephalin, tyrosine hydroxylase, and angiotensin-converting enzyme and of pituitary vasopressin and could be applied to the localization of many other tissue antigens. 4. A new quantitative radioimmunohistochemical technique for methionine-enkephalin allows the determination of the endogenous peptide content in discrete brain nuclei from 16-microns-thick sections. The method is based on the quantitative determination of the amount of 125I-protein A bound to specific tissue areas after incubation with a specific polyclonal antibody, followed by autoradiography and computerized microdensitometry. To quantify the endogenous peptide content, the values obtained are interpolated into a methionine-enkephalin internal standard curve. This standard curve was constructed by measuring endogenous concentrations of methionine-enkephalin by radioimmunoassay in specific brain regions and correlating these values with quantitative autoradiographic determinations in homologous areas of adjacent sections. Similar methods can be developed for other tissue antigens. 5. These new methods allow for the localization and quantification of tissue antigens in very discrete areas of the brain and other tissues and have a wide application in neurobiology and pathology.
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PMID:Radioimmunochemical methods for the quantitative autoradiographic determination of antigens in brain and other tissues. 340

The distribution of catecholamine synthesizing enzymes within the paraventricular nucleus of the rat hypothalamus is elucidated immunocytochemically by use of antibodies to tyrosine hydroxylase, dopamine beta-hydroxylase, and phenylethanolamine-N-methyltransferase. Tyrosine hydroxylase-immunostained cell bodies are localized in the periventricular stratum and adjacent parvocellular regions, but rarely in magnocellular subnuclei of the paraventricular nucleus. Tyrosine hydroxylase-immunostained fibers are present in greatest density in the periventricular zone, and moderate density in the parvocellular and magnocellular subnuclei. Dopamine beta-hydroxylase-immunostained fibers are remarkably dense in the posterior magnocellular division of the paraventricular nucleus, especially in the dorso-lateral portion where vasopressin-containing cells predominate. Noradrenergic fiber input to these magnocellular neurons is likely since phenylethanolamine-N-methyltransferase-immunostained fibers are sparse in magnocellular subnuclei of the paraventricular nucleus. Dual immunocytochemical staining of thick and thin tissue sections demonstrates with clarity an anatomical association of dopamine beta-hydroxylase-immunostained fibers and magnocellular neurons. Dopamine beta-hydroxylase-immunostained and phenylethanolamine-N-methyltransferase-immunostained fibers are dense in the medial parvocellular component of the paraventricular nucleus; distinct features of both antisera are presented.
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PMID:Catecholamine distribution and relationship to magnocellular neurons in the paraventricular nucleus of the rat. 355 31

The possibility that sympathetic nervous system activity may be altered in Brattleboro rats with diabetes insipidus (DI) was studied using the norepinephrine (NE) turnover technique. Female DI and Long-Evans rats were used. NE turnover in peripheral organs was calculated by measuring the decline in tissue [NE] after inhibition of tyrosine hydroxylase with alpha-methyltyrosine. NE turnover was increased significantly in the kidney of DI rats but was not significantly altered in other peripheral organs examined (heart, duodenum, skeletal muscle). Both NE and epinephrine concentrations in the adrenal gland were significantly higher in the DI rats. Treatment of DI rats for 7 days with vasopressin tannate (Pitressin, 100 mU/100 g) or 1-deamino-[8-D-arginine] vasopressin (DDAVP, 250 ng X kg-1 X day-1) reversed the changes in renal NE turnover and also decreased the turnover in other tissues. The results of these studies suggest that, compared with Long-Evans rats, DI rats have a selective increase in NE turnover in the kidney and the potential to release more catecholamines from the adrenal glands. The apparently nonspecific effect of antidiuretic therapy on NE turnover in DI rats is probably mediated by the epithelial receptor for vasopressin, because both Pitressin and DDAVP produced similar results.
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PMID:Enhanced noradrenergic activity in kidney of Brattleboro rats with diabetes insipidus. 396 26

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

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

Salt-loading induces profound metabolic changes in magnocellular vasopressin (AVP)-containing neurons, including changes in levels of coexisting peptides and tyrosine hydroxylase (TH). Although many studies have been conducted on salt-loading, little information is available on the recovery processes following its cessation. In the present study, we investigated the changes in AVP, galanin (Gal), dynorphin B (Dyn-B), and TH immunoreactivities in the rat supraoptic nucleus (SON) and paraventricular nucleus (PVN) by immunocytochemistry using specific antisera against these substances. Salt-loading was induced in rats by dissolving 2% NaCl in their drinking water for 7 days. These animals were then allowed free access to fresh water for 2, 4, or 7 days prior to sacrifice. In the SON at the 7th day of salt-loading, AVP, Gal and Dyn-B immunoreactivities decreased in contrast to the marked increase in TH-immunoreactivity compared to those of control rats with free access to water. After a recovery period with free access to water, AVP and Gal immunoreactivities increased with time and returned to the control level at the 7th day. However, Dyn-B immunoreactivity did not recover even at the 7th day. Dehydration-induced TH-immunoreactive neurons almost disappeared at the 7th day. Immunoreactivities for these substances in the PVN showed a similar time course as that in the SON. These findings suggest that AVP and substances coexisting with it change with different time courses in magnocellular neurons following cessation of salt-loading.
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PMID:Rehydration process from salt-loading: recovery of vasopressin and its coexisting galanin, dynorphin and tyrosine hydroxylase immunoreactivities in the supraoptic and paraventricular nuclei. 753 8

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

Although oligonucleotide probes are useful for in situ hybridization, their low sensitivity compared to riboprobes and cDNA remains a problem. We have systematically examined the protocols to provide a general procedure that increases the sensitivity of oligoprobes for light and electron in situ hybridizations by using mixtures of multiple non-overlapping oligonucleotides (multi-oligoprobes). The protocol achieves these improvements with both radioactive and non-radioactive oligoprobes. With 33P-labeled probes in a semiquantitative assay, we found that mixtures of up to six vasopressin-directed multi-oligoprobes, each employed at saturating concentration, led to an additive signal with no significant increase of the background. Using this approach with non-radioactive oligoprobes, we were able to detect in the hypothalamus several low or moderately abundant mRNAs, such as vasopressin heterogeneous nuclear RNA and the galanin, dynorphin, and tyrosine hydroxylase mRNAs. Moreover, we showed that multi-oligoprobes used in a pre-embedding procedure were suitable for studying the ultrastructural compartmentalization of moderately abundant mRNAs. Finally, with the same basic approach we demonstrated that two sets of multi-oligoprobes can be combined for simultaneous detection of two different mRNAs using fluorescent dyes, making this approach suitable for high-resolution confocal analyses. Overall, our data demonstrate that multi-oligoprobes provide a sensitive tool of choice for various applications in which both well-preserved morphology and high sensitivity are needed. In particular, these probes appear ideal for study of the comparative subcellular localization of mRNAs at both the light and the electron microscopic level.
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PMID:Enhanced sensitivity for light and electron microscopic in situ hybridization with multiple simultaneous non-radioactive oligodeoxynucleotide probes. 762 44

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


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