多个 MT-II 骨干酰胺键的 N-甲基化导致黑皮质素受体亚型 hMC1R 的选择性:药理学和构象研究。
Multiple N-methylation of MT-II backbone amide bonds leads to melanocortin receptor subtype hMC1R selectivity: pharmacological and conformational studies.
机构信息
Institute for Advanced Study and Center for Integrated Protein Science at the Technische Universität München, Lichtenbergstrasse 4, 85747 Garching, Germany.
出版信息
J Am Chem Soc. 2010 Jun 16;132(23):8115-28. doi: 10.1021/ja101428m.
Abstract
Multiple N-methylation is a novel technology to improve bioavailability of peptides and increase receptor subtype selectivity. This technique has been applied here to the superpotent but nonselective cyclic peptide MT-II. A library of all possible 31 backbone N-methylated derivatives has been synthesized and tested for binding and activation at melanocortin receptor subtypes 1, 3, 4, and 5. It turned out that selectivity is improved with every introduced N-methyl group, resulting in several N-methylated selective and potent agonists for the hMC1R. The most potent of these derivatives is N-methylated on four out of five amide bonds in the cyclic structure. Its solution structure indicates a strongly preferred backbone conformation that resembles other alpha-MSH analogs but possesses much less flexibility and in addition distinct differences in the spatial arrangement of individual amino acid side chains.
摘要
多甲基化是一种提高肽类生物利用度和增加受体亚型选择性的新技术。本技术已应用于超强但非选择性的环状肽 MT-II。合成了所有可能的 31 个骨架 N-甲基化衍生物库,并测试了它们在黑素皮质素受体亚型 1、3、4 和 5 上的结合和激活。结果表明,每引入一个 N-甲基基团,选择性都会提高,从而产生了几种对 hMC1R 具有选择性和高效的 N-甲基化激动剂。这些衍生物中最有效的是在环状结构中的五个酰胺键中的四个上进行了 N-甲基化。其溶液结构表明其具有强烈偏好的骨架构象,类似于其他 α-MSH 类似物,但具有较小的灵活性,并且个别氨基酸侧链的空间排列也存在明显差异。
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