Last Updated: 01/07/2025

Study on the molecular mechanism of artemisinin resistance

Objectives

This U.S.-China joint project will:

  1. identify novel molecular markers associated with artemisinin resistance through a genome-wide association study of P. falciparum parasite isolates from the China- Myanmar border area, where artemisinin family drugs have the longest history of deployment;
  2. perform functional studies to determine the role of the K13 gene and its polymorphisms in artemisinin resistance; and
  3. elucidate the molecular mechanism of artemisinin resistance through the identification of the molecular complex of the K13 protein.
Principal Institution

China Medical University, China

Principal Investigators / Focal Persons

Yaming Cao

Rationale and Abstract

Artemisinin-based combination therapies are the most effective frontline treatments for Plasmodium falciparum malaria; therefore, the recent emergence and potential spread of artemisinin resistance in Southeast Asia, the epicenter of multidrug-resistant P. falciparum, has raised global concerns. Studies of clinical isolates from western Cambodia and genetically modified laboratory strains have established a causal link of artemisinin resistance with mutations in the K13 gene (Pf3D7_1343700), but the molecular mechanism of K13-mediated artemisinin resistance is not understood. Population genetic studies of parasites from Southeast Asia showed independent emergence of the K13 mutants in multiple parasite populations. 

This joint project, built on a solid foundation of our past collaboration, encompasses the complementary expertise and resources from the collaborating institutions. The proposed studies will take advantage of the large archive of culture-adapted P. falciparum clinical isolates collected from the China-Myanmar border area and the significant inroad we have made into this field from our earlier collaborations. Information generated from this study will be highly useful for monitoring, curbing and deterring the spread of artemisinin resistance, and will have far-reaching impacts on both regional and global malaria elimination campaigns.

Themes

Drug Resistance

Date

Jan 2017 — Dec 2021

Total Project Funding

$247,779

Funding Details
National Natural Science Foundation of China (NSFC), China

Grant ID: 81761128017
CNY 1.67M
Project Site

China

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