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 effects of the nonpeptide angiotensin II AT1 receptor antagonist candesartan on responses to angiotensin II were investigated in the mesenteric vascular bed of the cat. Under constant-flow conditions, injections of angiotensin II caused dose-related increases in perfusion pressure that were reduced by candesartan in doses of 3, 10, and 30 microg/kg i.v.. After administration of the AT1 receptor antagonist in a dose of 3 microg/kg i.v., the dose-response curve for angiotensin II was shifted to the right in a parallel manner, whereas the administration of higher doses resulted in nonparallel rightward shifts of the angiotensin II dose-response curves. The duration of the inhibitory actions of candesartan were dependent on dose, and the AT1 receptor antagonist did not alter responses to norepinephrine, U46619, vasopressin, neuropeptide Y, BAY K8644, endothelin-1, alpha,beta-methylene ATP, adenosine, acetylcholine, and bradykinin. Treatment with the AT2 receptor antagonist PD123,319 or with sodium meclofenamate did not alter the inhibitory effects of candesartan on responses to angiotensin II. Candesartan also decreased pressor responses to angiotensin III and IV with a parallel shift at the low dose and a nonparallel shift to the right of the dose-response curve at the high dose. These results indicate that candesartan is a potent, selective, long-acting AT1 receptor antagonist that, depending on dose, can produce both competitive and noncompetitive blockade of responses to angiotensin II, III, and IV.
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PMID:Analysis of the effects of candesartan in the mesenteric vascular bed of the cat. 936 85

The (mRen-2)27 transgenic rat (Tg+), a hypertensive model dependent on increased expression of the renin angiotensin system, was used to explore the role of angiotensin AT2 receptors in the control of cardiovascular and renal excretory function. Experiments tested the effect of blockade of AT2 receptors on basal blood pressure and the pressor, renal excretory, and vasopressin (VP) responses to intravenous hypertonic saline (HS). Chronically catheterized male Tg+ and normotensive Sprague-Dawley rats (Tg-) were housed in metabolic cages. PD123319 (AT2 antagonist) or 0.9% NaCl was given by intravenous bolus (3 mg/kg) followed by infusion (50 microg/kg/ min). Blockade of AT2 receptors both in Tg+ and Tg- rats produced no change in basal mean arterial pressure (MAP). The pressor response to intravenous HS (10% NaCl; 325 microL/100 g body weight) was significantly greater in Tg+ than in Tg- rats. PD123319 did not affect the peak rise in MAP but extended the time course of the response only in Tg+ rats. MAP was increased 39+/-4 and 36+/-3 mm Hg in Tg+ rats with and without the antagonist as compared to 20+/-2 and 24+/-2 mm Hg in Tg- rats. In the antagonist-treated Tg+ rats, MAP remained elevated for 60 min as compared to 5 min for Tg+ control or Tg- control or antagonist-treated rats. Hypertonic saline caused similar increases in plasma Na, VP, and in the natriuretic and diuretic responses in both Tg+ and Tg- rats, with no effect of antagonist treatment. These results demonstrate that Tg+ rats are sensitive to the effects of peripheral osmotic stimulation showing an increased pressor response, not attributed to greater secretion of VP or diminished natriuresis. These data also suggest that angiotensin AT2 receptors play a depressor role in the sodium-induced pressor response in this model.
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PMID:Depressor role of angiotensin AT2 receptors in the (mRen-2)27 transgenic rat. 954 77

