Genetic factors affecting EBV copy number in lymphoblastoid cell lines derived from the 1000 Genome Project samples.

Rajendra Mandage,Marco Telford,Arcadi Navarro,Xavier Farré,Caitlin Cundiff,Urko M Marigorta,Hafid Layouni,Juan Antonio Rodríguez,Jose Maria Heredia-Genestar,Gabriel Santpere

doi:10.1371/journal.pone.0179446

Abstract

Epstein-Barr virus (EBV), human herpes virus 4, has been classically associated with infectious mononucleosis, multiple sclerosis and several types of cancers. Many of these diseases show marked geographical differences in prevalence, which points to underlying genetic and/or environmental factors. Those factors may include a different susceptibility to EBV infection and viral copy number among human populations. Since EBV is commonly used to transform B-cells into lymphoblastoid cell lines (LCLs) we hypothesize that differences in EBV copy number among individual LCLs may reflect differential susceptibility to EBV infection. To test this hypothesis, we retrieved whole-genome sequenced EBV-mapping reads from 1,753 LCL samples derived from 19 populations worldwide that were sequenced within the context of the 1000 Genomes Project. An in silico methodology was developed to estimate the number of EBV copy number in LCLs and validated these estimations by real-time PCR. After experimentally confirming that EBV relative copy number remains stable over cell passages, we performed a genome wide association analysis (GWAS) to try detecting genetic variants of the host that may be associated with EBV copy number. Our GWAS has yielded several genomic regions suggestively associated with the number of EBV genomes per cell in LCLs, unraveling promising candidate genes such as CAND1, a known inhibitor of EBV replication. While this GWAS does not unequivocally establish the degree to which genetic makeup of individuals determine viral levels within their derived LCLs, for which a larger sample size will be needed, it potentially highlighted human genes affecting EBV-related processes, which constitute interesting candidates to follow up in the context of EBV related pathologies.

Highlights

The Human herpesvirus 4, known as Epstein-Barr virus (EBV), belongs to the gammaherpesvirinae subfamily and is the causal agent of infectious mononucleosis in humans
We present the results of a genome wide association analysis (GWAS) on an expanded dataset of 1,753 lymphoblastoid cell lines (LCLs) samples derived from the 1000 Genomes Project (1KGP), where we estimated the number of EBV genomes per LCL using an in silico method, which was subject to careful experimental validation
EBV copy number ranged from 2 to 500 copies/cell and showed significant differences at the level of populations and continents (ANOVA p-value

Summary

Introduction

The Human herpesvirus 4, known as Epstein-Barr virus (EBV), belongs to the gammaherpesvirinae subfamily and is the causal agent of infectious mononucleosis in humans It triggers other lymphoproliferative disorders and causes 1% of all cancers, including nasopharyngeal carcinoma (NPC), Hodgkin Lymphoma and Burkitt Lymphoma (BL) [1]. While many environmental factors may account for a good proportion of such variation [5], some of the geographical variance in prevalence could be explained by a number of genomic and environmental factors, acting alone or in combination These include (i) differences in disease risk due to differences in the genetic architecture of the relevant diseases across human populations; (ii) geographic differences in the host’s genetic susceptibilities to EBV infection; (iii) genomic differences between EBV strains across geographical regions; and (iv) pathogenic interactions between variants in the host and the virus genome

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