Antimalarial resistance is one of the greatest threats to malaria elimination. Following an outbreak of Plasmodium falciparum infection in Sabah Malaysia in 2019, 98 samples were sequenced to search for adaptations driving the outbreak. The genomic data revealed evidence of clonal expansion of a strain carrying multiple copies of the chloroquine resistance transporter gene (pfcrt) in 86 cases. A TaqMan qPCR assay was developed to quantify pfcrt copy number, confirming the in silico evidence of duplication. Whilst point mutations in pfcrt have been associated with resistance to chloroquine and other drugs, copy number amplification has not previously been explored as a resistance mechanism. We investigated the genetic architecture of the duplication, revealing a wildtype haplotype (3D7 reference-type with 76K variant) and a novel mutant (with 76T mutation). Application of the TaqMan assay in 43 P. falciparum cases from neighbouring Palawan Island, the Philippines, identified a further two cases with pfcrt duplication. Assessment of the global genomic data in the MalariaGEN Pf8 repository identified a further 86 cases, including 73 (85%) from West Africa with evidence of pfcrt duplication. Amongst 47 monoclonal MalariaGEN cases, majority (95%) comprised wild type and mutant variants at codon 76. Our study reveals a potential previously unconsidered antimalarial resistance mechanism for P. falciparum and provides an assay for surveillance in other populations.
Advertisement
Stats
- Recommendations n/a n/a positive of 0 vote(s)
- Views 1
- Comments 0