血管紧张素II刺激大鼠子宫动脉和主动脉中环鸟苷酸生成时,AT(1)和AT(2)受体的差异调节
Differential regulation by AT(1) and AT(2) receptors of angiotensin II-stimulated cyclic GMP production in rat uterine artery and aorta.
作者信息
Hannan Ruth E, Gaspari Tracey A, Davis Elizabeth A, Widdop Robert E
机构信息
Department of Pharmacology, Monash University, Clayton, Victoria 3800, Australia.
出版信息
Br J Pharmacol. 2004 Mar;141(6):1024-31. doi: 10.1038/sj.bjp.0705694. Epub 2004 Mar 1.
Abstract
- In the present study we determined whether angiotensin II (Ang II) could increase cyclic GMP levels in two blood vessels that exhibit markedly different angiotensin II receptor subtype expression: rat uterine artery (UA; AT(2) receptor-predominant) and aorta (AT(1) receptor-predominant), and investigated the receptor subtype(s) and intracellular pathways involved. 2. UA and aorta were treated with Ang II in the absence and presence of losartan (AT(1) antagonist; 0.1 microm), PD 123319 (AT(2) antagonist; 1 microm), NOLA (NOS inhibitor; 30 microm), and HOE 140 (B(2) antagonist; 0.1 microm), or in combination. 3. Ang II (10 nm) induced a 60% increase in UA cyclic GMP content; an effect that was augmented with PD 123319 and HOE 140 pretreatment, and abolished by cotreatment with losartan, as well as by NOLA. 4. In aorta, Ang II produced concentration-dependent increases in cyclic GMP levels. Unlike effects in UA, these responses were abolished by PD 123319 and by NOLA, whereas losartan and HOE 140 caused partial inhibition. 5. Thus, in rat UA, Ang II stimulates cyclic GMP production through AT(1) and, to a less extent, AT(2) receptors. In rat aorta, the Ang II-mediated increase in cyclic GMP production is predominantly AT(2) receptor-mediated. In both preparations, NO plays a critical role in mediating the effect of Ang II, whereas bradykinin has differential roles in the two vessels. In UA, B(2) receptor blockade may result in a compensatory increase in cyclic GMP production, whilst in aorta, bradykinin accounts for approximately half of the cyclic GMP produced in response to Ang II.
摘要
- 在本研究中,我们确定血管紧张素II(Ang II)是否能增加两种血管中环状鸟苷酸(cGMP)的水平,这两种血管表现出明显不同的血管紧张素II受体亚型表达:大鼠子宫动脉(UA;以AT(2)受体为主)和主动脉(以AT(1)受体为主),并研究了相关的受体亚型和细胞内信号通路。2. 在不存在和存在氯沙坦(AT(1)拮抗剂;0.1微摩尔)、PD 123319(AT(2)拮抗剂;1微摩尔)、NOLA(一氧化氮合酶抑制剂;30微摩尔)和HOE 140(B(2)拮抗剂;0.1微摩尔)的情况下,或联合使用这些药物,对UA和主动脉进行Ang II处理。3. Ang II(10纳米)使UA中cGMP含量增加60%;PD 123319和HOE 140预处理可增强这一效应,氯沙坦共处理以及NOLA可消除该效应。4. 在主动脉中,Ang II使cGMP水平呈浓度依赖性增加。与在UA中的效应不同,这些反应被PD 123319和NOLA消除,而氯沙坦和HOE 140引起部分抑制。5. 因此,在大鼠UA中,Ang II通过AT(1)受体刺激cGMP生成,在较小程度上也通过AT(2)受体。在大鼠主动脉中,Ang II介导的cGMP生成增加主要由AT(2)受体介导。在两种制剂中,一氧化氮在介导Ang II的作用中起关键作用,而缓激肽在两种血管中发挥不同作用。在UA中,B(2)受体阻断可能导致cGMP生成的代偿性增加,而在主动脉中,缓激肽约占Ang II刺激产生的cGMP的一半。
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