PLoS ONE (Jan 2020)

Novel malaria antigen Plasmodium yoelii E140 induces antibody-mediated sterile protection in mice against malaria challenge.

  • Emily C Smith,
  • Keith J Limbach,
  • Nonenipha Rangel,
  • Kyosuke Oda,
  • Jessica S Bolton,
  • Mengyan Du,
  • Kalpana Gowda,
  • Jianyang Wang,
  • J Kathleen Moch,
  • Sharvari Sonawane,
  • Rachel Velasco,
  • Arnel Belmonte,
  • Rebecca Danner,
  • Joanne M Lumsden,
  • Noelle B Patterson,
  • Martha Sedegah,
  • Michael R Hollingdale,
  • Thomas L Richie,
  • John B Sacci,
  • Eileen D Villasante,
  • Joao C Aguiar

DOI
https://doi.org/10.1371/journal.pone.0232234
Journal volume & issue
Vol. 15, no. 5
p. e0232234

Abstract

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Only a small fraction of the antigens expressed by malaria parasites have been evaluated as vaccine candidates. A successful malaria subunit vaccine will likely require multiple antigenic targets to achieve broad protection with high protective efficacy. Here we describe protective efficacy of a novel antigen, Plasmodium yoelii (Py) E140 (PyE140), evaluated against P. yoelii challenge of mice. Vaccines targeting PyE140 reproducibly induced up to 100% sterile protection in both inbred and outbred murine challenge models. Although PyE140 immunization induced high frequency and multifunctional CD8+ T cell responses, as well as CD4+ T cell responses, protection was mediated by PyE140 antibodies acting against blood stage parasites. Protection in mice was long-lasting with up to 100% sterile protection at twelve weeks post-immunization and durable high titer anti-PyE140 antibodies. The E140 antigen is expressed in all Plasmodium species, is highly conserved in both P. falciparum lab-adapted strains and endemic circulating parasites, and is thus a promising lead vaccine candidate for future evaluation against human malaria parasite species.