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Some quantitative uses of drug antagonists.药物拮抗剂的一些定量应用。
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Triphasic response of rat intracerebral arterioles to increasing concentrations of vasopressin in vitro.大鼠脑内小动脉在体外对血管加压素浓度增加的三相反应。
J Cereb Blood Flow Metab. 1993 Mar;13(2):304-9. doi: 10.1038/jcbfm.1993.38.
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Angiotensin II: nitric oxide interaction and the distribution of blood flow.
Am J Physiol. 1993 Dec;265(6 Pt 2):R1276-83. doi: 10.1152/ajpregu.1993.265.6.R1276.
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Arginine vasopressin produces renal vasodilation via V2 receptors in conscious dogs.精氨酸加压素通过V2受体在清醒犬中产生肾血管舒张。
Am J Physiol. 1993 Oct;265(4 Pt 2):R934-42. doi: 10.1152/ajpregu.1993.265.4.R934.
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Cerebral blood flow and cerebrovascular reactivity after inhibition of nitric oxide synthesis in conscious goats.清醒山羊一氧化氮合成抑制后脑血流量和脑血管反应性
Br J Pharmacol. 1993 Sep;110(1):428-34. doi: 10.1111/j.1476-5381.1993.tb13828.x.
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Nitric oxide may participate in V2 vasopressin-receptor-mediated renal vasodilation.一氧化氮可能参与血管升压素V2受体介导的肾血管舒张。
J Cardiovasc Pharmacol. 1994 Feb;23(2):331-6.
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Vasopressin in plasma and CSF of patients with subarachnoid haemorrhage.蛛网膜下腔出血患者血浆和脑脊液中的血管加压素
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Cardiac output distribution during vasopressin infusion or dehydration in conscious dogs.清醒犬输注血管加压素或脱水时的心输出量分布
Am J Physiol. 1982 Nov;243(5):H663-9. doi: 10.1152/ajpheart.1982.243.5.H663.
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Evidence for the direct effect of vasopressin on human and goat cerebral arteries.血管加压素对人和山羊脑动脉直接作用的证据。
J Pharmacol Exp Ther. 1984 Mar;228(3):749-55.
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Vasopressin causes endothelium-dependent relaxations of the canine basilar artery.血管加压素可引起犬基底动脉内皮依赖性舒张。
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血管加压素动脉反应的区域差异:内皮一氧化氮的作用

Regional differences in the arterial response to vasopressin: role of endothelial nitric oxide.

作者信息

García-Villalón A L, Garcia J L, Fernández N, Monge L, Gómez B, Diéguez G

机构信息

Departamento de Fisiología, Facultad de Medicina, Universidad Autónoma, Madrid, Spain.

出版信息

Br J Pharmacol. 1996 Aug;118(7):1848-54. doi: 10.1111/j.1476-5381.1996.tb15613.x.

DOI:10.1111/j.1476-5381.1996.tb15613.x
PMID:8842453
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1909857/
Abstract
  1. The isometric response to arginine-vasopressin (10(-10)-10(-7)M) was studied in 2 mm long rabbit arterial segments isolated from several vascular beds (cutaneous, pial, renal, coronary, muscular, mesenteric and pulmonary). 2. Vasopressin induced contraction in central ear (cutaneous), basilar (pial), renal, coronary and saphenous (muscular) arteries, but had no effect in mesenteric and pulmonary arteries; the order of potency for the contraction was: ear > basilar > renal > coronary > saphenous arteries. 3. Treatment with the blocker of nitric oxide synthesis NG-nitro-L-arginine methyl ester (L-NAME; 10(-6)-10(-4) M) increased significantly (P < 0.05) the contraction to vasopressin in ear (148% of control), basilar (150% of control), renal (304% of control), coronary (437% of control) and saphenous (235% of control) arteries. Removal of the endothelium increased significantly (P < 0.05) the contraction to vasopressin in basilar (138% of control), renal (253% of control), coronary (637% of control) and saphenous (662% of control) arteries, but not in ear artery. Mesenteric and pulmonary arteries in the presence of L-NAME or after endothelium removal did not respond to vasopressin, as occurred in control conditions. 4. The specific antagonist for V1 vasopressin receptors d(CH2)5Tyr(Me)AVP (3 x 10(-9)-10(-7) M) was more potent (pA2 = 9.3-10.1) than the antagonist for both V1 and V2 vasopressin receptors desGly-d(CH2)5-D-Tyr(Et)ValAVP (10(-7)-10(-6) M) (pA2 = 7.4-8.4) to block the contraction to vasopressin of ear, basilar, renal and coronary arteries. 5. The specific V2 vasopressin agonist [deamino-Cys1, D-Arg8]-vasopressin (desmopressin) (10(-10)-10(-7) M) did not produce any effect in any effect in any of the arteries studied, with or without endothelium. 6. In arteries precontracted with endothelin-1, vasopressin or desmopressin did not produce relaxation. 7. These results suggest: (a) most arterial beds studied (5 of 7) exhibit contraction to vasopressin with different intensity; (b) the vasoconstriction to this peptide is mediated mainly by stimulation of V1 vasopressin receptors, and (c) endothelial nitric oxide may inhibit the vasoconstriction to this peptide, especially in coronary and renal vasculatures.
摘要
  1. 研究了从多个血管床(皮肤、软脑膜、肾、冠状、肌肉、肠系膜和肺)分离的2毫米长兔动脉段对精氨酸加压素(10⁻¹⁰ - 10⁻⁷M)的等长反应。2. 加压素可使中耳(皮肤)、基底(软脑膜)、肾、冠状和隐静脉(肌肉)动脉收缩,但对肠系膜和肺动脉无作用;收缩效力顺序为:耳动脉>基底动脉>肾动脉>冠状动脉>隐静脉动脉。3. 用一氧化氮合成阻滞剂NG - 硝基 - L - 精氨酸甲酯(L - NAME;10⁻⁶ - 10⁻⁴M)处理后,耳动脉(对照的148%)、基底动脉(对照的150%)、肾动脉(对照的304%)、冠状动脉(对照的437%)和隐静脉动脉(对照的235%)对加压素的收缩反应显著增加(P<0.05)。去除内皮后,基底动脉(对照的138%)、肾动脉(对照的253%)、冠状动脉(对照的637%)和隐静脉动脉(对照的662%)对加压素的收缩反应显著增加(P<0.05),但耳动脉无变化。在L - NAME存在下或去除内皮后,肠系膜和肺动脉对加压素无反应,与对照情况相同。4. V1加压素受体特异性拮抗剂d(CH2)5Tyr(Me)AVP(3×10⁻⁹ - 10⁻⁷M)在阻断耳、基底、肾和冠状动脉对加压素的收缩反应方面比V1和V2加压素受体拮抗剂desGly - d(CH2)5 - D - Tyr(Et)ValAVP(10⁻⁷ - 10⁻⁶M)更有效(pA2 = 9.3 - 10.1)(pA2 = 7.4 - 8.4)。5. 特异性V2加压素激动剂[去氨基 - Cys1,D - Arg8] - 加压素(去氨加压素)(10⁻¹⁰ - 10⁻⁷M)在有或无内皮的情况下,对所研究的任何动脉均无作用。6. 在预先用内皮素 - 1预收缩的动脉中,加压素或去氨加压素不产生舒张作用。7. 这些结果表明:(a)所研究的大多数动脉床(7个中的5个)对加压素呈现不同强度的收缩;(b)该肽的血管收缩主要由V1加压素受体的刺激介导,并且(c)内皮一氧化氮可能抑制对该肽的血管收缩,尤其是在冠状动脉和肾血管系统中。