Geographic EBV variants confound disease-specific variant interpretation and predict variable immune therapy responses.
Edward L BriercheckShashidhar RavishankarElshafa Hassan AhmedCesar Camilo Carias AlvaradoJuan Carlos Barrios MenéndezOscar SilvaElizabeth Solórzano-OrtizMarcos Mauricio Siliézar TalaPhilip StevensonYuexin XuAnthony Wilder WohnsDaniel Enriquez-VeraCarlos BarrionuevoShan-Chi YuAharon G FreudChristopher OakesChristoph WeigelDavid M WeinstockHaley L KlimaszewskiApollinaire NgankeuNora MutalimaGabriela Samayoa-ReyesRobert NewtonRosemary RochfordFabiola Valvert GamboaYasodha NatkunamAndrei ShustovRobert A BaiocchiEdus H WarrenPublished in: Blood advances (2024)
Epstein-Barr virus (EBV) is a potent carcinogen linked to hematologic and solid malignancies and causes significant global morbidity and mortality. Therapy using allogeneic EBV-specific lymphocytes shows promise in certain populations, but the impact of EBV genome variation on these strategies remains unexplored. To address this, we sequenced 217 EBV genomes, including hematologic malignancies from Guatemala, Peru, Malawi, and Taiwan, and analyzed them alongside 1307 publicly available EBV genomes from cancer, nonmalignant diseases, and healthy individuals across Africa, Asia, Europe, North America, and South America. These included, to our knowledge, the first natural killer (NK)/T-cell lymphoma (NKTCL) EBV genomes reported outside of East Asia. Our findings indicate that previously proposed EBV genome variants specific to certain cancer types are more closely tied to geographic origin than to cancer histology. This included variants previously reported to be specific to NKTCL but were prevalent in EBV genomes from other cancer types and healthy individuals in East Asia. After controlling for geographic region, we did identify multiple NKTCL-specific variants associated with a 7.8-fold to 21.9-fold increased risk. We also observed frequent variations in EBV genomes that affected peptide sequences previously reported to bind common major histocompatibility complex alleles. Finally, we found several nonsynonymous variants spanning the coding sequences of current vaccine targets BALF4, BKRF2, BLLF1, BXLF2, BZLF1, and BZLF2. These results highlight the need to consider geographic variation in EBV genomes when devising strategies for exploiting adaptive immune responses against EBV-related cancers, ensuring greater global effectiveness and equity in prevention and treatment.
Keyphrases
- epstein barr virus
- diffuse large b cell lymphoma
- papillary thyroid
- copy number
- immune response
- randomized controlled trial
- squamous cell carcinoma
- systematic review
- gene expression
- inflammatory response
- stem cell transplantation
- genome wide
- dna methylation
- big data
- peripheral blood
- mesenchymal stem cells
- artificial intelligence
- dendritic cells