Molecular Determinants of Sulfadoxine-Pyrimethamine Resistance in Plasmodium falciparum Isolates from Central Africa between 2016 and 2021: Wide Geographic Spread of Highly Mutated Pfdhfr and Pfdhps Alleles.

Abstract

ABSTRACTSulfadoxine-pyrimethamine (SP) resistance impairs the efficacy of antimalarial drugs. Monitoring molecular markers in exported malaria infections provides an efficient way to trace the emergence of drug resistance in countries where malaria is endemic. Molecular markers in Pfdhfr and Pfdhps of 237 Plasmodium falciparum infections imported from central Africa between 2016 and 2021 were detected. The spatial and temporal distributions of Pfdhfr and Pfdhps mutations were analyzed. A high prevalence of Pfdhfr single-nucleotide polymorphisms (SNPs) (~92.34% to 99.10%) and a high frequency of the triple mutation haplotype I51R59N108 were observed. Cameroon, Equatorial Guinea, and Gabon showed a higher frequency (~96.61% to 100.00%) of I51R59N108 than other countries (~71.11% to 88.10%). The prevalence of C59R and I51R59N108 increased while that of other SNPs or haplotypes did not fluctuate greatly from 2016 to 2021. Large proportions of Pfdhps SNPs (A437G and K540E) were demonstrated. The SNP distribution of Pfdhps differed between countries, with S436A dominating in northern countries and A437G dominating in others. The proportions of I431V, A437G, and the triple mutant haplotype declined between 2016 and 2021, whereas the prevalence of the single mutant haplotype rose from 61.60% to 73.68%. Combinations of Pfdhfr-Pfdhps alleles conferring partial resistance, full resistance, and superresistance to SP, as defined in the text, were detected in 63.64%, 8.64%, and 0.91% of the samples, respectively. The octuple Pfdhfr-Pfdhps allele (I51R59N108-V431A436G437K540G581S613) was seen in 5.00% of the samples. We demonstrated the wide geographic spread and increasing trends in highly SP-resistant Pfdhfr genes and varying spatial patterns of Pfdhps mutants across countries in central Africa. The high prevalences of partially resistant, fully resistant, and superresistant Pfdhfr-Pfdhps combinations observed here indicated impaired SP efficacy. Increased molecular surveillance is required to monitor the changing status of the Pfdhfr and Pfdhps genes.IMPORTANCE Monitoring drug resistance is important for malaria control because its early detection enables timely action to prevent its spread and mitigate its impact. The wide geographic spread and the increasing trend of highly resistant Pfdhfr genes between 2016 and 2021 found in our study are worrisome and emphasize the urgency to monitor their updated status in central Africa. This study also illustrated the wide spread of the novel mutant Pfdhps I431V as well as the high prevalence of “partially resistant,” “fully resistant,” and “superresistant” Pfdhfr-Pfdhps combinations, indicating the urgent concern for SP efficacy in central Africa. These findings are alarming in central African countries where malaria is endemic, where SP was is widely used for the intermittent preventive treatment of malaria in pregnancy (IPTp) and the intermittent preventive treatment of malaria in infants below 5 years of age (IPTi), and urge enhanced molecular surveillance and responses to the threat of drug resistance.