Abstract
ABSTRACTIn sexually reproducing organisms, meiosis is an essential step responsible for generation of haploid gametes from diploid somatic cells. The quest for understanding regulatory mechanisms of meiotic recombination in Plasmodium led to identification of a gene encoding a protein that contains 11 copies of C2H2 zinc fingers (ZnF). Reverse genetic approaches were used to create Plasmodium berghei parasites either lacking expression of full-length Plasmodium berghei zinc finger protein (PbZfp) (knockout [KO]) or expressing PbZfp lacking C-terminal zinc finger region (truncated [Trunc]). Mice infected with KO parasites survived two times longer (P < 0.0001) than mice infected with wild-type (WT) parasites. In mosquito transmission experiments, the infectivity of KO and Trunc parasites was severely compromised (>95% oocyst reduction). KO parasites revealed a total lack of trimethylation of histone 3 at several lysine residues (K4, K27, and K36) without any effect on acetylation patterns (H3K9, H3K14, and H4K16). Reduced DNA damage and reduced expression of topoisomerase-like Spo11 in the KO parasites with normal Rad51 expression further suggest a functional role for PbZfp during genetic recombination that involves DNA double-strand break (DSB) formation followed by DNA repair. These finding raise the possibility of some convergent similarities of PbZfp functions to functions of mammalian PRDM9, also a C2H2 ZnF protein with histone 3 lysine 4 (H3K4) methyltransferase activity. These functions include the major role played by the latter in binding recombination hotspots in the genome during meiosis and trimethylation of the associated histones and subsequent chromatin recruitment of topoisomerase-like Spo11 to catalyze DNA DSB formation and DMC1/Rad51-mediated DNA repair and homologous recombination.
Highlights
In sexually reproducing organisms, meiosis is an essential step responsible for generation of haploid gametes from diploid somatic cells
While proteins with runs of multiple (Ͼ3) instances of C2H2 zinc fingers (ZnF) are common in animals, the P. berghei Zfp (PbZfp) protein is the only such example conserved across Plasmodium species: PbANKA_06077 in P. berghei, Pf3D7_1209300 in P. falciparum, PKH_13092 in P. knowlesi, Py17X_0610200 in P. yoelii, and PVX_084495 in P. vivax
Bioinformatics analysis predicted three potential phosphorylation sites in the P. falciparum homolog of Plasmodium berghei zinc finger protein (PbZfp), a result which was experimentally validated by phosphoproteome analysis of erythrocytic asexual life cycle stages, demonstrating phosphorylation at serine residues 512, 596, and 1230 [38]
Summary
Meiosis is an essential step responsible for generation of haploid gametes from diploid somatic cells. Reduced DNA damage and reduced expression of topoisomerase-like Spo in the KO parasites with normal Rad expression further suggest a functional role for PbZfp during genetic recombination that involves DNA double-strand break (DSB) formation followed by DNA repair These finding raise the possibility of some convergent similarities of PbZfp functions to functions of mammalian PRDM9, a C2H2 ZnF protein with histone 3 lysine 4 (H3K4) methyltransferase activity. These functions include the major role played by the latter in binding recombination hotspots in the genome during meiosis and trimethylation of the associated histones and subsequent chromatin recruitment of topoisomerase-like Spo to catalyze DNA DSB formation and DMC1/Rad51-mediated DNA repair and homologous recombination. The SET domain initially characterized in Drosophila is an evolutionarily well-conserved domain associated with many chromosomal proteins and with proteins necessary for histone lysine trimethylation in mammalian cells [20]
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