Nandan S. Gokhale scite author profile

SUMMARY The RNA modification N6-methyladenosine (m6A) post-transcriptionally regulates RNA function. The cellular machinery that controls m6A includes methyltransferases and demethylases that add or remove this modification as well as m6A-binding YTHDF proteins that promote the translation or degradation of m6A-modified mRNA. We demonstrate that m6A modulates infection by hepatitis C virus (HCV). Depletion of m6A-methyltransferases or an m6A-demethylase respectively increases and decreases infectious HCV particle production. During HCV infection, YTHDF proteins relocalize to lipid droplets, sites of viral assembly, and their depletion increases infectious viral particles. We further mapped m6A sites across the HCV genome and determine that inactivating m6A in one viral genomic region increases viral titer without affecting RNA replication. Additional mapping of m6A on the RNA genomes of other Flaviviridae, including dengue, Zika, yellow fever, and West Nile virus, identifies conserved regions modified by m6A. Together, this work identifies m6A as a conserved regulatory mark across Flaviviridae genomes.

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Posttranscriptional m 6 A Editing of HIV-1 mRNAs Enhances Viral Gene Expression

Kennedy

Bogerd

Kornepati

et al. 2016

Cell Host & Microbe

324

478

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Summary Covalent addition of a methyl group to the adenosine N6 (m6A) is an evolutionarily conserved and common RNA modification that is thought to modulate several aspects of RNA metabolism. While the presence of multiple m6A editing sites on diverse viral RNAs was reported starting almost 40 years ago, how m6A editing affects virus replication has remained unclear. Here, we used photo-crosslinking-assisted m6A sequencing techniques to precisely map several m6A editing sites on the HIV-1 genome and report that they cluster in the HIV-1 3’ untranslated region (3'UTR). Viral 3'UTR m6A sites or analogous cellular m6A sites strongly enhanced mRNA expression in cis by recruiting the cellular YTHDF m6A “reader” proteins. Reducing YTHDF expression inhibited, while YTHDF overexpression enhanced, HIV-1 protein and RNA expression, and virus replication in CD4+ T cells. These data identify m6A editing, and the resultant recruitment of YTHDF proteins, as major positive regulators of HIV-1 mRNA expression.

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Regulation of Viral Infection by the RNA Modification N6-Methyladenosine

2019

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In recent years, the RNA modification N6-methyladenosine (m6A) has been found to play a role in the life cycles of numerous viruses and also in the cellular response to viral infection. m6A has emerged as a regulator of many fundamental aspects of RNA biology. Here, we highlight recent advances in techniques for the study of m6A, as well as advances in our understanding of the cellular machinery that controls the addition, removal, recognition, and functions of m6A. We then summarize the many newly discovered roles of m6A during viral infection, including how it regulates innate and adaptive immune responses to infection. Overall, the goals of this review are to summarize the roles of m6A on both cellular and viral RNAs and to describe future directions for uncovering new functions of m6A during infection.

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Nandan S. Gokhale

N6 -Methyladenosine in Flaviviridae Viral RNA Genomes Regulates Infection

Posttranscriptional m 6 A Editing of HIV-1 mRNAs Enhances Viral Gene Expression

Regulation of Viral Infection by the RNA Modification N6-Methyladenosine

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