用于Bcl-XL的BH3识别裂隙的嵌合（α/β + α）肽配体：分子支架在蛋白质表面识别中的关键作用

Chimeric (alpha/beta + alpha)-peptide ligands for the BH3-recognition cleft of Bcl-XL: critical role of the molecular scaffold in protein surface recognition.

作者信息

Sadowsky Jack D, Schmitt Margaret A, Lee Hee-Seung, Umezawa Naoki, Wang Shaomeng, Tomita York, Gellman Samuel H

机构信息

Department of Chemistry, University of Wisconsin, Madison, Wisconsin 53706, USA.

出版信息

J Am Chem Soc. 2005 Aug 31;127(34):11966-8. doi: 10.1021/ja053678t.

DOI:10.1021/ja053678t

PMID:16117535

Abstract

Molecules that bind to specific surface sites on proteins are of great interest from both fundamental and practical perspectives. We are exploring a ligand development strategy that is based on oligomers with discrete folding propensities ("foldamers"); we target a specific cleft on the cancer-associated protein Bcl-xL because this system is well characterized structurally. In vivo, this cleft binds to alpha-helical segments (BH3 domains) of other proteins. We evaluated several types of helical foldamer, built entirely from beta-amino acid residues or from mixtures of alpha- and beta-amino acid residues, and ultimately identified foldamers in the latter class that bind very tightly to Bcl-xL. Our results suggest that combining different types of foldamer backbones will be an effective and general strategy for creating high-affinity and specific ligands for protein surface sites.

摘要

从基础研究和实际应用的角度来看，能够与蛋白质特定表面位点结合的分子都备受关注。我们正在探索一种基于具有离散折叠倾向的低聚物（“折叠体”）的配体开发策略；我们将目标锁定在癌症相关蛋白Bcl-xL上的一个特定裂隙，因为该系统在结构上已得到充分表征。在体内，这个裂隙会与其他蛋白质的α-螺旋片段（BH3结构域）结合。我们评估了几种完全由β-氨基酸残基或α-氨基酸残基与β-氨基酸残基混合物构建的螺旋折叠体，最终在后者类别中鉴定出了与Bcl-xL紧密结合的折叠体。我们的结果表明，组合不同类型的折叠体主链将是为蛋白质表面位点创建高亲和力和特异性配体的一种有效且通用的策略。

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用于Bcl-XL的BH3识别裂隙的嵌合（α/β + α）肽配体：分子支架在蛋白质表面识别中的关键作用

Chimeric (alpha/beta + alpha)-peptide ligands for the BH3-recognition cleft of Bcl-XL: critical role of the molecular scaffold in protein surface recognition.

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