UNIPROT:P01185 - FACTA Search

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Query: UNIPROT:P01185 (vasopressin)
23,126 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A 72-year-old man with Cushing's disease was treated with trilostane, a competitive inhibitor of adrenal 3 beta-hydroxysteroid dehydrogenase (3 beta-HSDH). The treatment with trilostane successfully lowered urinary excretion of 17-hydroxycorticosteroids (17-OHCS) and plasma levels of cortisol and elevated the plasma level of dehydroepiandrosterone. Unexpectedly, plasma ACTH fell from 109.7 +/- 45.0 to 42.7 +/- 27.3 pg/ml (P less than 0.01) in parallel with plasma cortisol. The hyperresponsiveness of plasma ACTH observed both in the metyrapone test and the lysine-vasopressin test was also ameliorated by treatment with trilostane. Then low dose of pituitary irradiation with cobalt-60 was added and his urinary excretion of 17-OHCS and plasma levels of cortisol decreased further. After treatment with trilostane was finally stopped, the plasma ACTH increased from 45.9 +/- 21.9 to 69.6 +/- 25.3 pg/ml (P less than 0.05) in parallel with plasma cortisol. Since then he has had no recurrence for 12 months. These observations suggest that trilostane, like other adrenal enzyme-inhibiting drugs, may induce unexpected improvement of the abnormality of the hypothalamic-pituitary axis present in Cushing's disease.
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PMID:Concomitant falls of plasma cortisol and ACTH levels in a case of Cushing's disease during treatment with trilostane. 632 May 67

Recent amino acid sequence data suggest that trypsin-like and carboxypeptidase B-like activities are required for the processing of pituitary prohormones--e.g., pro-opiocortin (pro-adrenocorticotropin/lipotropin) and provasopressin in secretory granules. In this study the existence of a carboxypeptidase B activity in purified secretory granules from anterior, intermediate, and neural lobes of rat pituitary has been examined. A carboxypeptidase B activity that cleaved the COOH-terminal -Lys-Lys-Arg residues from the adrenocorticotropin fragment ACTH-(1-17) (a potential hormone product liberated from pro-opiocortin by a trypsin-like enzyme) was detected in anterior and intermediate lobe granules. A similar carboxypeptidase B activity was also present in purified secretory granules from rat pituitary neural lobes that cleaved the -Lys-Arg residues from [Arg8]vasopressin-Gly-Lys-Arg, a potential product cleaved from provasopressin. Secretory granule carboxypeptidase(s) from the three lobes of the pituitary was shown to cleave 125I-[Met]enkephalin-Arg6 to form 125I-[Met]enkephalin as well. 125I-[Met]Enkephalin was used as a model substrate for the quantitative assay of pituitary carboxypeptidase activity. The carboxypeptidase B in secretory granules from all three lobes was shown to be active at pH 5.5, but not at pH 7.4. Inhibition by the zinc metallocarboxypeptidase inhibitors guanidinopropylsuccinic acid, aminomercaptosuccinic acid, benzylsuccinic acid, 2-mercaptomethyl-3-guanidinoethylthiopropanoic acid, and the potato carboxypeptidase B inhibitor, and inhibition by the metal chelators EDTA and 1,10-phenanthroline demonstrate metal ion dependence of the pituitary granule carboxypeptidase activities. However, Co2+ stimulated the secretory granule carboxypeptidase B activities. Thiol protease inhibitors such as Cu2+ and p-chloromercuriphenylsulfonic acid also inhibited the activity. Thus, the secretory granule carboxypeptidase B-like activities in all three lobes of the pituitary appear to be similar thiol-metallopeptidases that differ from other carboxypeptidase activities previously described and may play an exclusive role in hormone biosynthesis in the pituitary.
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PMID:Carboxypeptidase B-like converting enzyme activity in secretory granules of rat pituitary. 632 44

The noncontractile aortic cell line A7r5 was chosen to study the effect of the vasoconstrictor peptide vasopressin on transmembrane Ca2+ movements, using conventional whole-cell patch recording techniques. Conditions in which previously characterised vasoconstrictor-modulated currents were suppressed revealed a tiny inward current component (-18 +/- 2 pA, n = 50, at -61 mV in 110 mM CaCl2). The vasopressin-activated inward current was absent when Ca2+ was absent from the extracellular solution, and the current amplitude increased with [Ca2+] (0.01-110 mM), with an apparent dissociation constant for Ca2+ of 9.7 mM. It was highly selective for Ca2+ over monovalent cations (permeability ratio Ca/Cs greater than 17). It was not voltage gated, except that the current/potential characteristic showed some inwards rectification. Amplitudes of the evoked inward currents had the same order of magnitude in Sr2+ and Ca2+, whereas they were much smaller in Mn2+, suggesting that this pathway is highly permeable to Sr2+ but poorly permeable to Mn2+. Inward currents evoked in Ca2+ were inhibited by other cations with the following order of potency: La3+ > Cd2+ > Co2+ approximately Ni2+ approximately Mn2+. The channel producing this current corresponds most probably to the ionic pathway originally called the receptor-operated calcium channel, which produces a long-lasting, constrictor-induced plateau of increased intracellular free calcium concentration in smooth muscle.
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PMID:Identification of the Ca2+ current activated by vasoconstrictors in vascular smooth muscle cells. 770 69

