Putative APOBEC3 deaminase editing in MPXV as evidence for sustained human transmission since at least 2016

Abstract

AbstractMpox is often described as being endemic in West and Central Africa as a zoonotic disease that transmits through contact with the reservoir rodent host, likely a species of African squirrel. In May 2022, human cases of Mpox were detected spreading internationally beyond countries with known endemic reservoirs. At time of writing, 84,700 confirmed cases have been reported in 110 countries. When the first cases from 2022 were sequenced, it was seen that they shared 42 single nucleotide differences from the closest mpox virus (MPXV) genome sampled in 2018. This number of changes within 3-4 years is unexpectedly large and points to a much greater evolutionary rate than expected for a poxvirus. Strikingly, most nucleotide changes are of a specific type – a dinucleotide change from TC->TT or its reverse complement GA->AA. This mutation type is characteristic of the action of APOBEC3 deaminases; host-enzymes with reported antiviral function. Analysis of MPXV genomes sampled from 2017 to 2022 showed further evidence of TC->TT mutation pattern enrichment, with 93% of transmitted single nucleotide mutations since 2017 consistent with APOBEC3 editing. Assuming APOBEC-editing is characteristic of MPXV infection in human hosts, we propose an APOBEC clock that – at a rate of ~6 APOBEC3 mutations per year – estimates MPXV has been circulating in humans since 2016. This evolutionary pattern of host-enzyme editing has implications for the longer-term fitness of the virus in this epidemic as such mechanisms are primarily antiviral in function, but in the context of a poxvirus also provide a source of variation that may conceivably facilitate adaptation.