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 potential role of adrenaline, both circulating and in the central nervous system, in the maintenance of high blood pressure was examined in stroke-prone spontaneously hypertensive rats (SHRSP). alpha-Monofluoromethyldopa, a long-lasting inhibitor of dopa decarboxylase, was used to induce rapid depletion of central and peripheral catecholamine stores. Subsequent inhibition of phenylethanolamine-N-methyltransferase (PNMT) allowed the gradual restoration of dopamine and noradrenaline but not adrenaline, resulting in a greater relative depletion of adrenaline. Adrenaline was almost totally depleted in the circulation and peripheral tissues. The resting level of blood pressure, however, was unaffected, excepting after administration of a vasopressin (AVP) antagonist. Moreover, there was no reduction in the magnitude of acute pressor responses to electrical stimulation of the rostral ventrolateral medulla oblongata (C1 area), despite extensive loss of adrenaline from the brainstem and spinal cord. The results suggest that adrenaline contributes to the resting level of blood pressure but that its loss can be offset by the pressor activity of AVP. Thus neither central nor peripheral adrenaline stores appear to be essential for the maintenance of hypertension or for centrally-evoked vasoconstriction in adult SHRSP.
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PMID:Effects of depleting central and peripheral adrenaline stores on blood pressure in stroke-prone spontaneously hypertensive rats. 194 21

The CNS cell groups that innervate the sympathoadrenal preganglionic neurons of rats were identified by a transneuronal viral cell body labeling technique combined with neurotransmitter immunohistochemistry. Pseudorabies virus was injected into the adrenal gland. This resulted in retrograde viral infections of the ipsilateral sympathetic preganglionic neurons (T4-T13) and caused retrograde transneuronal cell body infections in 5 areas of the brain: the caudal raphe nuclei, ventromedial medulla, rostral ventrolateral medulla, A5 cell group, and paraventricular hypothalamic nucleus (PVH). In the spinal cord, the segmental distribution of virally infected neurons was the same as the retrograde cell body labeling observed following Fluoro-gold injections in the adrenal gland except there was almost a 300% increase in the number of cells labeled and a shift in cell group distribution. These results imply there are local interneurons that regulate the sympathoadrenal preganglionic neurons. In the medulla oblongata, serotonin (5-HT)-, substance P (SP)-, thyrotropin-releasing hormone-, Met-enkephalin-, and somatostatin-immunoreactive neurons of the raphe pallidus and raphe obscurus nuclei and the ventromedial medulla were infected. In the ventromedial and rostral ventrolateral medulla, immunoreactive phenylethanolamine-N-methyltransferase, SP, neuropeptide Y, somatostatin, and enkephalin neurons were infected. The A5 noradrenergic cells were labeled, as were some somatostatin-immunoreactive neurons in this area. In the were infected. The A5 noradrenergic cells were labeled, as were some somatostatin-immunoreactive neurons in this area. In the hypothalamus, tyrosine hydroxylase- and SP-immunoreactive neurons of the dorsal parvocellular PVH were infected. Only a few immunoreactive vasopressin, oxytocin, Met-enkephalin, neurotensin, and somatostatin PVH neurons were labeled.
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PMID:CNS cell groups regulating the sympathetic outflow to adrenal gland as revealed by transneuronal cell body labeling with pseudorabies virus. 254 65

