Analysis of Ras-effector interaction competition in large intestine and colorectal cancer context.

Q2 Biochemistry, Genetics and Molecular Biology Small GTPases Pub Date : 2021-05-01 Epub Date: 2020-02-14 DOI:10.1080/21541248.2020.1724596
Verónica Ibáňez Gaspar, Simona Catozzi, Camille Ternet, Philip J Luthert, Christina Kiel
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引用次数: 15

Abstract

Cancer is the second leading cause of death globally, and colorectal cancer (CRC) is among the five most common cancers. The small GTPase KRAS is an oncogene that is mutated in ~30% of all CRCs. Pharmacological treatments of CRC are currently unsatisfactory, but much hope rests on network-centric approaches to drug development and cancer treatment. These approaches, however, require a better understanding of how networks downstream of Ras oncoproteins are connected in a particular tissue context - here colon and CRC. Previously we have shown that competition for binding to a 'hub' protein, such as Ras, can induce a rewiring of signal transduction networks. In this study, we analysed 56 established and predicted effectors that contain a structural domain with the potential ability to bind to Ras oncoproteins and their link to pathways coordinating intestinal homoeostasis and barrier function. Using protein concentrations in colon tissue and Ras-effector binding affinities, a computational network model was generated that predicted how effectors differentially and competitively bind to Ras in colon context. The model also predicted both qualitative and quantitative changes in Ras-effector complex formations with increased levels of active Ras - to simulate its upregulation in cancer - simply as an emergent property of competition for the same binding interface on the surface of Ras. We also considered how the number of Ras-effector complexes at the membrane can be increased by additional domains present in some effectors that are recruited to the membrane in response to specific conditions (inputs/stimuli/growth factors) in colon context and CRC.

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大肠和结直肠癌背景下ras -效应物相互作用竞争分析。
癌症是全球第二大死亡原因,结直肠癌(CRC)是五种最常见的癌症之一。小GTPase KRAS是在约30%的crc中发生突变的致癌基因。目前对结直肠癌的药物治疗并不令人满意,但更多的希望寄托在以网络为中心的药物开发和癌症治疗方法上。然而,这些方法需要更好地了解Ras癌蛋白的下游网络如何在特定的组织环境中连接-这里是结肠和结直肠癌。先前我们已经证明,与“中枢”蛋白(如Ras)结合的竞争可以诱导信号转导网络的重新布线。在这项研究中,我们分析了56种已建立和预测的效应物,这些效应物包含一个结构域,具有与Ras癌蛋白结合的潜在能力,以及它们与协调肠道平衡和屏障功能的途径的联系。利用结肠组织中的蛋白质浓度和Ras-效应物的结合亲和力,生成了一个计算网络模型,该模型预测了效应物如何在结肠环境中差异和竞争性地与Ras结合。该模型还预测了随着活性Ras水平的增加,Ras效应复合物形成的定性和定量变化——以模拟其在癌症中的上调——仅仅是Ras表面上相同结合界面竞争的一种新特性。我们还考虑了在结肠环境和结直肠癌中,一些效应物在响应特定条件(输入/刺激/生长因子)时被募集到膜上的额外结构域如何增加膜上ras效应物复合物的数量。
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来源期刊
Small GTPases
Small GTPases Biochemistry, Genetics and Molecular Biology-Biochemistry
CiteScore
6.10
自引率
0.00%
发文量
6
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