坎地沙坦的长效血管紧张素1型受体结合和保护作用:与其他联苯四唑沙坦的比较。

Georges Vauquelin, Frederik Fierens, Isabelle Van Liefde
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引用次数: 41

摘要

背景:联苯四唑血管紧张素1型(AT1)受体拮抗剂(BTsartans)阻断血管紧张素II (Ang II)介导的反应的能力已经在血管组织中得到了广泛的研究,最近在表达人类AT1受体的细胞系中得到了广泛的研究。当预孵育时,btsartan的作用是可克服的(将Ang II浓度-反应曲线向右移动)或不可克服的(也降低了最大反应)。研究表明,它们不可克服的行为是由于与受体形成紧密、持久的复合物。部分不可克服的对抗是由于紧密和松散的复合体共存。BTsartans的不可克服拮抗比例、效价和解离率依次为坎地沙坦> EXP3174(氯沙坦的活性代谢物)>缬沙坦>厄贝沙坦>氯沙坦。目的:探讨坎地沙坦等BTsartans与at1受体的紧密结合如何促进其持久的临床效果。方法:采用计算机辅助模拟(COPASI程序)跟踪不同拮抗剂对受体的占领和保护随时间的变化。自由拮抗剂浓度随时间呈指数下降。结果:模拟表明,如果以较慢的速度消除游离拮抗剂(就像BTsartans的情况一样),缓慢的解离并不能明显延长受体的占用。然而,当可克服拮抗剂和不可克服拮抗剂占据相同数量的受体时,不可克服拮抗剂对自然信使浓度的波动提供明显更好的保护。结论:受体缓慢解离和拮抗剂缓慢消除可能协同作用,产生持久的受体保护。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Long-lasting angiotensin type 1 receptor binding and protection by candesartan: comparison with other biphenyl-tetrazole sartans.

Background: The ability of biphenyl-tetrazole angiotensin type 1 (AT1) receptor antagonists (BTsartans) to block angiotensin II (Ang II)-mediated responses has been extensively investigated in vascular tissues and, more recently, in cell lines expressing the human AT1-receptor. When pre-incubated, BTsartans acted surmountably (shifting the Ang II concentration-response curve to the right) or insurmountably (also decreasing the maximal response). It was shown that their insurmountable behaviour is due to the formation of tight, long-lasting complexes with the receptor. Partial insurmountable antagonism is due to the co-existence of tight and loose complexes. The proportion of insurmountable antagonism, the potency and the dissociation rate of the BTsartans decreases in the order: candesartan > EXP3174 (losartan's active metabolite) > valsartan > irbesartan >> losartan.

Objective: It is of interest to explore how tight AT1-receptor binding of BTsartans such as candesartan might contribute to their long-lasting clinical effect.

Methods: Computer-assisted simulations (COPASI program) were performed to follow the receptor-occupation and protection by different antagonists as a function of time. Free antagonist concentrations were allowed to decrease exponentially with time.

Results: The simulations suggest that slow dissociation does not tangibly prolong receptor occupancy if the free antagonist is eliminated at a slower pace (as is the case for BTsartans). Yet when surmountable and insurmountable antagonists occupy the same amount of receptors, insurmountable antagonists offer appreciably better protection against fluctuations in natural messenger concentration.

Conclusion: Slow receptor dissociation and slow antagonist elimination are likely to act in synergy to produce long-lasting receptor protection.

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