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)

The prolactin (PRL)-releasing activity of porcine stalk median eminence (pSME) was characterized by an in vivo bioassay and concomitant radioi-munoassay of plasma PRL and thyrotropin (TSH) levels. Methanol extracts of pSME stimulated PRL release in 3-day estrogen-primed rats when administered by the intracarotid route in doses ranging from 0.1 to 2.0 pSME equivalents. Synthetic thyrotropin-releasing hormone (TRH) stimulated the release of PRL and TSH in the dose range of 10 to 300 ng. PRL release was greater in response to a maximally effective dose of pSME than the release elicited by a maximal dose of TRH, and pSME administered together with a greater than mazimally effective dose of TRH caused additional PRL but not TSH secretion. Lysine vasopressin and prostaglandin E1 and E2 stimulated PRL release only at doses several orders of magnitude greater than the dose present in pSME. Somatostatin inhibited the release of TSH but not that of PRL whether the stimulus employed was pSME or TRH. The effective inhibitory dose of somatostatin was also significantly greater than the reported hypothalamic content. When pSME was subjected to incubation with plasma, a treatment reported to inactivate TRH, TSH-releasing activity was destroyed to a greater extent than was PRL-releasing activity. When pSME was adsorbed onto charcoal, the supernatant solution was devoid of TRH, as determined by complete removal of a [3H]TRH marker, yet substantial PRL-releasing activity was retained. TSH-releasing activity eluted from the charcoal with methanol was considerably greater than that expected on the basis of the recovery of [3H]TRH, suggesting the presence in the crude extract of a TSH-release inhibitor or of a TSH-releasing factor other than TRH. Based on the above evidence, we conclude that crude pSME contains PRL-releasing substance(s) distinct from the tripeptide TRH.
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PMID:Dissociation of prolactin-releasing activity from thyrotropin-releasing hormone in porcine stalk median eminence. 81 52

Hybridization histochemistry has bridged molecular biology and neuroanatomy to provide nearly dynamic views of gene expression in the brain--perhaps especially in the hypothalamus. These snapshots of transcript levels with precise anatomical localization have revealed new insights into gene regulation in the hypothalamus under specific conditions. Magnocellular neurons in the paraventricular and supraoptic nuclei produce vasopressin and oxytocin. Transcript levels for these hormones are affected by hyperosmolality, as are those for many other neuropeptides. Patterns of gene expression in the magnocellular neurons in these nuclei during development and under different physiological conditions have been studied less extensively. The parvocellular neurons of the paraventricular nucleus produce corticotropin-releasing factor and thyrotropin-releasing hormone. Expression of the corticotropin-releasing factor gene is regulated by glucocorticoids. Physiological stresses, which activate the hypothalamo-pituitary-adrenal axis, also affect gene expression in the parvocellular paraventricular nucleus. Thyrotropin-releasing hormone is synthesized in a different set of parvocellular neurons in the paraventricular nucleus and in other neurons of the hypothalamus. Expression of the thyrotropin-releasing hormone gene is regulated by thyroid hormone. The suprachiasmatic nucleus contains neurons that produce vasopressin or vasoactive intestinal polypeptide in a circadian rhythm. Future studies using combinations of classical neuroanatomical techniques, hybridization histochemistry and immunohistochemistry will further our understanding of hypothalamic responses to various stimuli.
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PMID:Regulation of gene expression in the hypothalamus: hybridization histochemical studies. 142 21

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

We measured [3H]prolactin ([3H]Prl) synthesis and secretion in female rat anterior hemipituitary glands incubated in vitro, and immunoassayable Prl secretion from dispersed anterior pituitary cells in a perfused column. Anterior pituitary glands which were incubated in 9 microM reserpine showed a marked inhibition of [3H]Prl secretion but no change in hormone synthesis, thus causing [3H]Prl accumulation within the gland. The same concentration of reserpine produced a similar effect in pituitary glands taken from rats depleted of dopamine with alpha-methyl-p-tyrosine. Reserpine inhibited Prl secretion from dispersed anterior pituitary cells with a gradual onset and prolonged duration. Thyrotropin-releasing hormone (TRH), but not dibutyryl cyclic AMP (dbcAMP), the calcium ionophore A23187 or excess Ca2+, stimulated both [3H]Prl and Prl secretion in the presence of reserpine. In contrast, neither basal nor vasopressin-stimulated ACTH (bio- and immunoassayable) secretion was inhibited by 9 microM reserpine. Ultrastructurally, pituitary glands incubated in reserpine had an increased content of Prl secretory granules. Reserpine thus selectively inhibited Prl secretion, secondarily causing accumulation of both measurable hormone and Prl secretory granules within the pituitary gland. We hypothesize that reserpine interrupted calcium-dependent mechanisms in the stimulus-secretion coupling process to inhibit Prl release.
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PMID:Reserpine inhibits rat anterior pituitary hormone secretion in vitro: effects on prolactin and ACTH and ultrastructural observations. 629 87