The subfornical organ and organum vasculosum laminae terminalis represent neuroglial circumventricular organ structures bordering the anterior third cerebral ventricle. Owing to the absence of the blood-brain barrier, the cellular elements of the subfornical organ and the organum vasculosum laminae terminalis can be reached by circulating messenger molecules transferring afferent information. As demonstrated for the control of extracellular fluid composition, the circulating hormone angiotensin II acts on these sensory circumventricular organs to induce drinking, elevated peripheral resistance and neurohypophyseal hormone release via interaction with membrane-spanning receptor proteins. To characterize the cell-specific distribution of angiotensin II receptors within the circumventricular organs, primary cell cultures derived from the subfornical organ or organum vasculosum laminae terminalis of five- to six-day-old rat pups were used to measure alterations in intracellular calcium at the single cell level. Neurons and astrocytes were identified by immunocytochemical staining for specific marker proteins. Bath application of angiotensin II (10(-10)-10(-6) M) dose-dependently induced calcium transients in neurons (19.6%) and astrocytes (15.7%), and angiotensin II threshold concentrations to elicit intracellular calcium signalling proved to be one order of magnitude higher in astrocytes as compared to neurons (10(-9) M). At angiotensin II concentrations higher than 10(-7) M, pronounced desensitization of the angiotensin II receptor occurred. Employing the angiotensin II receptor antagonists losartan (DUP-753; AT1-receptor) and PD-123319 (AT2-receptor), exclusive expression of the AT1 receptor subtype coupled to intracellular calcium concentration signalling could be demonstrated for neurons and astrocytes. In all cells examined, the angiotensin II-evoked increase in intracellular calcium concentrations could be fully suppressed in the absence of extracellular calcium. Co-activation by angiotensin II and other agents (vasopressin, its fragment 8-arginine-vasopressin(4-9), oxytocin, endothelin) was indicated for subfornical organ neurons and organum vasculosum laminae terminalis astrocytes.
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PMID:Angiotensin II-induced calcium signalling in neurons and astrocytes of rat circumventricular organs. 962 48

The effects of bosentan (Ro 47-0203), an endothelin A and B receptor antagonist, on responses to endothelin-1, sarafotoxin 6c, angiotensin II, and arginine vasopressin were investigated in the hind-limb vascular bed of the cat. Under constant-flow conditions, intraarterial injections of endothelin-1 and sarafotoxin 6c induced biphasic changes in hind-limb perfusion pressure characterized by an initial decrease followed by a secondary increase in perfusion pressure. The vasodilator and vasoconstrictor components of the biphasic responses to endothelin-1 and sarafotoxin 6c were reduced by bosentan, and the endothelin receptor antagonist reduced baseline systemic arterial and hind-limb perfusion pressures. Bosentan decreased vasoconstrictor responses to lower doses of angiotensin II, whereas responses to higher doses of angiotensin II and responses to vasopressin, U46619, BAY K8644, norepinephrine, acetylcholine, bradykinin, levcromakalim, PGE1, adrenomedullin, and calcitonin gene-related peptide were not altered. Vasoconstrictor responses to ET-1 were not altered by the angiotensin AT1 receptor antagonist DuP 532 or the AT2 receptor antagonist PD123,319. The results of the present study show that bosentan attenuates vasodilator and vasoconstrictor responses to endothelin-1 and sarafotoxin 6c and vasoconstrictor responses to lower doses of angiotensin II in the hind-limb vascular bed of the cat. These results suggest that endothelin may be involved in mediating responses to lower doses of angiotensin II and in the maintenance of baseline tone in the systemic vascular bed of the cat.
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PMID:Analysis of effects of bosentan (Ro 47-0203), a nonpeptide endothelin ETA/ETB receptor antagonist, in the hind-limb vascular bed of the cat. 963 52

In this study we investigated the effects of the injection into the supraoptic nucleus (SON) of non-peptide AT1- and AT2-angiotensin II (ANG II) receptor antagonists, DuP753 and PD123319, as well as of the arginine-vasopressin (AVP) receptor antagonist d(CH2)5-Tyr(Me)-AVP, on water and 3% NaCl intake induced by the injection of ANG II into the medial septal area (MSA). The effects on water or 3% NaCl intake were assessed in 30-h water-deprived or in 20-h water-deprived furosemide-treated adult male rats, respectively. The drugs were injected in 0.5 microliter over 30-60 s. Controls were injected with a similar volume of 0.15 M NaCl. Antagonists were injected at doses of 20, 80 and 180 nmol. Water and sodium intake was measured over a 2-h period. Previous administration of the AT1 receptor antagonist DuP753 into the SON decreased water (65%, N = 10, P < 0.01) and sodium intake (81%, N = 8, P < 0.01) induced by the injection of ANG II (10 nmol) into the MSA. Neither of these responses was significantly changed by injection of the AT2-receptor antagonist PD123319 into the SON. On the other hand, while there was a decrease in water intake (45%, N = 9, P < 0.01), ANG II-induced sodium intake was significantly increased (70%, N = 8, P < 0.01) following injection of the V1-type vasopressin antagonist d(CH2)5-Tyr(Me)-AVP into the SON. These results suggest that both AT1 and V1 receptors within the SON may be involved in water and sodium intake induced by the activation of ANG II receptors within the MSA. Furthermore, they do not support the involvement of MSA AT2 receptors in the mediation of these responses.
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PMID:Role of angiotensin II and vasopressin receptors within the supraoptic nucleus in water and sodium intake induced by the injection of angiotensin II into the medial septal area. 995 57

