Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

1. In pentobarbitone-anaesthetized dogs, prazosin (2 x 1-3 micronmol day-1 kg-1; 2 x 0-5 mg day-1 kg-1) administered orally for 3 days reduced resting aortic blood pressure as well as the pressor response to bilateral carotid occlusion. Prazosin neither affected resting heart rate nor the tachycardia induced by intravenous isoprenaline, noradrenaline and electrical stimulation of preganglionic and postganglionic sympathetic nerve fibres. Prazosin significantly attenuated the fall in perfusion pressure in a perfused hind leg resulting from the section of the ipsilateral sympathetic lumbar chain. Furthermore, the drug inhibited by about 50% the hind-leg pressor responses elicited by intra-arterial administration of alpha-adrenoreceptor agonists and by stimulation of the lumbar sympathetic chain, without altering the effects of angiotension II. 2. Acute administration of prazosin into the innervated hind leg provoked a dose-related reduction in vascular resistance. However, after spinal anaesthesia no such an effect was observed even when vascular tone was increased by infusion of vasopressin. Under the same experimental conditions administration of papaverine induced a vasodilatation. 3. This study confirms that prazosin impairs the function of vascular alpha-adrenoreceptors, and strongly challenges the claim that this compound produces a directly mediated vasodilatation of the leg vascular bed.
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PMID:Cardiovascular effects of prazosin in dogs. 107 89

1. The cardiovascular effects of prazosin, a new antihypertensive drug, were studied in normotensive and genetically hypertensive rats. 2. Prazosin, infused intra-arterially, lowered vascular resistance in the blood-perfused rat hind limb. This effect was dependent on the presence of intact sympathetic innervation to the limb; no direct vasodilatation was demonstrated. In this preparation prazosin infusion reduced vasoconstrictor responses to noradrenaline. 3. In the saline-perfused rat mesenteric artery preparation prazosin reduced responses to noradrenaline and sympathetic nerve stimulation but not those to serotonin and vasopressin. Prazosin was more potent than phentolamine, on a molar basis, in reducing the vasoconstrictor effects of noradrenaline. 4. A comparison of the effects of prazosin injected intravenously and into a lateral cerebral ventricle failed to show any central action of the drug on blood pressure. Experiments using the donor blood-perfused, vascularly isolated rat hind limb preparation confirmed that the sympatholytic effect of prazosin occurred within the limb itself.
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PMID:Cardiovascular effects of prazosin in normotensive and genetically hypertensive rats. 114 32

Conscious rats were given i. p. polyethylene glycol (PEG) or dextran injections to compare their efficacy in inducing moderate hypovolaemia. Dextran was found unsuitable, producing large variability in the plasma vasopressin (AVP) concentrations. Putative neurotransmitters involved in the AVP response to hypovolaemia and in basal release were examined using opioid, and beta-adrenoceptor and dopamine receptor-blocking agents. A dose of PEG was chosen to produce a decrease in blood volume of approx 14.5% giving plasma AVP concentrations of 19.0 +/- 4.6 pmol/l. Naloxone and phenoxybenzamine failed to influence AVP release under both hypovolaemic and basal conditions. Prazosin also failed to influence the AVP response. In contrast propranolol elevated the plasma AVP concentrations in both conditions. Haloperidol enhanced basal AVP release but did not influence release during hypovolaemia. Guanethidine pretreatment partially blocked the response to hypovolaemia, but did not affect basal plasma AVP. Thus it appears that aminergic pathways have an inhibitory influence on AVP release under hypovolaemic and basal conditions. However, endogenous opioids do not appear to contribute significantly to the hypovolaemic response.
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PMID:Vasopressin release in response to hypovolaemia in the conscious rat and the effect of opioid and aminergic receptor antagonists. 168 65