A highly sensitive and specific radioimmunoassay for LRF was applied to the measurement of endogenous LRF in various hypothalamic extracts. Specific antiserum was obtained by injecting LRF conjugated to human serum albumin with glutaraldehyde. Thyrotropin-releasing hormone, lysine vasopressin, oxytocin, noradrenaline, LH, FSH and cortical extracts did not appear to affect the assay, and the maximum cross-reaction observed with the LRF analogs tested was 8.5 p. 100 with LRF 2-10. The best detection limit (0.4 pg/tube) was usually obtained when the labelled LRF had been purified by polyacrylamide gel electrophoresis. Within and between-assay coefficients of variation were 8.0 and 12.6 p. 100, respectively (from B/Bo = 20 to 80 p. 100). Synthetic LRF administered to rams by intravenous injection was readily detectable in the peripheral plasma. However, the direct measurement of plasma endogenous LRF may give misleading results due to non-specific interference by plasma factors. No endogenous LRF could be detected in plasma methanol or acetone extracts obtained from rats and rams in various physiological conditions. The inhibition curves parallel to the synthetic LRF curve were obtained by diluting the crude hypothalamic extracts of rams and rats, and a good correlation (r = 0.997) with the Ramirez-McCann bioassay resulted, indicating that using radioimmunoassay to determine hypothalamic LRF content may be fruitful in studying hypothalamo-pituitary gonad interactions. The LRF content of rat and ovine hypothalami ranged from 2-8 to 20-80 ng of LRF, respectively.
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PMID:Reassessment of LRF radioimmunoassay in the plasma and hypothalamic extracts of rats and rams. 676 Feb 82

The topographical distribution of neuropeptide-containing cell bodies, fibers and terminals was studied in the premamillary region of the rat hypothalamus using light microscopic immunohistochemistry. Alternate coronal sections through the posterior third of the hypothalamus of normal and colchicine-treated male rats were immunostained for 19 different neuropeptides and their distributions were mapped throughout the following structures: the ventral and dorsal premamillary, the supramamillary, the tuberomamillary and the posterior hypothalamic nuclei, as well as the premamillary portion of the arcuate nucleus and the postinfundibular median eminence. Seventeen of the investigated neuropeptides were present in neuronal perikarya, nerve fibers and terminals while the gonadotropin associated peptide and vasopressin occurred only in fibers and terminals. Growth hormone-releasing hormone-, somatostatin-, alpha-melanocyte stimulating hormone-, adrenocorticotropin-, beta-endorphin- and neuropeptide Y-immunoreactive neurons were seen exclusively in the premamillary portion of the arcuate nucleus. Thyrotropin-releasing hormone-, dynorphin A- and galanin-containing neurons were distributed mainly in the arcuate and the tuberomamillary nuclei. A high number of methionine- and leucine-enkephalin-immunoreactive cells were detected in the arcuate and dorsal premamillary nuclei, as well as in the area ventrolateral to the fornix. Substance P-immunoreactive perikarya were present in very high number within the entire region, in particular in the ventral and dorsal premamillary nuclei. Cell bodies labelled with cholecystokinin- and calcitonin gene-related peptide antisera were found predominantly in the supramamillary and the terete nuclei, respectively. Corticotropin-releasing hormone-, vasoactive intestinal polypeptide- and neurotensin-immunoreactive neurons were scattered randomly in low number, mostly in the arcuate and the ventral and dorsal premamillary nuclei. Peptidergic fibers were distributed unevenly throughout the whole region, with each peptide showing an individual distribution pattern. The highest density of immunoreactive fibers was presented in the ventral half of the region including the arcuate, the ventral premamillary and the tuberomamillary nuclei. The supramamillary nucleus showed moderately dense fiber networks, while the dorsal premamillary and the posterior hypothalamic nuclei were poor in peptidergic fibers.
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PMID:Immunohistochemical mapping of neuropeptides in the premamillary region of the hypothalamus in rats. 779 57

