致瓣膜病的食欲抑制剂诺芬氟拉明与5-HT2B受体相互作用的分子决定因素。

Molecular determinants for the interaction of the valvulopathic anorexigen norfenfluramine with the 5-HT2B receptor.

作者信息

Setola Vincent, Dukat Malgorzata, Glennon Richard A, Roth Bryan L

机构信息

Department of Biochemistry, Case Western Reserve University School of Medicine, Cleveland, OH 44106-4935, USA.

出版信息

Mol Pharmacol. 2005 Jul;68(1):20-33. doi: 10.1124/mol.104.009266. Epub 2005 Apr 14.

DOI:10.1124/mol.104.009266

PMID:15831837

Abstract

S-(+)-Norfenfluramine (SNF)-an active metabolite of the now-banned anorexigen fenfluramine-has been implicated in the drug's appetite-suppressing actions and its life-threatening cardiovascular side effects. SNF reduces appetite through serotonin 5-HT(2C) receptor activation; it causes cardiopulmonary side effects through 5-HT(2B) receptor activation. Thus, we attempted to identify molecular determinants of SNF binding to 5-HT(2B) receptors distinct from those underlying SNF-5-HT(2C/2A) receptor interactions. Mutagenesis implicated Val2.53 in SNF binding to 5-HT(2B) receptors. Ligand docking simulations suggested both Val2.53 gamma-methyl groups form stabilizing van der Waals' (vdW) interactions with the alpha-methyl group of SNF. A V2.53L mutation induced a 17-fold decrease in affinity; molecular dynamics (MD) simulations suggested that this decrease resulted from the loss of one 2.53-alpha-methyl group vdW interaction. Supporting this, 1) the binding of norfenfluramine (NF) analogs lacking an S-(+) alpha-methyl group (RNF and alpha-desmethyl-NF) was less sensitive to the V2.53L mutation, and 2) a V2.53A mutation decreased SNF affinity 190-fold, but decreased RNF and alpha-desmethyl-NF affinities only 16- and 45-fold, respectively. We next addressed whether the alpha-methyl group of SNF contributes to 5-HT(2C/2A) receptor affinity. Removal of the alpha-methyl group (RNF and alpha-desmethyl-NF), which reduced 5-HT(2B) receptor binding 3-fold, did not affect 5-HT(2C/2A) receptor binding. An alpha-ethyl substituent (alpha-ethyl-NF), which decreased 5-HT(2B) receptor affinity 46-fold, reduced 5-HT(2C) and 5-HT(2A) receptor binding by 14- and 5-fold, respectively. Finally, we determined that residue 2.53 affects SNF potency and efficacy at 5-HT(2B) receptors but not at 5-HT(2C) and 5-HT(2A) receptors. In conclusion, vdW interactions between residue 2.53 and the alpha-methyl group of SNF contribute to the ligand's 5-HT(2) receptor subtype-selective pharmacology.

摘要

S-(+)-去甲氟苯丙胺（SNF）——现已被禁用的食欲抑制剂芬氟拉明的一种活性代谢物——被认为与该药物的食欲抑制作用及其危及生命的心血管副作用有关。SNF通过激活5-羟色胺5-HT(2C)受体来降低食欲；它通过激活5-HT(2B)受体引发心肺副作用。因此，我们试图确定SNF与5-HT(2B)受体结合的分子决定因素，这些因素不同于SNF与5-HT(2C/2A)受体相互作用的基础因素。诱变研究表明缬氨酸2.53参与SNF与5-HT(2B)受体的结合。配体对接模拟表明，缬氨酸2.53的两个γ-甲基基团均与SNF的α-甲基基团形成稳定的范德华（vdW）相互作用。缬氨酸2.53突变为亮氨酸导致亲和力下降17倍；分子动力学（MD）模拟表明，这种下降是由于一个2.53-α-甲基基团的范德华相互作用丧失所致。支持这一观点的是：1）缺乏S-(+)α-甲基基团的去甲氟苯丙胺（NF）类似物（RNF和α-去甲基-NF）与5-HT(2B)受体的结合对缬氨酸2.53突变为亮氨酸的敏感度较低；2）缬氨酸2.53突变为丙氨酸使SNF的亲和力下降190倍，但仅使RNF和α-去甲基-NF的亲和力分别下降16倍和45倍。接下来，我们研究了SNF的α-甲基基团是否对5-HT(2C/2A)受体亲和力有贡献。去除α-甲基基团（RNF和α-去甲基-NF）使5-HT(2B)受体结合减少3倍，但不影响5-HT(2C/2A)受体结合。α-乙基取代基（α-乙基-NF）使5-HT(2B)受体亲和力下降46倍，使5-HT(2C)和5-HT(2A)受体结合分别减少14倍和5倍。最后，我们确定2.53位残基影响SNF对5-HT(2B)受体的效力和功效，但不影响对5-HT(2C)和5-HT(2A)受体的效力和功效。总之，2.53位残基与SNF的α-甲基基团之间的范德华相互作用有助于该配体的5-HT(2)受体亚型选择性药理学特性。

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致瓣膜病的食欲抑制剂诺芬氟拉明与5-HT2B受体相互作用的分子决定因素。

Molecular determinants for the interaction of the valvulopathic anorexigen norfenfluramine with the 5-HT2B receptor.

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