Human and pig cystic and pig hepatic arteries were suspended in tissue baths and the effect of alpha-adrenoceptor selective drugs, prostaglandin F2 alpha (PGF2 alpha) and vasopressin were investigated. Prazosin fulfilled the criteria for competitive antagonism in concentrations 10(-9)-10(-7) M. The pA2-values were 9.53 in human cystic, 9.74 in pig cystic, and 9.57 in pig hepatic artery. Rauwolscine had no significant effect in the different arteries. In human cystic artery noradrenaline had significantly (P less than 0.05) higher Emax and pEC50-values (135% of the preceding K(+)-induced contraction and 6.4, respectively) compared with pig cystic (106% and 5.7, respectively) and pig hepatic artery (116% and 5.9, respectively). Vasopressin had no effect in the cystic arteries, whereas it had a high potency (pEC50 was 8.5) but low intrinsic activity (Emax was 14%) in pig hepatic artery. Prostaglandin F2 alpha had a significantly higher Emax in human than in pig arteries. No differences were found in pEC50-values. This study indicates a similarity in pharmacological characteristics of some vasoactive drugs especially between pig cystic and hepatic arteries. If this is also true in man, the easily obtainable cystic artery can be used for screening the effect of drugs on the hepatic artery.
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PMID:Effects of alpha-adrenoceptor active drugs, prostaglandin F2 alpha and vasopressin on cystic and hepatic arteries of pig and man. 196 53

1. Intravenous infusions of UK14304 (0.3-10 micrograms/kg per min) in pithed rat produced dose-dependent pressor responses which were not affected by prazosin (10 micrograms/kg) but were reduced by yohimbine (0.3 mg/kg). 2. Pressor responses to noradrenaline (0.1 micrograms/kg), phenylephrine (1 micrograms/kg) and vasopressin (10 mU/kg) were enhanced during infusions of UK14304 (0.03-1 micrograms/kg per min). Likewise, pressor responses to spinal sympathetic stimulation were enhanced during infusions of low concentrations of UK14304 (0.03-0.3 microgram/kg per min) but were reduced during infusion of a higher concentration of UK14304 (10 micrograms/kg per min). 3. After administration of yohimbine (0.3 mg/kg) or the calcium channel blocking drug diltiazem (infused at 50 micrograms/kg per min), pressor responses to noradrenaline and UK14304 were reduced, and responses to noradrenaline during infusion of UK14304 were not enhanced. 4. Prazosin (10 micrograms/kg) revealed a secondary depressor component in the response to sympathetic stimulation which is due to beta-adrenoceptor activation, since it was abolished by ICI 118551 (0.3 mg/kg). In the presence of ICI 118551 plus prazosin, pressor responses to sympathetic stimulation were enhanced during infusions of UK14304. 5. The depressor response to nitroprusside and the depressor component of responses to sympathetic stimulation after prazosin were enhanced during infusions of UK14304 at concentrations that increased the blood pressure. 6. The findings show that alpha 2-adrenoceptor activation enhanced the pressor responses to sympathetic nerve stimulation, noradrenaline, phenylephrine and vasopressin in the pithed rat and beta-adrenoceptor activation produced depressor responses which increased with increasing blood pressure.
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PMID:Effects of the alpha 2-adrenoceptor agonist UK14304 on pressor responses in pithed rats. 198 Feb 35

Epinephrine (E) and norepinephrine (NE) alone did not increase free intracellular Ca2+ ([Ca2+]i) in human platelets loaded with Quin-2 or Fura-2; however, they did potentiate the effects of vasopressin (VP), serotonin (S) and platelet activating factor (PAF). The synergism in [Ca2+]i increase was also obtained in the presence of VP together with PAF, S with PAF as well as VP with S. The effect of E or NE was blocked by yohimbine and phentolamine. Prazosin was less effective, while propranolol had no effect at all. Clonidine did not potentiate the effects of VP, S or PAF on [Ca2+]i; however, it did block the potentiation induced by E or NE. E potentiated the VP-induced 45Ca2+ uptake as well as VP-stimulated inositol 1,4,5-trisphosphate (IP3) formation. E alone did not change significantly the level of IP3 in platelets, nor did it influence the cyclic AMP level. The experimental results suggest that both Ca2+ influx and polyphosphoinositide breakdown underlie the mechanism of potentiation.
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PMID:[Biochemical features of platelet alpha2-adrenergic receptors and their connection with an increase in concentration of intracellular Ca2+]. 255 95