We have investigated with histochemical techniques the expression of peptides and other neurochemical markers in the hypothalamus and olfactory bulb of male mice, in which the genes encoding the alpha and beta thyroid hormone receptors (TRalpha1, TRbeta1 and TRbeta2) have been deleted. Thyrotropin-releasing hormone messenger RNA levels were increased in the hypothalamic paraventricular nucleus and in the medullary raphe nuclei of mutant mice lacking the thyroid hormone receptors alpha1 and beta (alpha1(-/-)beta(-/-)), as compared to wild-type mice. In contrast, galanin messenger RNA levels were lower in the hypothalamic paraventricular nucleus of mutant animals, as was galanin-like immunoreactivity in the internal layer of the median eminence. Substance P messenger RNA levels were unchanged in the medullary raphe nuclei. Thyrotropin-releasing hormone receptor messenger RNA levels were increased in motoneurons, unchanged in the subiculum, and lower in the amygdala of mutant animals. Galanin messenger RNA levels were unchanged in the hypothalamic dorsomedial and arcuate nuclei of the thyroid hormone receptor alpha1(-/-)beta(-/-) mice, as was the immunocytochemistry for oxytocin and for vasopressin in the hypothalamic paraventricular nucleus. A reduction in tyrosine hydroxylase messenger RNA levels was found in the arcuate nucleus of mutant mice. In the olfactory bulb, immunohistochemistry for calbindin and for tyrosine hydroxylase revealed a reduction in the intensity of labeling of nerve processes in the glomerular layer of thyroid hormone receptor alpha1(-/-)beta(-/-) mice. The tyrosine hydroxylase messenger RNA levels were also slightly reduced. In contrast, the levels of galanin and neuropeptide Y messenger RNA in this region were unchanged in thyroid hormone receptor alpha1(-/-)beta(-/-) mice as compared to wild-type mice. Together these studies reveal many regional and neurochemically selective alterations in neuronal phenotype of mice devoid of all known thyroid hormone receptors.
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PMID:Expression of peptides and other neurochemical markers in hypothalamus and olfactory bulb of mice devoid of all known thyroid hormone receptors. 1111 49

A thorough presentation of the influence of thyroliberin (TRH) on vasopressin and oxytocin release from the hypothalamo-neurohypophysial system is presented. Thyroliberin affects in different ways both neurohormone secretion in females during lactation according to the water-electrolyte metabolism in the course of the circadian rhythm of vasopressin and oxytocin release as well as during in vitro incubation of isolated neurointermediate lobe or hypothalamo-neurohypohysial explants. The results showed that: TRH acts as a stimulator of oxytocin release into the blood by equilibrated water-electrolyte metabolism, TRH acts in the central nervous system as an inhibitory neuromodulator of vasopressin and oxytocin release from the hypothalamo-neurohypophysial system under in vitro conditions, by osmotic stimulation, as well as in females during lactation, TRH inhibits AVP release in acute bleeding-provoked hypovolemia and alters the circadian rhythm of vasopressin and oxytocin release. It is assumed that this neuropeptide can interact with the mechanisms engaged in vasopressin and oxytocin release and can disturb these mechanisms, especially under conditions of augmented demand of the organism for these neurohormones.
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PMID:[Influence of thyroliberin on vasopressin and oxytocin release from the hypothalamo-neurohypophysial system under in vivo and in vitro conditions]. 1767 13

Thyrotropin-releasing hormone (TRH) is engaged in the modulation of the hypothalamo-neurohypophysial system activity. Effects of repeated intravenously injections of TRH in a dose of 100 ng/100 g b.w. on vasopressin (VP) and oxytocin (OT) biosynthesis and release from the hypothalamo-neurohypophysial system was investigated in rats in different age (1-, 3- or 7-months of the life). To estimate the biosynthesis rate of both neurohormones the colchicine procedure was used (the dose of 5 microg/5 microl icv 20 hours before the decapitation). It has been observed that vasopressin synthesis in the hypothalamus increased gradually with maturation of rats, while OT biosynthesis decreased in the same animals. Hypothalamic biosynthesis rate of VP and OT is most effective in youngest rats and declines during the adolescence of animals. Thyrotropin-releasing hormone directly affects VP-ergic and OT-ergic hypothalamic neurons activity and both neurohormones biosynthesis process. This effect, however, is opposed: TRH acts as a stimulator of vasopressin biosynthesis most of all in young male rats and as an inhibitor for oxytocin biosynthesis especially in mature animals.
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PMID:Thyrotropin-releasing hormone modulates vasopressin and oxytocin synthesis and release from the hypothalamo-neurohypophysial system of different age male rats. 1961 47