Malaria Surveillance Reveals Parasite Relatedness, Signatures of Selection, and Correlates of Transmission Across Senegal

Overview

Journal Nat Commun

Specialty Biology

Date 2023 Nov 10

PMID 37949851

Authors

Stephen F Schaffner

Aida Badiane

Akanksha Khorgade

Medoune Ndiop

Jules Gomis

Wesley Wong

Yaye Die Ndiaye

Younouss Diedhiou

Julie Thwing

Mame Cheikh Seck

Angela Early

Mouhamad Sy

Awa Deme

Mamadou Alpha Diallo

Ngayo Sy

Aita Sene

Tolla Ndiaye

Djiby Sow

Baba Dieye

Ibrahima Mbaye Ndiaye

Amy Gaye

Aliou Ndiaye

Katherine E Battle

Joshua L Proctor

Caitlin Bever

Fatou Ba Fall

Ibrahima Diallo

Seynabou Gaye

Doudou Sene

Daniel L Hartl

Dyann F Wirth

Bronwyn MacInnis

Daouda Ndiaye

Sarah K Volkman

Affiliations

Soon will be listed here.

Abstract

We here analyze data from the first year of an ongoing nationwide program of genetic surveillance of Plasmodium falciparum parasites in Senegal. The analysis is based on 1097 samples collected at health facilities during passive malaria case detection in 2019; it provides a baseline for analyzing parasite genetic metrics as they vary over time and geographic space. The study's goal was to identify genetic metrics that were informative about transmission intensity and other aspects of transmission dynamics, focusing on measures of genetic relatedness between parasites. We found the best genetic proxy for local malaria incidence to be the proportion of polygenomic infections (those with multiple genetically distinct parasites), although this relationship broke down at low incidence. The proportion of related parasites was less correlated with incidence while local genetic diversity was uninformative. The type of relatedness could discriminate local transmission patterns: two nearby areas had similarly high fractions of relatives, but one was dominated by clones and the other by outcrossed relatives. Throughout Senegal, 58% of related parasites belonged to a single network of relatives, within which parasites were enriched for shared haplotypes at known and suspected drug resistance loci and at one novel locus, reflective of ongoing selection pressure.

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