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Epstein-Barr Virus Induced Cytidine Metabolism Roles in Transformed B-Cell Growth and Survival

Jin Liang, Chong Wang, Stephanie Pei Tung Yiu, Bo Zhao, Rui Guo, Benjamin E. Gewurz

2021mBio41 citationsDOIOpen Access PDF

Abstract

central nervous system (CNS) lymphomas. Since CTP is a critical precursor for DNA, RNA, and phospholipid synthesis, this observation raises the question of whether the isozyme CTPS2 or cytidine salvage pathways help meet CTP demand in EBV-infected B cells. Here, we found that EBV upregulated CTPS1 and CTPS2 with distinct kinetics in newly infected B cells. While CRISPR CTPS1 knockout caused DNA damage and proliferation defects in lymphoblastoid cell lines (LCLs), which express the EBV latency III program observed in CNS lymphomas, double CTPS1/2 knockout caused stronger phenotypes. EBNA2, MYC, and noncanonical NF-κB positively regulated CTPS1 expression. CTPS1 depletion impaired EBV lytic DNA synthesis, suggesting that latent EBV may drive pathogenesis with CTPS1 deficiency. Cytidine rescued CTPS1/2 deficiency phenotypes in EBV-transformed LCLs and Burkitt B cells, highlighting CTPS1/2 as a potential therapeutic target for EBV-driven lymphoproliferative disorders. Collectively, our results suggest that CTPS1 and CTPS2 have partially redundant roles in EBV-transformed B cells and provide insights into EBV pathogenesis with CTPS1 deficiency.

Topics & Concepts

CytidineBiologyEpstein–Barr virusLytic cycleCytidine deaminaseCancer researchVirusB cellVirologyImmunologyDNAEnzymeGeneticsAntibodyBiochemistryBiochemical and Molecular ResearchCytomegalovirus and herpesvirus researchHIV/AIDS drug development and treatment
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