The pharmacologic profile of SK-1080, a nonpeptide AT1-selective angiotensin-receptor antagonist, was investigated by receptor-binding studies, functional in vitro assays with rabbit and rat aorta, and in vivo experiments in pithed rats. SK-1080 inhibited the specific binding of [125I]-[Sar1, Ile8]-angiotensin II to human recombinant AT1 receptor with a 12-fold greater potency than losartan [median inhibitory concentration (IC50): 1.01 and 12.3 nM, respectively], but it did not inhibit the binding of [125I]-CGP 42112A to human recombinant AT2 receptor (IC50: >10 microM for both). The Hill coefficient for the competition curve of SK-1080 against AT1 receptor was not significantly different from unity (0.96). Scatchard analysis showed that SK-1080 interacted with human recombinant AT1 receptor in a competitive manner, as with losartan. In functional studies with rat and rabbit aorta, SK-1080 competitively inhibited the contractile response to angiotensin II (pKB values: 9.97 and 9.51, respectively) with 15-25% decrease in the maximal contractile responses, unlike losartan, which showed competitive antagonism without any change in the maximal contractile responses to angiotensin II (pA2 values, 8.02 and 7.59, respectively). In pithed rats, SK-1080 (i.v.) induced a nonparallel right shift in the dose-pressor response curve to angiotensin II (ID50, 0.07 mg/kg) with a dose-dependent reduction in the maximal responses; this antagonistic effect was approximately 25 times more potent than losartan (ID50, 1.74 mg/kg), which showed competitive antagonism. SK-1080 did not alter the responses induced by other agonists such as norepinephrine, KCI, and vasopressin in isolated rabbit aorta and pithed rats. These results suggest that SK-1080 is a highly potent AT1-selective angiotensin II-receptor antagonist with a mode of insurmountable antagonism.
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PMID:Characterization of angiotensin II antagonism displayed by SK-1080, a novel nonpeptide AT1-receptor antagonist. 1006 70

AT1 receptors are predominant in the brain of monkeys and rabbits, while AT2 receptors are relatively abundant in the rat brain. In the human brain, all of the angiotensin II receptors in the forebrain, midbrain, pons, medulla and spinal cord are AT1 receptors, and AT2 receptors are found only in the cerebellum. Angiotensin II in the brain increases water and sodium intake, raises blood pressure, attenuates baro-reflex function, and increases vasopressin secretion. These cardiovascular actions of angiotensin II are exclusively mediated by AT1 receptors. Since the mice whose AT2 receptors are knocked out show the increase in blood pressure, the decrease in body temperature, and some alterations in behavior, these receptors may also play roles in the central nervous system.
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PMID:[Distribution and function of angiotensin II receptor subtypes--central nervous system]. 1036 29