An aminopeptidase from porcine kidney, hydrolyzing oxytocin and vasopressin in vitro, was purified by chromatography on hydroxyapatite, DEAE-cellulose and nickel ion chelate gel and gel filtration on Sephadex G-100. The enzyme appeared to be a high molecular mass (M(r) 105,000) monomeric protein. It was sensitive to inhibition by metal chelator, o-phenanthroline. Cobalt ion and sulfhydryl activator, 2-mercaptoethanol, had activating effects, while p-chloromercuribenzoate, amino acids with large hydrophobic side chains, L-cystine and aminopeptidase inhibitors, bestatin and amastatin, had inhibitory effects on the enzyme activity. The enzyme hydrolyzed several aminoacyl p-nitroanilides, and had the highest specificity against S-benzyl-L-cysteine p-nitroanilide. The properties of the enzyme were distinct from those of well-characterized leucyl aminopeptidase (EC 3.4.11.1), membrane alanyl aminopeptidase (EC 3.4.11.2) and primate placental cystinyl aminopeptidase (EC 3.4.11.3).
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PMID:An aminopeptidase activity from porcine kidney that hydrolyzes oxytocin and vasopressin: purification and partial characterization. 787 63

Several metal ions are known to cause depolymerization of the actin cytoskeleton under some circumstances. We found that in renal mesangial and vascular smooth muscle cells, micromolar concentrations of Cd2+ result in loss of phalloidinstainable filamentous (F-) actin. The decrease in F-actin was not accompanied by a corresponding increase in G-actin. The decrease in total actin could be accounted for in part by an inhibition by Cd2+ of total protein (and actin) synthesis after 6 to 8 h without an effect on actin degradation, and the equilibrium between F- and G-actin was shifted to maintain near-constant levels of G-actin. However, Cd2+ caused significant decreases in F-actin at earlier times, indicating effects on the polymerization equilibrium independent of those on actin synthesis. Only picomolar concentrations of free intracellular Cd2+ occur in these experiments. However, it is this Cd2+ pool which is responsible for F-actin depolymerization because equal cellular concentrations of cadmium delivered as Cd-metallothionein have no effect. The effect is also very specific for Cd2+ and under the same conditions neither Mg2+, Mn2+, Co2+, Ni2+, Cu2+, Zn2+, nor Hg2+ result in any loss of F-actin. Addition of Cd2+ to mesangial and vascular smooth muscle cells had no immediate effect on free intracellular calcium concentrations ([Ca2+]i) even though Ca(2+)-signalling pathways were intact as shown with vasopressin and endothelin. Exposure to 10 microM CdCl2 for 8 h nevertheless caused an increase in [Ca2+]i to > 250 nM and increases in [Ca2+]i achieved with ionophores alone were sufficient to decrease F-actin concentrations. However, a rise in [Ca2+]i is not necessary for actin depolymerization. Depletion of cellular Ca2+ by treatment with thapsigargin did not protect F-actin against Cd2+; the effect of Cd2+ was enhanced in cells unable to increase their [Ca2+]i. We conclude that depolymerization of F-actin by Cd2+ in smooth muscle and mesangial cells is metal-specific, Ca(2+)-independent, and accompanied by a depletion of total actin protein.
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PMID:Calcium-independent effects of cadmium on actin assembly in mesangial and vascular smooth muscle cells. 867 40

