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A defined mechanistic correlate of protection against Plasmodium falciparum malaria in non-human primates

Author

Listed:
  • Alexander D. Douglas

    (Old Road Campus Research Building)

  • G. Christian Baldeviano

    (US Naval Medical Research Unit No. 6 (NAMRU-6))

  • Jing Jin

    (Old Road Campus Research Building)

  • Kazutoyo Miura

    (Laboratory of Malaria and Vector Research, NIAID/NIH)

  • Ababacar Diouf

    (Laboratory of Malaria and Vector Research, NIAID/NIH)

  • Zenon A. Zenonos

    (Wellcome Trust Sanger Institute)

  • Julio A. Ventocilla

    (US Naval Medical Research Unit No. 6 (NAMRU-6))

  • Sarah E. Silk

    (Old Road Campus Research Building)

  • Jennifer M. Marshall

    (Old Road Campus Research Building)

  • Daniel G. W. Alanine

    (Old Road Campus Research Building)

  • Chuan Wang

    (Old Road Campus Research Building)

  • Nick J. Edwards

    (Old Road Campus Research Building)

  • Karina P. Leiva

    (US Naval Medical Research Unit No. 6 (NAMRU-6))

  • Luis A. Gomez-Puerta

    (US Naval Medical Research Unit No. 6 (NAMRU-6))

  • Carmen M. Lucas

    (US Naval Medical Research Unit No. 6 (NAMRU-6))

  • Gavin J. Wright

    (Wellcome Trust Sanger Institute)

  • Carole A. Long

    (Laboratory of Malaria and Vector Research, NIAID/NIH)

  • Joseph M. Royal

    (US Naval Medical Research Unit No. 6 (NAMRU-6))

  • Simon J. Draper

    (Old Road Campus Research Building)

Abstract

Malaria vaccine design and prioritization has been hindered by the lack of a mechanistic correlate of protection. We previously demonstrated a strong association between protection and merozoite-neutralizing antibody responses following vaccination of non-human primates against Plasmodium falciparum reticulocyte binding protein homolog 5 (PfRH5). Here, we test the mechanism of protection. Using mutant human IgG1 Fc regions engineered not to engage complement or FcR-dependent effector mechanisms, we produce merozoite-neutralizing and non-neutralizing anti-PfRH5 chimeric monoclonal antibodies (mAbs) and perform a passive transfer-P. falciparum challenge study in Aotus nancymaae monkeys. At the highest dose tested, 6/6 animals given the neutralizing PfRH5-binding mAb c2AC7 survive the challenge without treatment, compared to 0/6 animals given non-neutralizing PfRH5-binding mAb c4BA7 and 0/6 animals given an isotype control mAb. Our results address the controversy regarding whether merozoite-neutralizing antibody can cause protection against P. falciparum blood-stage infections, and highlight the quantitative challenge of achieving such protection.

Suggested Citation

  • Alexander D. Douglas & G. Christian Baldeviano & