Current status of cancer proteogenomics: a brief introduction

E. Hattori, T. Kondo
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引用次数: 2

Abstract

Proteogenomics is a novel approach to understand the molecular backgrounds of diseases. In cancer research, proteomic studies have been conducted without using the genome data of individual samples. For example, a common public database has always been used to identify proteins by mass spectrometry. However, tumor genomes, even tumors of the same type of cancer, can differ considerably, and such differences affect the response to treatments. Thus, genomic backgrounds should be considered when identifying proteins by mass spectrometry. In cancer proteogenomics, a virtual proteome database is generated using the genome data of identical samples for the mass spectrometric identification of proteins reflecting genetic mutations, which are not common and not cited in the commonly used databases. Such proteins are candidate biomarkers and therapeutic targets. Although previous studies have reported software capable of translating genomic data to proteomic data, a standard protocol has not been established. In addition, the utility of proteogenomics has also not been established, and it is not self-evident that proteins with mutations unique to certain groups can be exploited for innovative treatments or to provide clues for the resolution of biological problems in cancers. Collaborative efforts by cancer researchers and specialists in mass spectrometry and bioinformatics are required for fruitful advancements.
癌症蛋白质基因组学研究现状简介
蛋白质基因组学是一种了解疾病分子背景的新方法。在癌症研究中,蛋白质组学研究在不使用个体样本的基因组数据的情况下进行。例如,一个通用的公共数据库一直用于通过质谱法鉴定蛋白质。然而,肿瘤基因组,即使是同一类型的肿瘤,也可能存在很大差异,这种差异会影响对治疗的反应。因此,在质谱鉴定蛋白质时应考虑基因组背景。在癌症蛋白质基因组学中,利用相同样品的基因组数据生成虚拟蛋白质组数据库,用于质谱鉴定反映基因突变的蛋白质,这些蛋白质在常用数据库中不常见且未被引用。这些蛋白是候选的生物标志物和治疗靶点。尽管先前的研究已经报道了能够将基因组数据转换为蛋白质组学数据的软件,但尚未建立标准协议。此外,蛋白质基因组学的效用也尚未建立,并且某些群体特有的突变蛋白质可以用于创新治疗或为解决癌症的生物学问题提供线索,这并非不言而喻。癌症研究人员和质谱和生物信息学专家的合作努力是卓有成效的进步所必需的。
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