Interaction of AZA analogs of chlorpromazine with the dopamine D2 receptor.

T Farooqui, K Markovich, L Wallace, D Miller, N Uretsky
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引用次数: 3

Abstract

1. Permanently charged AZA analogs of chlorpromazine inhibited the binding of [3H]spiperone and antagonized the apomorphine-induced inhibition of the potassium evoked release of [3H]acetylcholine. 2. The AZA analogs were more potent in binding affinity and antagonist activity than the trimethylammonium analog of chlorpromazine but less potent than chlorpromazine. 3. These results suggest that it is possible to enhance the binding of the permanently charged trimethylammonium analog of chlorpromazine by the addition of a functional group near the quaternary nitrogen which is capable of forming a hydrogen bond with the D2 dopamine receptor. 4. However, it appears that for optimal binding, as achieved with chlorpromazine, the hydrogen-bonding proton should be on the charged nitrogen.

氯丙嗪AZA类似物与多巴胺D2受体的相互作用。
1. 氯丙嗪永久带电的AZA类似物抑制了[3H]spiperone的结合,并拮抗阿吗啡诱导的对钾诱发的[3H]乙酰胆碱释放的抑制。2. AZA类似物的结合亲和力和拮抗剂活性比氯丙嗪的三甲胺类似物更强,但比氯丙嗪更弱。3.这些结果表明,通过在能够与D2多巴胺受体形成氢键的季氮附近添加一个官能团,可以增强氯丙嗪永久带电的三甲胺类似物的结合。4. 然而,对于最佳的结合,如氯丙嗪,氢键质子应该在带电荷的氮上。
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