Telomeric heterochromatin propagation and histone acetylation control mutually exclusive expression of antigenic variation genes in malaria parasites.

Malaria parasites use antigenic variation to avoid immune clearance and increase the duration of infection in the human host. Variation at the surface of P. falciparum-infected erythrocytes is mediated by the differential control of a family of surface antigens encoded by var genes. Switching of var gene expression occurs in situ, mostly from telomere-associated loci, without detectable DNA alterations, suggesting that it is controlled by chromatin structure. We have identified chromatin modifications at telomeres that spread far into telomere-proximal regions, including var gene loci (>50 kb). One type of modification is mediated by a protein homologous to yeast Sir2 called PfSir2, which forms a chromosomal gradient of heterochromatin structure and histone hypoacetylation. Upon activation of a specific telomere-associated var gene, PfSir2 is removed from the promoter region and acetylation of histone occurs. Our data demonstrate that mutually exclusive transcription of var genes is linked to the dynamic remodeling of chromatin.

Recombinant and native Plasmodium falciparum TATA-binding-protein binds to a specific TATA box element in promoter regions.

RNA polymerase II promoters in Plasmodium spp., like in most eukaryotes, have a bipartite structure. However, the identification of a functional TATA box located within the Plasmodium spp. core promoters has been difficult, mainly because of its high A+T content. Only few putative trans-acting elements have been identified in the malaria parasite genome such as a gene orthologous to the TATA box binding protein (PfTBP). In this study, we demonstrate that PfTBP is part of the DNA-protein complexes formed in the kahrp and gbp-130 gene promoter regions. Supershift and footprinting assays performed with a GST-PfTBP fusion protein showed that PfTBP associates with a consensus TATA box sequence located 81 base pairs upstream of the transcription start site in the kahrp promoter region and with a TATA box-like (TGTAA) sequence at position -186 of the gbp-130 gene promoter region. Chromatin immunoprecipitation assays confirmed that native PfTBP is able to associate in vivo with both TATA box elements. This is the first study that reports the identification of cis-acting sequences (TATAA and TGTAA) and their corresponding trans-acting (PfTBP) factor in P. falciparum.