AI Article Synopsis
- * The World Health Organization recommends artemisinin-based combination therapy (ACT) as the primary treatment, but emerging resistance to artemisinin and its partner drugs is causing treatment failures, largely due to mutations in the kelch13 (k13) gene.
- * This review aims to explore the molecular basis of artemisinin resistance in the malaria-causing parasite Plasmodium falciparum, highlighting current challenges and future research paths to enhance our understanding and address malaria effectively.
Article Abstract
Malaria still poses a major burden on human health around the world, especially in endemic areas. Plasmodium resistance to several antimalarial drugs has been one of the major hindrances in control of malaria. Thus, the World Health Organization recommended artemisinin-based combination therapy (ACT) as a front-line treatment for malaria. The emergence of parasites resistant to artemisinin, along with resistant to ACT partner drugs, has led to ACT treatment failure. The artemisinin resistance is mostly related to the mutations in the propeller domain of the kelch13 (k13) gene that encodes protein Kelch13 (K13). The K13 protein has an important role in parasite reaction to oxidative stress. The most widely spread mutation in K13, with the highest degree of resistance, is a C580Y mutation. Other mutations, which are already identified as markers of artemisinin resistance, are R539T, I543T, and Y493H. The objective of this review is to provide current molecular insights into artemisinin resistance in Plasmodium falciparum. The trending use of artemisinin beyond its antimalarial effect is described. Immediate challenges and future research directions are discussed. Better understanding of the molecular mechanisms underlying artemisinin resistance will accelerate implementation of scientific findings to solve problems with malarial infection.
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| http://dx.doi.org/10.1016/j.meegid.2023.105460 | DOI Listing |
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