基于二代测序的方法来确定人癌基因组中HPV的存在及其整合位点。

NGS-based approach to determine the presence of HPV and their sites of integration in human cancer genome.

作者信息

Chandrani P, Kulkarni V, Iyer P, Upadhyay P, Chaubal R, Das P, Mulherkar R, Singh R, Dutt A

机构信息

Advanced Centre for Treatment, Research and Education in Cancer, Tata Memorial Centre, Kharghar, Navi Mumbai, Maharashtra 410210, India.

出版信息

Br J Cancer. 2015 Jun 9;112(12):1958-65. doi: 10.1038/bjc.2015.121. Epub 2015 May 14.

DOI:10.1038/bjc.2015.121

PMID:25973533

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4580395/

Abstract

BACKGROUND

Human papilloma virus (HPV) accounts for the most common cause of all virus-associated human cancers. Here, we describe the first graphic user interface (GUI)-based automated tool 'HPVDetector', for non-computational biologists, exclusively for detection and annotation of the HPV genome based on next-generation sequencing data sets.

METHODS

We developed a custom-made reference genome that comprises of human chromosomes along with annotated genome of 143 HPV types as pseudochromosomes. The tool runs on a dual mode as defined by the user: a 'quick mode' to identify presence of HPV types and an 'integration mode' to determine genomic location for the site of integration. The input data can be a paired-end whole-exome, whole-genome or whole-transcriptome data set. The HPVDetector is available in public domain for download: http://www.actrec.gov.in/pi-webpages/AmitDutt/HPVdetector/HPVDetector.html.

RESULTS

On the basis of our evaluation of 116 whole-exome, 23 whole-transcriptome and 2 whole-genome data, we were able to identify presence of HPV in 20 exomes and 4 transcriptomes of cervical and head and neck cancer tumour samples. Using the inbuilt annotation module of HPVDetector, we found predominant integration of viral gene E7, a known oncogene, at known 17q21, 3q27, 7q35, Xq28 and novel sites of integration in the human genome. Furthermore, co-infection with high-risk HPVs such as 16 and 31 were found to be mutually exclusive compared with low-risk HPV71.

CONCLUSIONS

HPVDetector is a simple yet precise and robust tool for detecting HPV from tumour samples using variety of next-generation sequencing platforms including whole genome, whole exome and transcriptome. Two different modes (quick detection and integration mode) along with a GUI widen the usability of HPVDetector for biologists and clinicians with minimal computational knowledge.

摘要

背景

人乳头瘤病毒（HPV）是所有与病毒相关的人类癌症的最常见病因。在此，我们描述了首个基于图形用户界面（GUI）的自动化工具“HPVDetector”，专为非计算生物学家设计，专门用于基于下一代测序数据集检测和注释HPV基因组。

方法

我们开发了一个定制的参考基因组，它由人类染色体以及143种HPV类型的注释基因组作为假染色体组成。该工具根据用户定义以双模式运行：“快速模式”用于识别HPV类型的存在，“整合模式”用于确定整合位点的基因组位置。输入数据可以是双端全外显子组、全基因组或全转录组数据集。HPVDetector可在公共领域下载：http://www.actrec.gov.in/pi-webpages/AmitDutt/HPVdetector/HPVDetector.html。

结果

基于我们对116个全外显子组、23个全转录组和2个全基因组数据的评估，我们能够在宫颈癌和头颈癌肿瘤样本的20个外显子组和4个转录组中鉴定出HPV的存在。使用HPVDetector的内置注释模块，我们发现病毒基因E7（一种已知的致癌基因）主要整合在人类基因组中已知的17q21、3q27、7q35、Xq28以及新的整合位点。此外，与低风险HPV71相比，发现与高危HPV如16和31的共感染是相互排斥的。

结论

HPVDetector是一种简单、精确且强大的工具，可使用包括全基因组、全外显子组和转录组在内的各种下一代测序平台从肿瘤样本中检测HPV。两种不同模式（快速检测和整合模式）以及GUI拓宽了HPVDetector对计算知识最少的生物学家和临床医生的可用性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/04ae/4580395/9dfab5040998/bjc2015121f1.jpg

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基于二代测序的方法来确定人癌基因组中HPV的存在及其整合位点。

NGS-based approach to determine the presence of HPV and their sites of integration in human cancer genome.

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