Browsing by Author "Lewandowski, Kuiama"
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- APOBEC3 deaminase editing in mpox virus as evidence for sustained human transmission since at least 2016Publication . O’Toole, Áine; Neher, Richard A.; Ndodo, Nnaemeka; Borges, Vitor; Gannon, Ben; Gomes, João Paulo; Groves, Natalie; King, David J.; Maloney, Daniel; Lemey, Philippe; Lewandowski, Kuiama; Loman, Nicholas; Myers, Richard; Omah, Ifeanyi F.; Suchard, Marc A.; Worobey, Michael; Chand, Meera; Ihekweazu, Chikwe; Ulaeto, David; Adetifa, Ifedayo; Rambaut, AndrewHistorically, mpox has been characterized as an endemic zoonotic disease that transmits through contact with the reservoir rodent host in West and Central Africa. However, in May 2022, human cases of mpox were detected spreading internationally beyond countries with known endemic reservoirs. When the first cases from 2022 were sequenced, they shared 42 nucleotide differences from the closest mpox virus (MPXV) previously sampled. Nearly all these mutations are characteristic of the action of APOBEC3 deaminases, host enzymes with antiviral function. Assuming APOBEC3 editing is characteristic of human MPXV infection, we developed a dual-process phylogenetic molecular clock that-inferring a rate of ~6 APOBEC3 mutations per year-estimates that MPXV has been circulating in humans since 2016. These observations of sustained MPXV transmission present a fundamental shift to the perceived paradigm of MPXV epidemiology as a zoonosis and highlight the need for revising public health messaging around MPXV as well as outbreak management and control.
- European pilot interlaboratory comparison study on Mpox virus whole genome sequencingPublication . Fuchs, Jonas; Bertelli, Claire; Pillonel, Trestan; Cordeiro, Rita; Izopet, Jacques; Pasquier, Christophe; Lewandowski, Kuiama; Maks, Anastasija; Michel, Janine; Rodriguez-Sanchez, Belen; Sanches-Seco, Maria Paz; Ledesma, Juan; Sobral, Daniel; Vercauteren, Koen; de Block, Tessa; Rezende, Antonio Mauro; Brinkmann, Annika; Nitsche, Andreas; Greub, Gilbert; Panning, MarcusObjectives: Since 2022, distinct Mpox virus (MPXV) clades have been spreading across different geographic regions, causing a challenging epidemiological situation. Whole genome sequencing (WGS) proved to be instrumental for patient management and global public health. We report a pilot interlaboratory comparison study for MPXV WGS. Methods: We distributed noninfectious DNA samples, including the main MPXV clades I and II, to eight European laboratories. We included one cowpox (CPXV) sample as a specificity control. Participants were free to choose their WGS pipeline of choice to mimic a real-world scenario and were asked to report on the sequencing pipeline used, average genome coverage, and MPXV species, clade, and subclade assignments. Results: Seven of the eight invited laboratories reported results back. All participants largely identified the MPXV clades and reported high-quality genomes with minimal variations, specifically for MPXV clade IIb 2022 outbreak strains. However, reconstructed genomes showed high variability for nonclade IIb MPXV strains. The CPXV sample was correctly identified by three laboratories. Conclusions: Although results for MPXV clade IIb 2022 outbreak strains are reassuring, the inclusion of MPXV clade I and IIa strains highlights pitfalls for targeted sequencing approaches and subsequent bioinformatic analyses. Our findings underscore the need for standardized external quality assessment studies.