Genetic characterization of Plasmodium vivax linked to autochthonous malaria transmission in the US (2023) using Illumina AmpliSeq technology: a genetic epidemiology studyResearch in context

Genetic characterization of Plasmodium vivax linked to autochthonous malaria transmission in the US (2023) using Illumina AmpliSeq technology: a genetic epidemiology studyResearch in context

Summary: Background: Malaria is a mosquito borne disease caused by parasites of the genus Plasmodium. In 2023, the United States (US) experienced nine cases of autochthonous Plasmodium vivax malaria transmission; seven in Florida, one in Texas, and another in Arkansas. These were the first autochth...

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Main Authors: Joel L.N. Barratt, David Jacobson, Edwin Pierre-Louis, Marko Bajic, Julia Kelley, Dhruviben S. Patel, Ira Goldman, Zhiyong Zhou, Ya Ping Shi, Alison Ridpath, Kimberly Mace, Christina Carlson, Alice Sutcliffe, Qiana Butler, Andrea Morrison, Danielle Stanek, Kelly Tomson, Carina Blackmore, Andrew Cannons, Susan Rollo, Chun Wang, Rashmi Tuladhar, Brooke Clemons, Susan Madison-Antenucci, Kimberly Mergen, Jennifer White, Mike Antwi, Laura Rothfeldt, Katelyn Lazenby, Stephen Hedges, Jennifer N. Shray, Ashleah Courtney, Bobby Boyanton, Yvonne Qvarnstrom, Molly Freeman, Brian H. Raphael
Format: Article
Language:English
Published: Elsevier 2025-08-01
Series:The Lancet Regional Health. Americas
Subjects:
Malaria
Autochthonous
Plasmodium vivax
USA
Transmission
Sequencing
Online Access:http://www.sciencedirect.com/science/article/pii/S2667193X25001693
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Summary:Summary: Background: Malaria is a mosquito borne disease caused by parasites of the genus Plasmodium. In 2023, the United States (US) experienced nine cases of autochthonous Plasmodium vivax malaria transmission; seven in Florida, one in Texas, and another in Arkansas. These were the first autochthonous cases since 2003 when a cluster was identified in Florida. The aim of this study was to genetically characterize the implicated P. vivax isolates in order to complement epidemiologic investigations of these cases. Methods: A custom Illumina AmpliSeq sequencing panel capturing 495 amplicons was designed. This panel was used to ascertain whether these 2023 cases were related, and assess if they were associated with a single or separate introduction events. Sequence data were hierarchically clustered and a Naïve Bayes classification approach was used to assign genotypes to a probable geographic origin based on 113 ‘geo-informative’ SNPs captured by the panel. Genotypes associated with the 2023 Arkansas, Texas, and Florida cases were clustered alongside those sequenced from archived blood samples from the 2003 Florida case-patients, a set of reference strains, and other travel-associated specimens. Microsatellite analysis was performed on a subset of samples from these autochthonous cases to complement the AmpliSeq analysis. Findings: The 2023 autochthonous Florida cases were genetically linked as were the 2003 Florida cases. The 2023 and 2003 Florida clusters were genetically distinct, and the two Florida clusters were distinct from the 2023 Texas and Arkansas cases, which were also distinct from each other. These genotypes classified to the Central or South American region using the Naïve Bayes classifier, including those from the 2003 cluster. Interpretation: These data support that at least three distinct P. vivax introduction events in the US in 2023, involving parasites possessing genetic signatures consistent with Central or South America. Funding: This work was supported by the National Center for Emerging and Zoonotic Infectious Diseases at the US Centers for Disease Control and Prevention.
ISSN:2667-193X

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