Essentiality and dynamic expression of the human tRNA pool during viral infection
Abstract
Human viruses depend on the translation resources of the host cell. A significant translation resource is the tRNA pool of the cell, as human viruses do not encode tRNA genes. Through tRNA sequencing, we inspected the human tRNA pool upon infection of human Cytomegalovirus (HCMV) and SARS-CoV-2. HCMV-induced alterations in tRNA expression were predominantly virus-driven, with minimal influence from the cellular immune response. Notably, specific tRNA post-transcriptional modifications appeared to modulate stability and were susceptible to HCMV manipulation. In contrast, SARS-CoV-2 infection did not significantly impact tRNA expression or modifications. We compared the codon usage of viral genes to the proliferation-differentiation codon-usage signatures of human genes. We found a marked difference between the viruses, with HCMV genes aligning with differentiation codon usage and SARS-CoV-2 genes reflecting proliferation codon usage. We further found that codon usage of structural and gene expression-related viral genes displayed high adaptation to host cell tRNA pools. Through a systematic CRISPR screen targeting human tRNA genes and modification enzymes, we identified specific tRNAs and enzymes that improve or reduce HCMV infectivity and cellular growth. These findings highlight the dynamic interplay between the tRNA pool and viral infection dynamics, shedding light on mechanisms governing host-virus interactions.
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