Genetic and functional characterization of putative Ras/Raf interaction inhibitors in C. elegans and mammalian cells.

Q2 Biochemistry, Genetics and Molecular Biology Journal of Molecular Signaling Pub Date : 2010-02-23 DOI:10.1186/1750-2187-5-2

Vanessa González-Pérez, David J Reiner, Jamie K Alan, Cicely Mitchell, Lloyd J Edwards, Vladimir Khazak, Channing J Der, Adrienne D Cox

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引用次数: 39

Abstract

Background: Activation of the mammalian Ras-Raf-MEK-ERK MAPK signaling cascade promotes cellular proliferation, and activating Ras mutations are implicated in cancer onset and maintenance. This pathway, a therapeutic target of interest, is highly conserved and required for vulval development in C. elegans. Gain-of-function mutations in the Ras ortholog lead to constitutive pathway signaling and a multivulva (Muv) phenotype. MCP compounds were identified in a yeast two-hybrid screen for their ability to disrupt Ras-Raf interactions. However, this had not been confirmed in another system, and conflicting results were reported regarding selective MCP-mediated blockade of Ras- and Raf-mediated biological activities in mammalian cells. Here we used the easily-scored Muv phenotype as an in vivo readout to characterize the selectivity of MCP110 and its analogs, and performed biochemical studies in mammalian cells to determine whether MCP treatment results in impaired interaction between Ras and its effector Raf.

Results: Our genetic analyses showed significant dose-dependent MCP-mediated reduction of Muv in C. elegans strains with activating mutations in orthologs of Ras (LET-60) or Raf (LIN-45), but not MAP kinases or an Ets-like transcription factor. Thus, these inhibitors selectively impair pathway function downstream of Ras and upstream of or at the level of Raf, consistent with disruption of the Ras/Raf interaction. Our biochemical analyses of MCP110-mediated disruption of Ras-Raf interactions in mammalian cells showed that MCP110 dose-dependently reduced Raf-RBD pulldown of Ras, displaced a fluorescently-tagged Raf-RBD probe from plasma membrane locations of active Ras to the cytosol and other compartments, and decreased active, phosphorylated ERK1/2.

Conclusions: We have effectively utilized C. elegans as an in vivo genetic system to evaluate the activity and selectivity of inhibitors intended to target the Ras-Raf-MAPK pathway. We demonstrated the ability of MCP110 to disrupt, at the level of Ras/Raf, the Muv phenotype induced by chronic activation of this pathway in C. elegans. In mammalian cells, we not only demonstrated MCP-mediated blockade of the physical interaction between Ras and Raf, but also narrowed the site of interaction on Raf to the RBD, and showed consequent functional impairment of the Ras-Raf-MEK-ERK pathway in both in vivo and cell-based systems.

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线虫和哺乳动物细胞中Ras/Raf相互作用抑制剂的遗传和功能表征。

背景:哺乳动物Ras- raf - mek - erk MAPK信号级联的激活促进细胞增殖，激活Ras突变与癌症的发生和维持有关。该途径是秀丽隐杆线虫外阴发育所必需的高度保守的治疗靶点。Ras同源基因的功能获得突变导致构成通路信号传导和多外阴(Muv)表型。MCP化合物在酵母双杂交筛选中被鉴定出具有破坏Ras-Raf相互作用的能力。然而，这一点尚未在另一个系统中得到证实，并且在哺乳动物细胞中，关于选择性mcp介导的Ras-和raf介导的生物活性阻断的报道结果相互矛盾。在这里，我们使用易于评分的Muv表型作为体内数据来表征MCP110及其类似物的选择性，并在哺乳动物细胞中进行生化研究，以确定MCP治疗是否会导致Ras与其效应物Raf之间的相互作用受损。结果:我们的遗传分析显示，在具有Ras (LET-60)或Raf (LIN-45)同源物激活突变的线虫菌株中，mcp介导的Muv的显著剂量依赖性减少，但没有激活MAP激酶或ets样转录因子。因此，这些抑制剂选择性地损害Ras下游和Raf上游或水平的通路功能，与Ras/Raf相互作用的破坏一致。我们对哺乳动物细胞中MCP110介导的Ras- raf相互作用破坏的生化分析表明，MCP110剂量依赖性地降低了Ras的Raf-RBD拉下，将荧光标记的Raf-RBD探针从活性Ras的质膜位置转移到细胞质和其他隔间，并降低了活性磷酸化的ERK1/2。结论:我们已经有效地利用秀丽隐杆线虫作为体内遗传系统来评估Ras-Raf-MAPK通路抑制剂的活性和选择性。我们证明了MCP110能够在Ras/Raf水平上破坏秀丽隐杆线虫中由该途径的慢性激活诱导的Muv表型。在哺乳动物细胞中，我们不仅证明了mcp介导的Ras和Raf之间物理相互作用的阻断，而且还将Raf相互作用的位点缩小到RBD，并在体内和基于细胞的系统中显示了Ras-Raf- mek - erk通路的功能损伤。

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Journal of Molecular Signaling Biochemistry, Genetics and Molecular Biology-Biochemistry

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期刊介绍： Journal of Molecular Signaling is an open access, peer-reviewed online journal that encompasses all aspects of molecular signaling. Molecular signaling is an exponentially growing field that encompasses different molecular aspects of cell signaling underlying normal and pathological conditions. Specifically, the research area of the journal is on the normal or aberrant molecular mechanisms involving receptors, G-proteins, kinases, phosphatases, and transcription factors in regulating cell proliferation, differentiation, apoptosis, and oncogenesis in mammalian cells. This area also covers the genetic and epigenetic changes that modulate the signaling properties of cells and the resultant physiological conditions.