通过抑制豚鼠结状神经元中前列环素(PGI2)的生成来预防缓激肽的兴奋作用。
Prevention of the excitatory actions of bradykinin by inhibition of PGI2 formation in nodose neurones of the guinea-pig.
作者信息
Weinreich D, Koschorke G M, Undem B J, Taylor G E
机构信息
University of Maryland School of Medicine, Department of Pharmacology and Experimental Therapeutics, Baltimore 21201-1559, USA.
出版信息
J Physiol. 1995 Mar 15;483 ( Pt 3)(Pt 3):735-46. doi: 10.1113/jphysiol.1995.sp020618.
Abstract
- Intracellular recordings were made from neurones in intact guinea-pig nodose ganglia in vitro and from acutely isolated adult guinea-pig and rabbit nodose neurons to study a bradykinin (BK)-mediated block of a slow spike after-hyperpolarization (AHPslow) that is prominent in 30-40% of these neurones. 2. BK (100 nM) reversibly blocked the AHPslow, resulting in an ablation of the spike accommodative properties of these neurones. The B1 BK receptor agonist [des-Arg9]-BK did not mimic or prevent the actions of BK. In contrast, the B2 BK receptor antagonist D-Arg-[Hyp3,Thi5,D-Tic7,Oic8]-BK (HOE 140) prevented BK-induced block of the AHPslow and the effect of BK on spike frequency adaptation. 3. The BK block of the AHPslow in acutely dissociated neurones was prevented by indomethacin, indicating that this BK effect was dependent upon a cyclo-oxygenase metabolite intrinsic to these neurones. 4. One to twenty femtomoles of the prostanoids PGE2, PGD2, 9 alpha, 11 beta-PGF2 (a metabolite of PGD2), PGF2 alpha, TxB2 and PGI2 were released spontaneously from a nodose ganglion in 15 min. BK (100 nM) selectively increased PGI2 release 2.8-fold without affecting the release of the other prostanoids. Treatment with 10 microM tranylcypromine (TCP), a putative PGI2 synthase inhibitor, completely prevented the BK-induced release of PGI2. 5. In the presence of 10 microM TCP, BK no longer produced significant effects on the AHPslow. In contrast, 10 microM TCP did not prevent PGI2 from blocking the AHPslow. 6. These results suggest that vagal afferents that exhibit AHPslow also possess the B2 type of BK receptor. Activation of these BK receptors results in the production of PGI2, which in turn controls spike frequency adaptation by affecting the amplitude of the AHPslow.
摘要
- 在体外对完整豚鼠结节神经节中的神经元以及急性分离的成年豚鼠和兔结节神经元进行细胞内记录,以研究缓激肽(BK)介导的对缓慢锋电位后超极化(AHPslow)的阻断作用,这种阻断在这些神经元的30% - 40%中较为显著。2. BK(100 nM)可逆地阻断AHPslow,导致这些神经元的锋电位适应特性消失。B1缓激肽受体激动剂[去-Arg9]-BK不能模拟或阻止BK的作用。相反,B2缓激肽受体拮抗剂D-Arg-[Hyp3,Thi5,D-Tic7,Oic8]-BK(HOE 140)可阻止BK诱导的AHPslow阻断以及BK对锋电位频率适应性的影响。3. 消炎痛可阻止急性解离神经元中BK对AHPslow的阻断,表明这种BK效应依赖于这些神经元内的环氧化酶代谢产物。4. 15分钟内,1至20飞摩尔的前列腺素PGE2、PGD2、9α,11β-PGF2(PGD2的一种代谢产物)、PGF2α、TxB2和PGI2从结节神经节中自发释放。BK(100 nM)选择性地使PGI2释放增加2.8倍,而不影响其他前列腺素的释放。用10 microM反苯环丙胺(TCP)处理,一种假定的PGI2合酶抑制剂,可完全阻止BK诱导的PGI2释放。5. 在10 microM TCP存在的情况下,BK对AHPslow不再产生显著影响。相反,10 microM TCP不能阻止PGI2阻断AHPslow。6. 这些结果表明,表现出AHPslow的迷走传入神经也具有B2型BK受体。这些BK受体的激活导致PGI2的产生,进而通过影响AHPslow的幅度来控制锋电位频率适应性。
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