The presence of neurohypophyseal nonapeptides in the adrenal gland of nonmammalian vertebrates and the possible action of these regulatory peptides on corticosteroid secretion have never been investigated. We have applied the indirect immunofluorescence technique to examine whether vasotocin (AVT) and/or mesotocin (MT) are located in frog adrenal (interrenal) tissue. Using antisera against AVT and tyrosine hydroxylase, we found that all chromaffin cells contain an AVT-like peptide. Labeling of consecutive sections with phenylethanolamine-N-methyltransferase or AVT antibodies showed that both noradrenaline- and adrenaline-storing cells contain AVT-like immunoreactivity. In contrast no labeling of frog adrenal slices was observed using a MT antiserum. At the ultrastructural level, the immunogold technique revealed that the AVT-immunoreactive peptide is sequestered in chromaffin granules with varying electron densities. Filtration of frog adrenal tissue extracts on Sep-Pak C-18 cartridges showed that the elution profile of the AVT-like peptide was similar to that of synthetic AVT. The apparent concentration of AVT in the adrenal was 2.7 ng/g tissue. Since chromaffin cells represent approximately one third of all interrenal cells, the actual concentration of AVT in chromaffin tissue was about 8 ng/g tissue. The role of AVT in the regulation of frog adrenal steroidogenesis was studied in vitro using perifused frog interrenal slices. Graded doses of AVT (10(-10)-10(-7) M) induced a dose-dependent stimulation of both corticosterone and aldosterone secretion. The other neurohypophyseal peptides (vasopressin, oxytocin, and MT) were also able to enhance corticosteroid secretion, but AVT was by far the most potent stimulator of steroidogenesis. Prolonged administration (4 h) of AVT induced a rapid increase in corticosterone and aldosterone output, followed by a gradual decline of corticosteroid secretion. These results show that an AVT-like peptide is stored in chromaffin granules of frog adrenal gland. Our data also indicate that synthetic AVT is a potent stimulator of corticosteroid secretion by frog interrenal cells. Since in amphibians adrenocortical and chromaffin cells are intimately intermingled, these results suggest that AVT produced by chromaffin cells may regulate corticosteroid release locally, through a cell to cell mode of communication.
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PMID:Identification of vasotocin-like immunoreactivity in chromaffin cells of the frog adrenal gland: effect of vasotocin on corticosteroid secretion. 267 89

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

Immunocytochemical techniques were used to localize protein-O-carboxylmethyltransferase in the rat brain. Particularly high levels of immunoreactive protein-O-carboxylmethyltransferase were found in the paraventricular and supraoptic nucleus, the substantia nigra and the locus coeruleus. The enhanced expression of the methyltransferase in these brain regions suggests that protein carboxylmethylation is of particular importance in these areas. These findings are consistent with previous biochemical studies which suggest that protein methylation plays a role in presynaptic monoaminergic neurons and in the release and/or processing of neurohypophyseal peptides.
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PMID:Protein-O-carboxylmethyltransferase in the rat brain: high regional levels in the substantia nigra, locus coeruleus and paraventricular nucleus. 407 35

Bilateral injection of the inhibitor of histamine-N-methyltransferase, SKF 91488, which is also known as homodimaprit (5 micrograms), into the preoptic area of the rat produced delayed hypertension, tachycardia and hyperthermia. Some animals exhibited pulmonary edema. These effects were only noted 18-24 hr after an injection and were not an artifact of the injection, since the administration of artificial cerebrospinal fluid produced none of these effects. At the time noted, lesions of the rostral hypothalamus, including the preoptic area, were evident. Injection of a vasopressin antagonist, intravenously, did not lower the blood pressure of the hypertensive animals nor did previous bilateral adrenal demullation prevent or delay the hypertension or tachycardia. Therefore, it does not appear that hypersecretion of either vasopressin or adrenal catecholamines contributed to the cardiovascular effects. Peripheral pretreatment with the sympathetic neurotoxin 6-hydroxydopamine however, did prevent the delayed rise in blood pressure following an injection of homodimaprit. From these studies, it is concluded that the injection of homodimaprit produces lesions in the preoptic area, resulting in hypertension that is maintained by excessive activation of the sympathetic nervous system.
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PMID:The effect of intrahypothalamic injection of homodimaprit on blood pressure. 623 59

A series of experiments was designed to explore the mechanisms contributing to hypertension caused by an acute or chronic sodium load. Acute salt-loading in totally or subtotally nephrectomized animals caused hypertension mediated partly through stimulation of excessive vasopressin release and partly through adrenergic stimulation. Chronic high-salt diet in rats submitted to partial nephrectomy, mineralocorticoid excess or one-kidney-one-clip renovascular hypertension caused blood pressure elevation mediated through a central neurogenic mechanism that could be reversed by administration of an inhibitor of phenylethanolamine-N-methyltransferase, the enzyme catalyzing conversion of norepinephrine to epinephrine. Thus, two vasopressor mechanisms were stimulated by sodium excess: an acute, transient, partly vasopressin-mediated phase seemed to be followed by a chronic phase mediated through stimulation of central sympathetic neurons. In neither phase was blood pressure related to intravascular fluid volume expansion.
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PMID:Possible mechanisms of sodium-dependent hypertension: volume expansion or vasoconstriction? 710 37

