Fluorescent cascade and direct assays for characterization of RAF signaling pathway inhibitors.

Current chemical genomics Pub Date : 2008-02-25 DOI:10.2174/1875397300801010043

Kevin R Kupcho, Rica Bruinsma, Tina M Hallis, David A Lasky, Richard L Somberg, Tammy Turek-Etienne, Kurt W Vogel, Kristin G Huwiler

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引用次数: 8

Abstract

RAF kinases are part of a conserved signaling pathway that impacts cell growth, differentiation, and survival, and RAF pathway dysregulation is an attractive target for therapeutic intervention. We describe two homogeneous fluorescent formats that distinguish RAF pathway inhibitors from direct RAF kinase inhibitors, using B-RAF, B-RAF V599E, and C-RAF. A Förster-resonance energy transfer (FRET) based method was used to develop RAF and MEK cascade assays as well as a direct ERK kinase assay. This method uses a peptide substrate, that is terminally labeled with a FRET-pair of fluorophores, and that is more sensitive to proteolysis relative to the phosphorylated peptide. A second time-resolved FRET-based assay using fluorescently labeled MEK substrate was used to detect direct inhibitors of RAF kinase activity. The cascade assays detect compounds that interact with activated and unactivated kinases within the recapitulated RAF pathway, and the direct assays isolate the point of action for an inhibitor.

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荧光级联和直接测定表征RAF信号通路抑制剂。

RAF激酶是影响细胞生长、分化和存活的保守信号通路的一部分，RAF通路失调是治疗干预的一个有吸引力的靶点。我们用B-RAF、B-RAF V599E和C-RAF描述了区分RAF途径抑制剂和直接RAF激酶抑制剂的两种同质荧光格式。基于Förster-resonance能量转移(FRET)的方法用于开发RAF和MEK级联分析以及直接ERK激酶分析。该方法使用肽底物，末端用fret对荧光团标记，相对于磷酸化肽，对蛋白水解更敏感。使用荧光标记的MEK底物进行第二次时间分辨的基于fret的测定，用于检测RAF激酶活性的直接抑制剂。级联分析检测在重复RAF途径中与活化和未活化激酶相互作用的化合物，直接分析分离抑制剂的作用点。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Current chemical genomics

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