Authors
Liu, X., Bilger, A., Lee, D., Argyris, P., Chen, J., Ward-Shaw, E., Barreto Duran, E., Lin, Y.-H., Durfee, C., Chun, S. H., Ibrahim, M., Proehl, J., Allen, Y., Lambert, P. F., Harris, R. S.
Abstract
The single-stranded DNA deaminase APOBEC3B (A3B) is capable of potently restricting the replication of a range of viruses including retroviruses (cDNA) and herpesviruses (genomic DNA). However, these and likely other DNA virus families have evolved host species-specific counter-defenses that are equally potent and serve to protect viral DNA from restriction. Although high-risk human papillomavirus (HPV) infection triggers A3B upregulation, potentially as part of an antiviral response, the impact of this restriction factor on papillomavirus replication and pathogenesis has yet to be assessed. To study human A3B antiviral function in the absence of a species-specific counter-defense, here we ask whether human A3B is capable of restricting Mus musculus papillomavirus (MmuPV1) in cellulo and in vivo. First, we created human A3B and catalytic mutant A3B-E255A expressing FVB/N mice. Second, MmuPV1 gene expression and replication was quantified in primary keratinocytes from these animals and, surprisingly, enzymatically active human A3B caused no measurable impairment in viral transcript or DNA accumulation. Third, A3B, catalytic mutant A3B-E255A, and nontransgenic FVB/N animals were infected with MmuPV1 and similar pathologies were found regardless of A3B functionality. Thus, despite likely never being exposed to human A3B during evolution, MmuPV1 appears to be unaffected by this potent, primate-specific antiviral factor. These results suggest that MmuPV1 and perhaps papillomaviruses more broadly possess a conserved mechanism to efficiently escape restriction by human A3B and related DNA deaminases.
Preprint server:
bioRxiv
The authors list and abstract were imported from bioRxiv on 12 Nov 2025.
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