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本文引用的文献

1
Extracellular 2',3'-cAMP and 3',5'-cAMP stimulate proliferation of preglomerular vascular endothelial cells and renal epithelial cells.细胞外 2',3'-cAMP 和 3',5'-cAMP 刺激肾小球血管内皮细胞和肾上皮细胞的增殖。
Am J Physiol Renal Physiol. 2012 Oct;303(7):F954-62. doi: 10.1152/ajprenal.00335.2012. Epub 2012 Jul 11.
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The brain in vivo expresses the 2',3'-cAMP-adenosine pathway.体内的大脑表达 2',3'-cAMP-腺苷途径。
J Neurochem. 2012 Jul;122(1):115-25. doi: 10.1111/j.1471-4159.2012.07705.x. Epub 2012 Mar 20.
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Equilibrative nucleoside transporter 1 (ENT1) regulates postischemic blood flow during acute kidney injury in mice.平衡核苷转运蛋白 1(ENT1)在小鼠急性肾损伤期间调节缺血后的血流。
J Clin Invest. 2012 Feb;122(2):693-710. doi: 10.1172/JCI60214. Epub 2012 Jan 24.
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The 2',3'-cAMP-adenosine pathway.2',3'-cAMP-腺苷途径。
Am J Physiol Renal Physiol. 2011 Dec;301(6):F1160-7. doi: 10.1152/ajprenal.00450.2011. Epub 2011 Sep 21.
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2',3'-cAMP, 3'-AMP, and 2'-AMP inhibit human aortic and coronary vascular smooth muscle cell proliferation via A2B receptors.2',3'-cAMP、3'-AMP 和 2'-AMP 通过 A2B 受体抑制人主动脉和冠状动脉血管平滑肌细胞增殖。
Am J Physiol Heart Circ Physiol. 2011 Aug;301(2):H391-401. doi: 10.1152/ajpheart.00336.2011. Epub 2011 May 27.
6
2'-AMP and 3'-AMP inhibit proliferation of preglomerular vascular smooth muscle cells and glomerular mesangial cells via A2B receptors.2'-AMP 和 3'-AMP 通过 A2B 受体抑制肾小球血管平滑肌细胞和肾小球系膜细胞的增殖。
J Pharmacol Exp Ther. 2011 May;337(2):444-50. doi: 10.1124/jpet.110.178137. Epub 2011 Jan 26.
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Adenosine generation and signaling during acute kidney injury.急性肾损伤期间的腺苷生成和信号转导。
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8
Extracellular 2,3-cyclic adenosine monophosphate is a potent inhibitor of preglomerular vascular smooth muscle cell and mesangial cell growth [corrected].细胞外 2,3-环腺苷单磷酸是肾小球血管平滑肌细胞和系膜细胞生长的强力抑制剂[已更正]。
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Extracellular 2',3'-cAMP is a source of adenosine.细胞外 2',3'-cAMP 是腺苷的来源。
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Kidney-specific reconstitution of the A1 adenosine receptor in A1 adenosine receptor knockout mice reduces renal ischemia-reperfusion injury.在A1腺苷受体基因敲除小鼠中进行肾脏特异性A1腺苷受体重建可减轻肾脏缺血再灌注损伤。
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在大鼠体内 2',3'-cAMP、2'-AMP 和 3'-AMP 的心血管药理学研究。

In vivo cardiovascular pharmacology of 2',3'-cAMP, 2'-AMP, and 3'-AMP in the rat.

机构信息

Department of Pharmacology and Chemical Biology, University of Pittsburgh School of Medicine, Pittsburgh, PA 15219-3130, USA.

出版信息

J Pharmacol Exp Ther. 2013 Aug;346(2):190-200. doi: 10.1124/jpet.113.205757. Epub 2013 Jun 12.

