家兔肾脏体内对ATP及ATP类似物的局部血管反应:腺苷受体和前列腺素的作用
Regional vascular responses to ATP and ATP analogues in the rabbit kidney in vivo: roles for adenosine receptors and prostanoids.
作者信息
Eppel G A, Ventura S, Evans R G
机构信息
Department of Physiology, Monash University, Melbourne, Victoria, Australia.
出版信息
Br J Pharmacol. 2006 Nov;149(5):523-31. doi: 10.1038/sj.bjp.0706901. Epub 2006 Sep 18.
BACKGROUND AND PURPOSE
Our knowledge of the effects of P2-receptor activation on renal vascular tone comes mostly from in vitro models. We aimed to characterise the pharmacology of ATP in the renal circulation in vivo.
EXPERIMENTAL APPROACH
In pentobarbitone anaesthetized rabbits, we examined total renal and medullary vascular responses to ATP (0.2 and 0.8 mg kg(-1)), beta, gamma-methylene ATP (beta, gamma-mATP, 7 and 170 microg kg(-1)), alpha, beta-mATP (0.2 and 2 microg kg(-1)) and adenosine (2 and 6 microg kg(-1)) using transit-time ultrasound and laser Doppler flowmetry, respectively. We also determined whether adenosine receptors, NO or prostanoids contribute to the actions of the purinoceptor agonists.
KEY RESULTS
Renal arterial boluses of ATP, beta,gamma-mATP, and adenosine produced biphasic changes; ischaemia followed by hyperaemia, in total renal and medullary blood flow. alpha,beta-mATP induced only ischaemia. The adenosine receptor antagonist 8-(p-sulphophenyl)theophylline reduced the responses to adenosine and the hyperaemic responses to ATP and beta,gamma-mATP only. NO synthase inhibition (Nomega-nitro-L-arginine) did not significantly alter responses to the P2 receptor agonists. Subsequent cyclooxygenase inhibition (ibuprofen) reduced the ATP- and beta, gamma-mATP-induced increases in renal blood flow. All other responses remained unchanged.
CONCLUSIONS AND IMPLICATIONS
In the rabbit kidney in vivo, alpha, beta-mATP sensitive receptors mediate vasoconstriction. beta,gamma-mATP and ATP induce vasodilation at least partly through adenosine receptors. ATP induced renal vasodilatation is independent of NO and partly dependent on prostanoids in the bulk of the kidney, but not in the vasculature controlling medullary blood flow.
背景与目的
我们对P2受体激活对肾血管张力影响的了解大多来自体外模型。我们旨在表征体内肾循环中ATP的药理学特性。
实验方法
在戊巴比妥麻醉的兔子中,我们分别使用渡越时间超声和激光多普勒血流仪,研究了肾动脉注射ATP(0.2和0.8mg kg⁻¹)、β,γ-亚甲基ATP(β,γ-mATP,7和170μg kg⁻¹)、α,β-mATP(0.2和2μg kg⁻¹)和腺苷(2和6μg kg⁻¹)后总的肾血管和髓质血管反应。我们还确定了腺苷受体、一氧化氮或前列腺素是否参与嘌呤受体激动剂的作用。
主要结果
肾动脉注射ATP、β,γ-mATP和腺苷会引起双相变化;总的肾血流和髓质血流先出现缺血,随后出现充血。α,β-mATP仅诱导缺血。腺苷受体拮抗剂8-(对磺基苯基)茶碱仅降低了对腺苷的反应以及对ATP和β,γ-mATP的充血反应。一氧化氮合酶抑制(Nω-硝基-L-精氨酸)并未显著改变对P2受体激动剂的反应。随后的环氧化酶抑制(布洛芬)减少了ATP和β,γ-mATP诱导的肾血流量增加。所有其他反应均保持不变。
结论与启示
在体内兔肾中,α,β-mATP敏感受体介导血管收缩。β,γ-mATP和ATP至少部分通过腺苷受体诱导血管舒张。ATP诱导的肾血管舒张不依赖于一氧化氮,在肾实质中部分依赖于前列腺素,但在控制髓质血流的血管系统中并非如此。
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