Effects of inhibition of alpha 1-(prazosin) and alpha 2-(yohimbine) adrenoreceptors on plasma lysine vasopressin concentration during normotension and hemorrhagic hypotension were studied in unanesthetized newborn pigs. During the normotensive period, treatment with prazosin and yohimbine both increased plasma lysine vasopressin concentration (vehicle = 3.4 +/- 1.21 microU/ml; prazosin = 35.8 +/- 10.8 microU/ml; and yohimbine = 20.1 +/- 9.5 microU/ml). Prazosin caused a decline in arterial pressure (vehicle = 60 +/- 6 mmHg; prazosin = 49 +/- 5 mmHg), which may account for the increase in plasma lysine vasopressin concentration, whereas yohimbine increased arterial pressure (73 +/- 3 mmHg). On hemorrhage to equivalent arterial pressure, plasma lysine vasopressin concentration increased to similar levels in vehicle- (110.3 +/- 28.7 microU/ml) and prazosin-treated (92.6 +/- 14.2 microU/ml) piglets. In contrast, on hemorrhage of yohimbine-treated piglets, the increase in plasma lysine vasopressin concentration was augmented remarkably (527.0 +/- 103.2 microU/ml) in comparison to the other groups. We conclude that, in unanesthetized newborn pigs, treatment with the alpha 2-adrenoreceptor antagonist yohimbine increased plasma lysine vasopressin concentration and markedly accentuated the vasopressin response to hemorrhage. An alpha 2-adrenergic receptor-mediated mechanism appears to be an important inhibitory component in the vasopressin secretory system of the newborn pig.
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PMID:Adrenergic mediation of vasopressin secretion in newborn pigs. 282 Feb 51

The largest rami caecales of the ileocolic artery, which is a branch of the mesenteric artery, were perfused at a constant rate of flow. Either vasoconstriction (as an increase in perfusion pressure) or the release of previously incorporated [3H]-noradrenaline was measured. Noradrenaline and ATP, but not carbachol, serotonin, adenosine, Arg-vasopressin and neuropeptide Y, caused marked vasoconstriction. When the sympathetic vasoconstrictor axons in the arterial wall were stimulated by electrical field pulses (either 5 pulses at 10 Hz or 100 pulses at 5 Hz; 0.3 ms pulse width, 200 mA current strength), the ensuing vasoconstriction was at best slightly reduced by phentolamine, prazosin and phenoxybenzamine. The response to 100 pulses, 5 Hz was even enhanced by phentolamine and yohimbine. All antagonists except yohimbine blocked the effect of exogenous noradrenaline. Prazosin did not change the effect of exogenous ATP. alpha,beta-Methylene-ATP (3-15 mumol/l) elicited transient vasoconstriction. Subsequently, responses to ATP as well as to electrical stimulation were reduced and recovered slowly. The response to noradrenaline was not changed. That part of the electrically induced vasoconstriction that remained after alpha,beta-methylene-ATP was almost abolished by phentolamine or prazosin. Pre-treatment of the animals with reserpine decreased but did not prevent the electrically evoked contraction of their arteries. The reserpine-resistant response was not changed by prazosin but was abolished by alpha,beta-methylene-ATP. The vasoconstriction elicited by electrical pulses was not affected by atropine or methysergide but was entirely blocked by tetrodotoxin, guanethidine or exposure to 6-hydroxydopamine. In arteries pre-incubated with [3H]-noradrenaline, electrical stimulation (100 pulses at 5 Hz) increased the outflow of tritium. The evoked overflow was blocked by tetrodotoxin, not changed by alpha,beta-methylene-ATP (9 mumol/l) or prazosin, and enhanced by phentolamine, phenoxybenzamine and yohimbine. We conclude that, in the branch of the mesenteric artery examined, both noradrenaline and ATP or a closely related compound transmit information from sympathetic neurones to smooth muscle. An alpha-adrenoceptor antagonist can reduce neurogenic vasoconstriction by blockade of post-junctional alpha-(probably alpha 1) receptors, reserpine by selective depletion of noradrenaline, and alpha,beta-methylene-ATP by desensitization of the post-junctional ATP (probably P2) receptor mechanism. Noradrenaline and ATP appear to be released from the same neurone. In addition, prejunctional alpha 2-adrenergic autoinhibition of transmitter release operates in the artery. alp
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PMID:Noradrenaline and adenosine triphosphate as co-transmitters of neurogenic vasoconstriction in rabbit mesenteric artery. 286 64

