基于多重网络的生物信息学分析策略研究肿瘤分子机制及其在个体化医疗中的应用

A multiple network-based bioinformatics pipeline for the study of molecular mechanisms in oncological diseases for personalized medicine.

机构信息

Dipartimento di Scienze Aziendali, Management & Innovation Systems, Università degli Studi di Salerno, Fisciano (SA), Italy.

Dipartimento di Chimica e Biologia "A. Zambelli", Università degli Studi di Salerno, Fisciano (SA), Italy.

出版信息

Brief Bioinform. 2021 Nov 5;22(6). doi: 10.1093/bib/bbab180.

DOI:10.1093/bib/bbab180

PMID:34050359

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8574709/

Abstract

MOTIVATION

Assessment of genetic mutations is an essential element in the modern era of personalized cancer treatment. Our strategy is focused on 'multiple network analysis' in which we try to improve cancer diagnostics by using biological networks. Genetic alterations in some important hubs or in driver genes such as BRAF and TP53 play a critical role in regulating many important molecular processes. Most of the studies are focused on the analysis of the effects of single mutations, while tumors often carry mutations of multiple driver genes. The aim of this work is to define an innovative bioinformatics pipeline focused on the design and analysis of networks (such as biomedical and molecular networks), in order to: (1) improve the disease diagnosis; (2) identify the patients that could better respond to a given drug treatment; and (3) predict what are the primary and secondary effects of gene mutations involved in human diseases.

RESULTS

By using our pipeline based on a multiple network approach, it has been possible to demonstrate and validate what are the joint effects and changes of the molecular profile that occur in patients with metastatic colorectal carcinoma (mCRC) carrying mutations in multiple genes. In this way, we can identify the most suitable drugs for the therapy for the individual patient. This information is useful to improve precision medicine in cancer patients. As an application of our pipeline, the clinically significant case studies of a cohort of mCRC patients with the BRAF V600E-TP53 I195N missense combined mutation were considered.

AVAILABILITY

The procedures used in this paper are part of the Cytoscape Core, available at (www.cytoscape.org). Data used here on mCRC patients have been published in [55].

SUPPLEMENTARY INFORMATION

A supplementary file containing a more detailed discussion of this case study and other cases is available at the journal site as Supplementary Data.

摘要

动机

评估基因突变是个性化癌症治疗时代的重要组成部分。我们的策略集中在“多网络分析”上，试图通过使用生物网络来改善癌症诊断。一些重要枢纽或驱动基因（如 BRAF 和 TP53）中的遗传改变在调节许多重要的分子过程中起着关键作用。大多数研究都集中在分析单个突变的影响上，而肿瘤通常携带多个驱动基因的突变。这项工作的目的是定义一个创新的生物信息学管道，专注于网络（如生物医学和分子网络）的设计和分析，以：（1）提高疾病诊断；（2）识别可能对特定药物治疗反应更好的患者；（3）预测涉及人类疾病的基因突变的主要和次要影响。

结果

通过使用我们基于多网络方法的管道，已经可以证明和验证携带多个基因突变的转移性结直肠癌（mCRC）患者的分子谱发生的联合效应和变化。通过这种方式，我们可以为个体患者确定最合适的治疗药物。这些信息有助于提高癌症患者的精准医学水平。作为我们管道的应用，考虑了具有 BRAF V600E-TP53 I195N 错义联合突变的 mCRC 患者队列的临床显著案例研究。

可用性

本文中使用的程序是 Cytoscape Core 的一部分，可在（www.cytoscape.org）获得。此处使用的关于 mCRC 患者的数据已在 [55] 中发表。

补充信息

一份补充文件包含对该案例研究和其他案例的更详细讨论，可在期刊网站的补充数据中获得。

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基于多重网络的生物信息学分析策略研究肿瘤分子机制及其在个体化医疗中的应用

A multiple network-based bioinformatics pipeline for the study of molecular mechanisms in oncological diseases for personalized medicine.

机构信息

出版信息

MOTIVATION

RESULTS

AVAILABILITY

SUPPLEMENTARY INFORMATION

动机

结果

可用性

补充信息

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