Genetics &Population Structure of Plasmodium falciparum
Rich, Stephen M.   
University of Massachusetts Amherst, Amherst, MA, United States

The current global population of the most deadly human malaria parasite, P. falciparum, is thought to have undergone a bottleneck sometime within the past several thousand years. Despite a recent common origin, P. falciparum populations are characterized by a high degree of protein polymorphism, particularly among certain immunodominant surface proteins. This extensive genetic variation provides the great adaptive potential by which the parasite evades the host immune response. The major objective of this proposal is to determine not only the degree of antigenic diversity in P. falciparum populations, but also to determine the principle mechanisms by which this variation is generated and maintained. We will examine the genetic polymorphism among natural isolates of P. falciparum from several endemic African sites. From these isolates, we will quantify the polymorphism among several molecular markers, which are dispersed on three completely sequenced chromosomes (chr2, chr3, and chr10). The genetic loci to be examined are three encoded surface protein genes--circumsporozoite protein (Csp, on Chr2) and merozoite surface protein-2 (Msp-2, on Chr3), and the 25kd P. falciparum sexual-stage antigen (pfs25, on Chr10). Each of these loci is life cycle-stage-specific in its expression and is the target of one or more vaccines currently in development. In addition to these protein-encoding genes, we will type several highly polymorphic microsatellite loci arrayed on the same three chromosomes. The resulting multi-locus genotype of each isolate will be used to test directly; (1) the level of meiotic recombination among genomes of natural P. falciparum isolates, (2) the extent of diversifying selection among the crucial protein-encoding genes, (3) the role of slipped-strand (mitotic) mutation in maintaining variability in immunogenic, nucleotide-repeat loci (Csp and Msp-2). This work will increase our understanding of the genomic evolution of this parasite will yield valuable information for evaluating appropriate strategies for intervening in disease transmission.