Standing in the canine precision medicine knowledge gap: Improving annotation of canine cancer genomic biomarkers through systematic comparative analysis of human cancer mutations in COSMIC.

IF 2.3 2区 农林科学 Q1 VETERINARY SCIENCES
Sharadha Sakthikumar, Salvatore Facista, Derick Whitley, Sara A Byron, Zeeshan Ahmed, Manisha Warrier, Zhanyang Zhu, Esther Chon, Kathryn Banovich, David Haworth, William P D Hendricks, Guannan Wang
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引用次数: 1

Abstract

The accrual of cancer mutation data and related functional and clinical associations have revolutionised human oncology, enabling the advancement of precision medicine and biomarker-guided clinical management. The catalogue of cancer mutations is also growing in canine cancers. However, without direct high-powered functional data in dogs, it remains challenging to interpret and utilise them in research and clinical settings. It is well-recognised that canine and human cancers share genetic, molecular and phenotypic similarities. Therefore, leveraging the massive wealth of human mutation data may help advance canine oncology. Here, we present a structured analysis of sequence conservation and conversion of human mutations to the canine genome through a 'caninisation' process. We applied this analysis to COSMIC, the Catalogue of Somatic Mutations in Cancer, the most prominent human cancer mutation database. For the project's initial phase, we focused on the subset of the COSMIC data corresponding to Cancer Gene Census (CGC) genes. A total of 670 canine orthologs were found for 721 CGC genes. In these genes, 365 K unique mutations across 160 tumour types were converted successfully to canine coordinates. We identified shared putative cancer-driving mutations, including pathogenic and hotspot mutations and mutations bearing similar biomarker associations with diagnostic, prognostic and therapeutic utility. Thus, this structured caninisation of human cancer mutations facilitates the interpretation and annotation of canine mutations and helps bridge the knowledge gap to enable canine precision medicine.

站在犬类精准医学知识缺口上:通过COSMIC中人类癌症突变的系统比较分析,改进犬类癌症基因组生物标志物的注释。
癌症突变数据的积累以及相关的功能和临床关联已经彻底改变了人类肿瘤学,使精准医学和生物标志物引导的临床管理取得了进展。犬类癌症的癌症突变种类也在增加。然而,由于没有直接的狗的高性能功能数据,在研究和临床环境中解释和利用它们仍然具有挑战性。众所周知,犬类和人类的癌症在基因、分子和表型上都有相似之处。因此,利用人类突变数据的巨大财富可能有助于推进犬肿瘤。在这里,我们提出了一个结构化的分析序列保护和人类突变转化为犬基因组通过“犬化”过程。我们将此分析应用于COSMIC,即癌症体细胞突变目录,这是最著名的人类癌症突变数据库。在项目的初始阶段,我们专注于与癌症基因普查(CGC)基因相对应的COSMIC数据子集。共发现721个CGC基因有670个犬类同源物。在这些基因中,跨越160种肿瘤类型的365k个独特突变被成功转化为犬坐标。我们确定了共同的推定癌症驱动突变,包括致病突变和热点突变,以及与诊断、预后和治疗效用具有相似生物标志物关联的突变。因此,这种人类癌症突变的结构化犬类化有助于犬类突变的解释和注释,并有助于弥合知识差距,使犬类精准医疗成为可能。
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来源期刊
Veterinary and comparative oncology
Veterinary and comparative oncology 农林科学-兽医学
CiteScore
4.80
自引率
9.50%
发文量
75
审稿时长
>24 weeks
期刊介绍: Veterinary and Comparative Oncology (VCO) is an international, peer-reviewed journal integrating clinical and scientific information from a variety of related disciplines and from worldwide sources for all veterinary oncologists and cancer researchers concerned with aetiology, diagnosis and clinical course of cancer in domestic animals and its prevention. With the ultimate aim of diminishing suffering from cancer, the journal supports the transfer of knowledge in all aspects of veterinary oncology, from the application of new laboratory technology to cancer prevention, early detection, diagnosis and therapy. In addition to original articles, the journal publishes solicited editorials, review articles, commentary, correspondence and abstracts from the published literature. Accordingly, studies describing laboratory work performed exclusively in purpose-bred domestic animals (e.g. dogs, cats, horses) will not be considered.
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