1. Intra-arterial blood pressures and heart rates were recorded in conscious, unrestrained, Long Evans and Brattleboro rats receiving sequential, continuous administrations of selective alpha 1- (prazosin) and alpha 2- (idazoxan) adrenoceptor antagonists. The same protocols were also run in the presence of ICI 118551 (a selective antagonist of beta 2-adrenoceptors). 2. Prazosin and idazoxan caused large, but transient, hypotensions in Long Evans and Brattleboro rats. In the continued presence of both drugs there were marked, intermittent, depressor episodes and tachycardias in both strains of rat. 3. In the presence of low or high doses of ICI 118551 the hypotensive responses to prazosin and idazoxan were markedly reduced in both strains of rat and blood pressures showed little variability, although intermittent tachycardias still occurred. 4. In adrenal-demedullated Long Evans rats, the hypotensive responses to prazosin and idazoxan were attenuated and in the presence of both drugs, blood pressure was relatively steady, although intermittent tachycardias still occurred. 5. In the presence of prazosin and idazoxan, when a depressor episode was not occurring, administration of captopril caused hypotension in Long Evans and Brattleboro rats. In the latter, the reduction in blood pressure was sustained, whereas there was a recovery in blood pressure in Long Evans rats. This recovery was punctuated by depressor episodes, and was abolished by a V1-receptor antagonist (d(CH2)5DAVP). 6. Long Evans rats given two primed doses of the non-selective alpha-adrenoceptor antagonist, phentolamine, exhibited variation in blood pressure similar to that seen in the presence of prazosin and idazoxan. As in the latter case, blood pressure variability was inhibited by the beta 2-adrenoceptor antagonist, ICI 118551. 7. Administration of idazoxan into a lateral ventricle in Long Evans rats receiving phenoxybenzamine intravenously did not cause blood pressure instability. However, intravenous administration of idazoxan in the same animals produced intermittent depressor episodes and tachycardias similar to those seen in the presence of prazosin and idazoxan. 8. The simplest explanation of the results is that beta 2-adrenoceptor-mediated depressor mechanisms contribute to the hypotensive responses to alpha 1- and alpha 2-adrenoceptor antagonism. Furthermore, in the presence of adequate peripheral alpha 1- and alpha 2-adrenoceptor antagonism, blood pressure may be maintained by the renin-angiotensin system and vasopressin (although it is only when the former system has been antagonized that a clear-cut pressor action of vasopressin is apparent). Under these conditions, blood pressure maintenance is interrupted by intermittent depressor episodes that are largely due to adrenal medullary activation.
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PMID:Involvement of beta 2-adrenoceptor-mediated mechanisms in the cardiovascular responses to alpha 1- and alpha 2-adrenoceptor antagonism in conscious, unrestrained, Long Evans and Brattleboro rats. 289 80

The mechanisms underlying the vascular responses of superficial fibular nerve stimulation (SFNS) have not been defined. Right hindpaws of anesthetized heparinized dogs were vascularly and neurally isolated, enclosed in a volume recorder, and perfused with controlled pressure. Vascular volume (VV) (131I-labeled albumin) and rate of tissue volume changes (VT) (plethysmography) were determined. SFNS increased blood flow resistance, reduced capillary filtration coefficient (CFC) and permeability-surface area product (PS) of 86Rb, increased VV, and reduced 131I-albumin recovery. VT increased at the rate of 3.35 +/- 0.45 ml/min. SFNS during terbutaline increased resistance, CFC, PS, and VV were unchanged, 131I-albumin recovery was complete, and VT increased at one-fourth the control rate. Phentolamine and yohimbine blocked all responses to SFNS. Prazosin with SFNS attenuated hemodynamic changes and VT increased to two-thirds of control, decreased VV, albumin, and Rb recovery but not PS and CFC. SFNS during pyrilamine maleate reduced VT increase to two-thirds of control rate and blocked decreases in PS and CFC. Metiamide did not change the SFNS responses, except to reduce vascular volume and VT. The combined histamine H1 and H2 blockers reduced VT increase to one-third of control and attenuated albumin loss, prevented histamine dilation, attenuated vasopressin and norepinephrine but not angiotensin constriction. SFNS stimulation increased precapillary resistance by alpha 1- and alpha 2-receptors and venous resistance by alpha 2-receptors and increased permeability by histamine release from endothelium.
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PMID:Adrenergic and histaminergic neural interactions in dog paws. 290 Dec 31


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