Ionic mechanisms responsible for histamine-induced prolonged depolarization in supraoptic nucleus neurons were investigated using whole-cell patch recordings in horizontally prepared brain slices from adult male rats. Bath application of histamine (1-10 microM) in control medium induced membrane depolarization in nine of 12 phasically firing, putative vasopressin cells, but not in continuous firing, putative oxytocin cells (none of five cells). Depolarization, usually accompanied by increased firing rate, started within 20 s after histamine reached the slices, lasting for 3-13 min, after which they repolarized, and this was repeatable upon washout. Chelation of intracellular Ca2+ with 11 mM 1,2-bis(2-aminophenoxy)ethane-N,N,N',N'-tetra-acetate and perfusion of slices with Ca(2+)-free medium blocked neither histamine-induced membrane depolarizations nor increased firing rates in 24 of 30 cells recorded. Depolarizations were always associated with decreases in membrane conductance. Following treatment with promethazine (H1 receptor antagonist) in six cells excited previously by histamine, subsequent application induced neither membrane depolarization nor increased firing. H1 receptor agonists mimicked histamine-induced depolarization (four of six cells) but the H2 receptor agonist, dimaprit (10 microM), had no effect (all of nine cells). In medium containing 0 mM Ca2+, 2 mM Co2+ and 1-2 microM tetrodotoxin, with internal Ca2+ chelation, bath application of histamine induced an apparent inward current in 15 of 20 supraoptic neurons tested. The peak of inward current evoked by 1-10 microM histamine at holding potentials around -50 mV varied from 10 to 50 pA (27.3 +/- 0.3 pA, mean +/- S.E.M.). Ramp voltage tests revealed that this inward current decreased as membrane potential was hyperpolarized and had a reversal potential of -90.1 +/- 3.8 mV (n = 10). Subtraction of current obtained before from that during histamine application revealed a current that was linear against membrane potential. Increasing external K+ concentration or introduction of K+ channel blockers in the medium attenuated or abolished histamine-induced inward current at membrane potentials close to -50 mV. When external Cl- concentration was reduced, histamine-induced inward current was still seen in five of seven supraoptic cells tested. Neither inward current nor change in conductance was observed following bath application of histamine in 11 of 12 neurons recorded using patch pipettes containing guanosine 5'-O-(2-thiodiphosphate), and in seven of eight neurons using pipettes containing guanosine 5'-O-(3-thiotriphosphate). These results suggest that histamine depolarizes supraoptic neurons, at least in part, by inhibiting a K+ leakage current mediated by H1 receptors linked to GTP-binding proteins and Ca(2+)-independent pathways. This study provides initial evidence for the second messengers regulating K+ leakage current.
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PMID:Histamine-induced prolonged depolarization in rat supraoptic neurons: G-protein-mediated, Ca(2+)-independent suppression of K+ leakage conductance. 884 19

1. The ionic basis of the histamine-induced depolarization of immunohistochemically identified neurones in the supraoptic nucleus (SON) was investigated in the hypothalamo-neurohypophysial explant of male rats. Histamine (0.1-100 microM) caused an H1 receptor-mediated, dose-dependent depolarization of fifty of sixty-two vasopressin neurones in the SON. In contrast, twenty-three oxytocin neurones were either depolarized (n = 6), hyperpolarized (n = 4), or unaffected (n = 13) by histamine. Due to the low percentage of responding cells, oxytocin neurones were not further investigated. 2. Chelation of intracellular Ca2+ with 1,2-bis(2-aminophenoxy)ethane N,N,N',N'-tetraacetic acid (BAPTA; 100-500 mM) blocked the depolarization, whereas blocking Ca2+ influx and synaptic transmission with equimolar Co2+ or elevated (5-20 mM) Mg2+ in nominally Ca(2+)-free solutions was without effect. 3. The amplitude of the histamine-induced depolarization was relatively independent of membrane potential. The input resistance was unaltered by histamine in nine neurones, but in nine other neurones it was decreased and in two neurones it was increased by more than 5%. Neither elevating extracellular K+ nor addition of the K+ channel blockers, apamin, d-tubocurarine, tetraethylammonium (TEA), or intracellular Cs+ decreased the histamine effect. Indeed, broadly blocking K+ currents with TEA and Cs+ significantly increased the depolarization to histamine. 4. Tetrodotoxin (2-3 microM) did not inhibit the histamine-induced depolarization. However, equimolar replacement of approximately 50% of extracellular Na+ with Tris+ or N-methyl-D-glucamine reduced or eliminated the response. 5. The depolarization of vasopressin neurones by histamine thus requires extracellular Na+ and intracellular Ca2+. Activation of a Ca(2+)-activated non-specific cation current or a Ca(2+)-Na+ pump are possible mechanisms for this effect.
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PMID:The ionic dependence of the histamine-induced depolarization of vasopressin neurones in the rat supraoptic nucleus. 888 57

