Global Analysis of Plasmodium falciparum Dihydropteroate Synthase Variants Associated with Sulfadoxine Resistance Reveals Variant Distribution and Mechanisms of Resistance: A Computational-Based Study.
Rita Afriyie BoatengJames L Myers-HansenNigel N O DollingBenedicta A MensahElia BrodskyMohit MazumderAnita GhansahPublished in: Molecules (Basel, Switzerland) (2022)
The continual rise in sulfadoxine (SDX) resistance affects the therapeutic efficacy of sulfadoxine-pyrimethamine; therefore, careful monitoring will help guide its prolonged usage. Mutations in Plasmodium falciparum dihydropteroate synthase ( Pf dhps) are being surveilled, based on their link with SDX resistance. However, there is a lack of continuous analyses and data on the potential effect of molecular markers on the Pf dhps structure and function. This study explored single-nucleotide polymorphisms (SNPs) in Pf dhps that were isolated in Africa and other countries, highlighting the regional distribution and its link with structure. In total, 6336 genomic sequences from 13 countries were subjected to SNPs, haplotypes, and structure-based analyses. The SNP analysis revealed that the key SDX resistance marker, A437G, was nearing fixation in all countries, peaking in Malawi. The mutation A613S was rare except in isolates from the Democratic Republic of Congo and Malawi. Molecular docking revealed a general loss of interactions when comparing mutant proteins to the wild-type protein. During MD simulations, SDX was released from the active site in mutants A581G and A613S before the end of run-time, whereas an unstable binding of SDX to mutant A613S and haplotype A437A/A581G/A613S was observed. Conformational changes in mutant A581G and the haplotypes A581G/A613S, A437G/A581G, and A437G/A581G/A613S were seen. The radius of gyration revealed an unfolding behavior for the A613S, K540E/A581G, and A437G/A581G systems. Overall, tracking such mutations by the continuous analysis of Pf dhps SNPs is encouraged. SNPs on the Pf dhps structure may cause protein-drug function loss, which could affect the applicability of SDX in preventing malaria in pregnant women and children.
Keyphrases
- plasmodium falciparum
- wild type
- genome wide
- molecular docking
- pregnant women
- molecular dynamics
- single cell
- molecular dynamics simulations
- young adults
- dna methylation
- copy number
- single molecule
- minimally invasive
- gene expression
- protein protein
- big data
- deep learning
- binding protein
- machine learning
- genetic diversity
- dna binding
- adverse drug