In-silico modelling of the mitogen-activated protein kinase (MAPK) pathway in colorectal cancer: mutations and targeted therapy

Sara Sommariva, S. Berra, Giorgia Biddau, G. Caviglia, F. Benvenuto, Michele Piana
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Abstract

Introduction: Chemical reaction networks (CRNs) are powerful tools for describing the complex nature of cancer’s onset, progression, and therapy. The main reason for their effectiveness is in the fact that these networks can be rather naturally encoded as a dynamical system whose asymptotic solution mimics the proteins' concentration profile at equilibrium.Methods and Results: This paper relies on a complex CRN previously designed for modeling colorectal cells in their G1-S transition phase and presents a mathematical method to investigate global and local effects triggered on the network by partial and complete mutations occurring mainly in its mitogen-activated protein kinase (MAPK) pathway. Further, this same approach allowed the in-silico modeling and dosage of a multi-target therapeutic intervention that utilizes MAPK as its molecular target.Discussion: Overall the results shown in this paper demonstrate how the proposed approach can be exploited as a tool for the in-silico comparison and evaluation of different targeted therapies. Future effort will be devoted to refine the model so to incorporate more biologically sound partial mutations and drug combinations.
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结直肠癌中丝裂原活化蛋白激酶(MAPK)通路的计算机模拟:突变和靶向治疗
简介:化学反应网络(CRN)是描述癌症发病、进展和治疗的复杂性质的强大工具。它们有效的主要原因是,这些网络可以相当自然地编码为一个动态系统,其渐近解模拟了平衡时蛋白质的浓度分布。方法和结果:本文依赖于先前设计的用于模拟G1-S过渡期结直肠癌细胞的复杂CRN,并提出了一种数学方法来研究主要发生在其丝裂原活化蛋白激酶(MAPK)途径中的部分和完全突变对网络触发的全局和局部影响。此外,这种相同的方法允许利用MAPK作为其分子靶标的多靶点治疗干预的计算机建模和剂量。讨论:总的来说,本文中显示的结果表明,所提出的方法可以作为不同靶向治疗的计算机比较和评估工具。未来的工作将致力于完善该模型,以纳入更具生物学意义的部分突变和药物组合。
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