Significant enrichment of Herpesvirus interactors in GWAS data suggests causal inferences for the association between Epstein Barr virus and multiple sclerosis

Mechelli, Rosella; Umeton, Renato; Srinivasan, Sundararajan; Fornasiero, Arianna; Ferraldeschi, Michela; Imsgc,; Wtccc,; Centonze, Diego; Farina, Cinthia; Salvetti, Marco; Ristori, Giovanni

doi:10.1101/624049

Cited by 2 publications

(1 citation statement)

References 60 publications

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“…In this study, we obtained the transcriptomics datasets of these viruses and MS patients from the GEO database, and the correlation between EBV infection and MS risk was the most signi cant according to systematic analysis. The result was in line with previous studies, Rosella et al found that three herpesviruses showed statistical signi cance through the analysis between MS susceptibility genes and 20 interactomes, with EBV showing higher levels of signi cance compared to Human Herpesvirus 8 and, more evidently, to CMV [40]. Therefore, we dived deep into the roles of EBV in MS pathogenesis.…”

Section: Discussionsupporting

confidence: 91%

Identification of multiple sclerosis-related genes regulated by EBV-encoded microRNAs in B cells

Rang

Yuan

Wang

et al. 2021

Preprint

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Background: Multiple sclerosis (MS) is driven by the interaction between genetic susceptibility and environmental triggers, particularly to Epstein-Barr virus (EBV) infection. EBV-encoded microRNAs (miRNAs) are abundantly expressed in all stages of EBV infection and latency, which can target both viral and host cellular mRNAs, allowing EBV-infected B cells to evade the host immune response. However, it remains a big gap to understand the roles of EBV miRNAs and their target genes in MS pathogenesis.Methods: We investigated the correlation between MS-related viruses infection and MS risk quantitatively by systematic analysis. All MS-related genes in B cells were obtained by integrating MS susceptibility genes and differentially expressed genes from B cells. In comparison with differentially expressed genes from B cells after EBV infection in vitro, we confirmed EBV-regulated, MS-related genes. Subsequently, we obtained target EBV miRNAs which can regulate these genes from several online databases. By constructing pathway-pathway, pathway-gene and protein-protein interaction networks, we further screened out MS-related genes and risk pathways regulated by EBV miRNAs. Finally, we identified target EBV miRNAs may directly regulate MS-related genes through bioinformatic prediction and experimental validation.Results: EBV infection showed the strongest correlation with MS risk. A total of 873 MS-related genes and 52 risk pathways in B cells were obtained. We then identified 150 MS-related genes and 18 associated risk pathways that EBV was involved in. In addition, 42 human target genes regulated by 36 EBV miRNAs overlapped with EBV-regulated, MS-related genes. Finally, 15 target EBV miRNAs and their regulated, 6 MS-related genes (MALT1, BCL10, IFNGR2, STAT3, CDK6 and FOXP1) have been confirmed as crucial pathogenic molecules, which could promote the initiation and development of MS through NF-kappa B (MALT1 and BCL10) and PD-L1/PD-1 (IFNGR2 and STAT3) pathways. Surprisingly, ebv-miR-BHRF1-2-5p directly targeting MALT1 was confirmed by our experiments, and FOXP1 was identified as a target gene of ebv-miR-BART11.Conclusions: This work identified the target EBV miRNAs and their regulated, MS-related genes and risk pathways, which may provide a novel insight into discovering diagnostic biomarkers and therapeutic targets for MS.

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Section: Discussionsupporting

confidence: 91%

Identification of multiple sclerosis-related genes regulated by EBV-encoded microRNAs in B cells

Rang

Yuan

Wang

et al. 2021

Preprint

View full text Add to dashboard Cite

show abstract

Identification of multiple sclerosis-related genes regulated by EBV-encoded microRNAs in B cells

Rang

Liu

Wang

et al. 2022

Multiple Sclerosis and Related Disorders

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Background: Multiple sclerosis (MS) is driven by the interaction between genetic susceptibility and environmental triggers, particularly to Epstein-Barr virus (EBV) infection. EBV-encoded microRNAs (miRNAs) are abundantly expressed in all stages of EBV infection and latency, which can target both viral and host cellular mRNAs, allowing EBV-infected B cells to evade the host immune response. However, it remains a big gap to understand the roles of EBV miRNAs and their target genes in MS pathogenesis.Methods: We investigated the correlation between MS-related viruses infection and MS risk quantitatively by systematic analysis. All MS-related genes in B cells were obtained by integrating MS susceptibility genes and differentially expressed genes from B cells. In comparison with differentially expressed genes from B cells after EBV infection in vitro, we con rmed EBV-regulated, MS-related genes. Subsequently, we obtained target EBV miRNAs which can regulate these genes from several online databases. By constructing pathway-pathway, pathway-gene and protein-protein interaction networks, we further screened out MS-related genes and risk pathways regulated by EBV miRNAs. Finally, we identi ed target EBV miRNAs may directly regulate MS-related genes through bioinformatic prediction and experimental validation.Results: EBV infection showed the strongest correlation with MS risk. A total of 873 MS-related genes and 52 risk pathways in B cells were obtained. We then identi ed 150 MS-related genes and 18 associated risk pathways that EBV was involved in. In addition, 42 human target genes regulated by 36 EBV miRNAs overlapped with EBV-regulated, MS-related genes. Finally, 15 target EBV miRNAs and their regulated, 6 MS-related genes (MALT1, BCL10, IFNGR2, STAT3, CDK6 and FOXP1) have been con rmed as crucial pathogenic molecules, which could promote the initiation and development of MS through NF-kappa B (MALT1 and BCL10) and PD-L1/PD-1 (IFNGR2 and STAT3) pathways. Surprisingly, ebv-miR-BHRF1-2-5p directly targeting MALT1 was con rmed by our experiments, and FOXP1 was identi ed as a target gene of ebv-miR-BART11.Conclusions: This work identi ed the target EBV miRNAs and their regulated, MS-related genes and risk pathways, which may provide a novel insight into discovering diagnostic biomarkers and therapeutic targets for MS.

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Significant enrichment of Herpesvirus interactors in GWAS data suggests causal inferences for the association between Epstein Barr virus and multiple sclerosis

Cited by 2 publications

References 60 publications

Identification of multiple sclerosis-related genes regulated by EBV-encoded microRNAs in B cells

Identification of multiple sclerosis-related genes regulated by EBV-encoded microRNAs in B cells

Identification of multiple sclerosis-related genes regulated by EBV-encoded microRNAs in B cells

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