Oxytocin and vasopressin release from neurohypophysial terminals is closely related to the firing activity of magnocellular neurones in the supraoptic (SON) and paraventricular nuclei. It is well established that activation of GABAA receptors potently inhibits the activity of SON neurones and, thus, hormone release. However, whether postsynaptic GABAB receptors are expressed in magnocellular neurones, and the role they play in controlling their firing activity, is still controversial. In the present work, we combined immunohistochemical and electrophysiological techniques to determine whether activation of GABAB receptors in identified oxytocin and vasopressin neurones modulates their firing activity. Patch-clamp recordings from SON neurones were obtained either in the slice preparation or from acutely dissociated neurones. Activation of GABAB receptors with the selective agonist baclofen (10 micro m) inhibited voltage-gated Ca2+ currents, reduced the duration of individual action potentials, as well as the magnitude of the hyperpolarizing after-potential. SON firing activity was reduced by baclofen, and effect that was accompanied by a small membrane hyperpolarization. The inhibition of firing discharge persisted in the presence of synaptic blockade media, and was also observed in acutely dissociated SON neurones. Finally, GABAB-mediated modulation of firing activity was largely blocked by the Ca2+ channel blocker Co2+ (2 mm). In general, baclofen modulatory actions were significantly larger, or observed more predominantly, in vasopressin neurones. In summary, these results support the expression of functional postsynaptic GABAB receptors in SON neurones, activation of which efficiently modulates neuronal excitability, in a Ca2+- and cell-type dependent manner.
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PMID:Activation of postsynaptic GABAB receptors modulate the firing activity of supraoptic oxytocin and vasopressin neurones: role of calcium channels. 1476 98

The lateral septal area (LSA) is a part of the limbic system and is involved in cardiovascular modulation. We previously reported that microinjection of noradrenaline (NA) into the LSA of unanesthetized rats caused pressor responses that are mediated by acute vasopressin release. Magnocellular neurons of the paraventricular (PVN) and supraoptic (SON) of the hypothalamus synthesize vasopressin. In the present work, we studied which of these nuclei is involved in the pressor pathway activated by unilateral NA injection into the LSA as well as the local neurotransmitter involved. Chemical ablation of the SON by unilateral injection of the nonspecific synapses blocker cobalt chloride (1 mM/100 nl) did not affect the pressor response evoked by NA (21 nmol/200 nl) microinjection into the LSA. However, the response to NA was blocked when cobalt chloride (1 mM/100 nl) was microinjected into the PVN, indicating that this hypothalamic nucleus is responsible for the mediation of the pressor response. There is evidence in the literature pointing to glutamate as a putative neurotransmitter activating magnocellular neurons. Pretreatment of the PVN with the selective non-N-methyl-D-asparate (NMDA) antagonist NBQX (2 nmol/100 nl) blocked the pressor response to NA microinjected into the LSA, whereas pretreatment with the selective NMDA antagonist LY235959 (2 nmol/100 nl) did not affect the response to NA. Our results implicate the PVN as the final structure in the pressor pathway activated by the microinjection of NA into the LSA. They also indicate that local glutamatergic synapses and non-NMDA glutamatergic receptors mediate the response in the PVN.
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PMID:Non-N-methyl-D-aspartate glutamate receptors in the paraventricular nucleus of hypothalamus mediate the pressor response evoked by noradrenaline microinjected into the lateral septal area in rats. 1854 42

The dorsal periaqueductal gray area (dPAG) is involved in cardiovascular modulation. In a previous study, we reported that noradrenaline (NA) microinjection into the dPAG of rats caused pressor response that was mediated by vasopressin release. Vasopressin is synthesized by magnocellular neurons in the hypothalamic paraventricular (PVN) and supraoptic (SON) nuclei. In the present study, we verified which nuclei mediated the cardiovascular response to NA as well as the existence of direct neural projection from the dPAG to hypothalamic nuclei. Then, we studied the effect of treating either PVN or SON with the nonselective synaptic blocker cobalt chloride (1mM) on the cardiovascular response to NA (15 nmol) microinjection into dPAG. Attempting to identify neural projections from dPAG to hypothalamic nuclei, we microinjected the neuronal tracer biotinylated-dextran-amine (BDA) into the dPAG and searched varicosity-containing nerve terminals in the PVN and SON. Unilateral cobalt-induced inhibition of synapses in the SON did not affect the cardiovascular response to NA. However, unilateral inhibition of PVN significantly reduced the pressor response to NA. Moreover, cobalt-induced inhibition of synapses in both PVN blocked the pressor response caused by NA microinjected into the dPAG. Microinjection of BDA into the dPAG evidenced presence of varicosity-containing neuronal fibers in PVN but not in SON. The results from cobalt treatment indicated that synapses in PVN mediate the vasopressin-induced pressor response caused by NA microinjection into the dPAG. In addition, the neuroanatomical results from BDA microinjection into the dPAG pointed out the existence of direct neural projections from the dPAG site to the PVN.
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PMID:Paraventricular nucleus mediates pressor response to noradrenaline injection into the dorsal periaqueductal gray area. 1956 36

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