Abstract:
As Sri Lanka achieved malaria pre-elimination status in 2008, understanding popuiation
genetic structure of current and previous local Plasmodium vivax isolates is important to
(i) examine the degree of genetic isolation of these populations, and (ii) ascertain
whether subsequent outbreaks would be due to residual transmission or due to
introduction of new parasite strains to the parasite population.
Sequences of four polymorphic antigen encoding loci of P. vivax isolates collected a
decade ago were retrieved from the Genebank (pvmsp3o: N=17; pvdbp, pvmspl and
pvcsp:N=30). PCR amplification and sequencing of these four loci were carried out
using 16 isolates collected recently (2011-2012). DNasp 5.1 software was used to
examine the expected heterozygocity (He) and the genetic differentiation (Fst), to draw
comparison of current and previous population genetic structures.
Low mean He in the current P. vivax population (He=O.76) compared with previous
population (He=0.92) was observed for all four genes. Genetic differentiation amongst
the two test populations was highest in pvmsp3o (Fst=O.20719), moderate in pvdbp
(Fst=0.06785) and was absent in pvmspl and pvcsp (Fst= - 0.02876, Fst= - 0.01103).
Though a low degree of overlap of amino acid haplotypes of these four proteins was
,observed between current and previous populations, most current haplotypes were
novel. Thus these results suggest the possibility that new P. vivax variants have been
-introduced to the island; however, residual transmission of alleles that were not
previously detected cannot be ruled out.
Financial support by the Asia Pacific Malaria Elimination Network (APMEN) is acknowledged.