The distributions of two newly discovered receptors, the vasopressin-activated calcium-mobilizing receptor (VACM-1) and the dual angiotensin II/vasopressin receptor (AII/AVP), in the central nervous system (CNS) of the rat were determined using reverse transcriptase-polymerase chain reaction and in situ hybridization. The sequence of the rat VACM-1 cDNA was determined and found very homologous to the rabbit and human sequences. Both VACM-1 and AII/AVP receptor genes were widely expressed in the brain, but differed according to the cell type studied. Glial cells were very faintly labelled. The epithelial cells of the choroid plexuses, the ependymal cells and the pia mater were all labelled. Both genes were most active in neurones throughout the CNS. VACM-1 and AII/AVP receptors were detected in neurones previously shown to possess V1a and V1b vasopressin receptors, and/or the AT1 and AT2 angiotensin II receptors in many brain areas. This was the case for the magnocellular neurones of the supraoptic and paraventricular nuclei of the hypothalamus. We suggest that the VACM-1 and AII/AVP receptors may account for the V2-like responses to vasopressin by these neurones which lack a genuine V2 vasopressin receptor.
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PMID:Expression of the genes encoding the vasopressin-activated calcium-mobilizing receptor and the dual angiotensin II/vasopressin receptor in the rat central nervous system. 1084 13

Angiotensin II (Ang II), the biologically active component of renin-angiotensin system (RAS), acts through two receptor subtypes, the AT1 and the AT2 receptor. All classic physiological effects of Ang II, such as vasoconstriction, aldosterone and vasopressin release, sodium and water retention and sympathetic facilitation, are mediated by the AT1 receptor. Ang II, via its AT1 receptor, is also involved in cell proliferation, left ventricular hypertrophy, nephrosclerosis, vascular media hypertrophy, endothelial dysfunction, neointima formation and processes leading to athero-thrombosis. Recent investigations have established a role for the AT2 receptor in cardiovascular, brain and renal function as well as in the modulation of various biological processes involved in development, cell differentiation, tissue repair and apoptosis. This review summarizes new insights in the regulation, signalling and (patho-) physiological functions of AT1 and AT2 receptors. An extensive review on angiotensin receptors has been published recently (de Gasparo M et al., Pharmacol Rev 2000; 52: 415-72).
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PMID:Angiotensin AT1/AT2 receptors: regulation, signalling and function. 1279 27

In this study we investigated the influence of d(CH2)5-Tyr(Me)-[Arg8]vasopressin (AAVP) and [adamanteanacetyl1,0-ET-d-Tyr2,Val4,aminobutyryl6,Arg8,9]-[Arg8]vasopressin (ATAVP), which are antagonists of vasopressin V1 and V2 receptors, and the effects of losartan, a selective angiotensin AT1 receptor antagonist, and CGP42112A, a selective AT2 receptor antagonist, injected into the lateral septal area (LSA) on thirst and hypertension induced by [Arg8]vasopressin (AVP). AAVP and ATAVP injected into the LSA reduced the drinking responses elicited by injecting AVP into the LSA. Both the AT1 and AT2 ligands administered into the LSA elicited a concentration-dependent decrease in the water intake induced by AVP injected into the LSA, but losartan was more effective than CGP42112A. The increase in MAP, due to injection of AVP into the LSA, was reduced by prior injection of AAVP from 18 +/- 1 to 6 +/- 1 mm Hg. Losartan injected into the LSA prior to AVP reduced the increase in MAP to 7 +/- 0.8 mm Hg. ATAVP and CGP42112A produced no changes in the pressor effect of AVP. These results suggest that the dipsogenic effects induced by injecting AVP into the LSA were mediated primarily by AT1 receptors. However, doses of losartan were more effective when combined with CGP42112A than when given alone, suggesting that the thirst induced by AVP injections into LSA may involve activation of multiple AVP and angiotensin II receptor subtypes. The pressor response of AVP was reduced by losartan and by AAVP. CGP42112A and ATAVP did not change the AVP pressor response. These results suggest that facilitator effects of AVP on water intake are mediated through the activation of V1 receptors and that the inhibitory effect requires V2 receptors. The involvement of AT1 and AT2 receptors can be postulated. Based on the present findings, we suggest that the AVP in the LSA may play a role in the control of water and arterial blood pressure balance.
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PMID:Influence of arginine vasopressin receptors and angiotensin receptor subtypes on the water intake and arterial blood pressure induced by vasopressin injected into the lateral septal area of the rat. 1510 40


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