DOI:10.1124/jpet.113.205757
PMID:23759508
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3716313/
Abstract

UNLABELLED

The naturally occurring purine 2',3'-cAMP is metabolized in vitro to 2'-AMP and 3'-AMP, which are subsequently metabolized to adenosine. Whether in vivo 2',3'-cAMP, 2'-AMP, or 3'-AMP are rapidly converted to adenosine and exert rapid effects via adenosine receptors is unknown. To address this question, we compared the cardiovascular and renal effects of 2',3'-cAMP, 2'-AMP, 3'-AMP, 3',5'-cAMP, 5'-AMP, and adenosine in vivo in the rat. Purines were infused intravenously while monitoring mean arterial blood pressure (MABP), heart rate (HR), cardiac output, and renal and mesenteric blood flows. Total peripheral (TPR), renal vascular (RVR), and mesenteric vascular (MVR) resistances were calculated. Urine was collected for determination of urine excretion rate [urine volume (UV)]. When sufficient urine was available, the sodium excretion rate (Na(+)ER) and glomerular filtration rate (GFR) were determined. 2',3'-cAMP, 2'-AMP, and 3'-AMP dose-dependently and profoundly reduced MABP, HR, TPR, and MVR with efficacy and potency similar to adenosine and 5'-AMP. These effects of 2',3'-cAMP, 2'-AMP, and 3'-AMP were attenuated by blockade of adenosine receptors with 1,3-dipropyl-8-(p-sulfophenyl)xanthine. 2',3'-cAMP, 2'-AMP, 3'-AMP, adenosine, and 5'-AMP variably affected RVR, but profoundly (nearly 100%) decreased UV at higher doses. GFR and Na(+)ER could be measured at the lower doses and were suppressed by 2',3'-cAMP, 2'-AMP, and 3'-AMP, but not by adenosine or 5'-AMP. 2',3'-cAMP increased urinary excretion rates of 2'-AMP, 3'-AMP, and adenosine. 3',5'-cAMP exerted no adverse hemodynamic effects yet increased urinary adenosine as efficiently as 2',3'-cAMP.

CONCLUSIONS

In vivo 2',3'-cAMP is rapidly converted to adenosine. Because both cAMPs increase adenosine in the urinary compartment, these agents may provide unique therapeutic opportunities.

摘要

未加标签

天然嘌呤 2',3'-cAMP 在体外代谢为 2'-AMP 和 3'-AMP,随后代谢为腺苷。体内 2',3'-cAMP、2'-AMP 或 3'-AMP 是否迅速转化为腺苷并通过腺苷受体迅速发挥作用尚不清楚。为了解决这个问题,我们比较了 2',3'-cAMP、2'-AMP、3'-AMP、3',5'-cAMP、5'-AMP 和腺苷在体内对大鼠的心血管和肾脏作用。嘌呤静脉内输注,同时监测平均动脉血压(MABP)、心率(HR)、心输出量和肾及肠系膜血流。计算总外周阻力(TPR)、肾血管阻力(RVR)和肠系膜血管阻力(MVR)。收集尿液以确定尿排泄率[尿量(UV)]。当有足够的尿液时,测定钠排泄率(Na+ER)和肾小球滤过率(GFR)。2',3'-cAMP、2'-AMP 和 3'-AMP 剂量依赖性地显著降低 MABP、HR、TPR 和 MVR,其效能和效价与腺苷和 5'-AMP 相似。2',3'-cAMP、2'-AMP 和 3'-AMP 的这些作用被 1,3-二丙基-8-(对磺苯基)黄嘌呤(一种腺苷受体阻滞剂)阻断。2',3'-cAMP、2'-AMP、3'-AMP、腺苷和 5'-AMP 不同程度地影响 RVR,但在较高剂量下几乎完全(近 100%)降低 UV。在较低剂量下可以测量 GFR 和 Na+ER,并且 2',3'-cAMP、2'-AMP 和 3'-AMP 抑制 GFR 和 Na+ER,但腺苷或 5'-AMP 则不然。2',3'-cAMP 增加 2'-AMP、3'-AMP 和腺苷的尿排泄率。3',5'-cAMP 没有不良的血液动力学作用,但与 2',3'-cAMP 一样有效地增加尿腺苷。

结论

体内 2',3'-cAMP 迅速转化为腺苷。由于这两种 cAMPs 都能增加尿腺苷,因此这些药物可能提供独特的治疗机会。