Parasites & Vectors (Jul 2022)

Plasmodium berghei Brca2 is required for normal development and differentiation in mice and mosquitoes

  • Yasunaga Yoshikawa,
  • Shunta Kimura,
  • Akira Soga,
  • Makoto Sugiyama,
  • Aki Ueno,
  • Hiroki Kondo,
  • Zida Zhu,
  • Kazuhiko Ochiai,
  • Kazuhiko Nakayama,
  • Jun Hakozaki,
  • Kodai Kusakisako,
  • Asako Haraguchi,
  • Taisuke Kitano,
  • Koichi Orino,
  • Shinya Fukumoto,
  • Hiromi Ikadai

DOI
https://doi.org/10.1186/s13071-022-05357-w
Journal volume & issue
Vol. 15, no. 1
pp. 1 – 13

Abstract

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Abstract Background Malaria is a major global parasitic disease caused by species of the genus Plasmodium. Zygotes of Plasmodium spp. undergo meiosis and develop into tetraploid ookinetes, which differentiate into oocysts that undergo sporogony. Homologous recombination (HR) occurs during meiosis and introduces genetic variation. However, the mechanisms of HR in Plasmodium are unclear. In humans, the recombinases DNA repair protein Rad51 homolog 1 (Rad51) and DNA meiotic recombinase 1 (Dmc1) are required for HR and are regulated by breast cancer susceptibility protein 2 (BRCA2). Most eukaryotes harbor BRCA2 homologs. Nevertheless, these have not been reported for Plasmodium. Methods A Brca2 candidate was salvaged from a database to identify Brca2 homologs in Plasmodium. To confirm that the candidate protein was Brca2, interaction activity between Plasmodium berghei (Pb) Brca2 (PbBrca2) and Rad51 (PbRad51) was investigated using a mammalian two-hybrid assay. To elucidate the functions of PbBrca2, PbBrca2 was knocked out and parasite proliferation and differentiation were assessed in mice and mosquitoes. Transmission electron microscopy was used to identify sporogony. Results The candidate protein was conserved among Plasmodium species, and it was indicated that it harbors critical BRCA2 domains including BRC repeats, tower, and oligonucleotide/oligosaccharide-binding-fold domains. The P. berghei BRC repeats interacted with PbRad51. Hence, the candidate was considered a Brca2 homolog. PbBrca2 knockout parasites were associated with reduced parasitemia with increased ring stage and decreased trophozoite stage counts, gametocytemia, female gametocyte ratio, oocyst number, and ookinete development in both mice and mosquitoes. Nevertheless, the morphology of the blood stages in mice and the ookinete stage was comparable to those of the wild type parasites. Transmission electron microscopy results showed that sporogony never progressed in Brca2-knockout parasites. Conclusions Brca2 is implicated in nearly all Plasmodium life cycle stages, and especially in sporogony. PbBrca2 contributes to HR during meiosis. Graphical Abstract

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