In the present study, the renal responses to metoprine, a histamine-N-methyltransferase inhibitor, were studied in conscious rats. Metoprine (10-20 mg kg(-1)) or vehicle were administered i.p. to male Wistar rats and the effects were followed for the subsequent 24 h. It was found that as early as 3 h after the drug administration metoprine 20 mg kg(-1) had increased water consumption and urine flow approximately 6-8-fold. The treatment decreased urine osmolality and increased free water clearance, but caused no change in plasma renin activity or plasma vasopressin concentration. In addition, a metoprine-induced elevation in the systolic blood pressure was observed during the first few hours of the experiment. During the nocturnal period of the study, glomerular filtration rate and the excretion of electrolytes did not increase in metoprine-treated rats as they did in control rats. A decrease in the release of atrial natriuretic peptide was also found. The present results show that inhibition of histamine catabolism by metoprine causes massive changes in renal functions. It seems to promote water excretion by the kidneys but, on the other hand, to reduce the excretion of electrolytes. Although the exact mechanisms, especially the role of increased blood pressure and nocturnal suppression of atrial natriuretic peptide, require further clarification, the present data suggest that renin-angiotensin system and vasopressin were not involved in these renal responses to metoprine.
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PMID:Metoprine-induced thirst and diuresis in Wistar rats. 1019 83

Retrograde, transneuronal viral tracing technique combined with neurotransmitter immunohistochemistry was used to identify the type of neurons in spinal cord and brain that project to the rat's kidney. Pseudorabies virus (PRV) injections were made into the left kidney. After an incubation of 4 days postinjection, PRV-infected neurons were located immunocytochemically in the ipsilateral intermediolateral (IML) cell column of the spinal cord and several brainstem cell groups: medullary raphe nuclei, ventromedial medulla (VMM), rostral ventrolateral medulla (RVLM), A5 cell group and the hypothalamic paraventricular nucleus (PVH). In the medulla, serotonin (5-HT)-immunoreactive neurons of the caudal raphe nuclei, substance P (SP)-immunoreactive neurons of the raphe obscurus (ROb) nuclei and tyrosine hydroxylase (TH)-immunoreactive neurons of A5 cells were infected. In the VMM and RVLM, immunoreactive phenylethanolamine-N-methyltransferase (PNMT) neurons were infected. Some PRV-infected neurons in VMM contain 5-HT immunoreactivity. In the hypothalamus, immunoreactive vasopressin (VP) and oxytocin (OT) neurons were infected with PRV. This work indicates that sympathetic outflow to kidney is regulated by different types of neurons and the bulbospinal pathways regulating sympathetic outflow to the kidney are not obviously different from those regulating the other visceral, e.g., adrenal, heart, etc.
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PMID:Characterization of the central cell groups regulating the kidney in the rat. 1052 46

Wistar rats have been selectively bred for high (HABs) or low (LABs) anxiety-related behavior based on results obtained in the elevated-plus maze. They also display robust behavioral differences in a variety of additional anxiety tests. The present study was undertaken to further characterize physiological substrates that contribute to the expression of this anxious trait. We report changes in brain and peripheral structures involved in the regulation of both the hypothalamo-pituitary-adrenal (HPA) and sympatho-adrenal systems. Following exposure to a mild stressor, HABs displayed a hyper-reactivity of the HPA axis associated with a hypo-reactivity of the sympatho-adrenal system and a lower serotonin turnover in the lateral septum and amygdala. At rest, HABs showed a higher adrenal weight and lower tyrosine hydroxylase and phenylethanolamine-N-methyltransferase mRNAs expression in their adrenals than LABs. In the anterior pituitary, HABs also exhibited increased proopiomelanocortin and decreased vasopressin V1b receptor mRNAs expression, whereas glucocorticoid receptor mRNA levels remained unchanged. These results indicate that the behavioral phenotype of HABs is associated with peripheral and central alterations of endocrine mechanisms involved in stress response regulation. Data are discussed in relation to coping strategies adopted to manage stressful situations. In conclusion, HABs can be considered as an useful model to study the etiology and pathophysiology of stress-related disorders and their neuroendocrine substrates.
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PMID:Altered hypothalamo-pituitary-adrenal and sympatho-adrenomedullary activities in rats bred for high anxiety: central and peripheral correlates. 1663 9


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