Liliana Mâncio-Silva scite author profile

Clonally variant gene families underlie phenotypic plasticity in Plasmodium falciparum, a process indispensable for survival of the pathogen in its human host. Differential transcription of one of these gene families in clonal parasite lineages has been associated with chromatin modifications. Here, we determine the genome-wide distribution in P. falciparum of a histone mark of heterochromatin, trimethylation of histone H3 lysine 9 (H3K9me3), using high-resolution ChIP-chip analysis. We show that H3K9me3 is specifically associated with clonally variant gene families, which are clustered on subtelomeric and some chromosome internal regions. High levels of H3K9me3 correlate with genes localized to the nuclear periphery, implying chromosome loop formation. Disruption of the histone deacetylase PfSir2 causes changes in H3K9me3 that are discontinuous along chromosomes and associated with disrupted monoallelic transcription. Our data point to the existence of perinuclear repressive centers associated with control of expression of malaria parasite genes involved in phenotypic variation and pathogenesis.

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Telomeric Heterochromatin Propagation and Histone Acetylation Control Mutually Exclusive Expression of Antigenic Variation Genes in Malaria Parasites

Freitas‐Junior

Hernández‐Rivas

Ralph

et al. 2005

Cell

449

435

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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.

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Steroid Hormone Function Controls Non-competitive Plasmodium Development in Anopheles

Werling

Shaw

Itoe

et al. 2019

Cell

203

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Graphical AbstractHighlights d Human malaria parasites interact non-competitively with their mosquito vectors d Mosquito hormone signaling co-regulates egg and parasite development d Parasites use host lipids for their growth via a mosquito lipid transporter d Parasites respond to mosquito metabolism with consequences for vector controlThe development of the malaria-causing parasite Plasmodium falciparum depends on its ability to exploit the sexual cycle of its mosquito host in a noncompetitive manner. SUMMARYTransmission of malaria parasites occurs when a female Anopheles mosquito feeds on an infected host to acquire nutrients for egg development. How parasites are affected by oogenetic processes, principally orchestrated by the steroid hormone 20hydroxyecdysone (20E), remains largely unknown.Here we show that Plasmodium falciparum development is intimately but not competitively linked to processes shaping Anopheles gambiae reproduction. We unveil a 20E-mediated positive correlation between egg and oocyst numbers; impairing oogenesis by multiple 20E manipulations decreases parasite intensities. These manipulations, however, accelerate Plasmodium growth rates, allowing sporozoites to become infectious sooner. Parasites exploit mosquito lipids for faster growth, but they do so without further affecting egg development. These results suggest that P. falciparum has adopted a non-competitive evolutionary strategy of resource exploitation to optimize transmission while minimizing fitness costs to its mosquito vector. Our findings have profound implications for currently proposed control strategies aimed at suppressing mosquito populations.

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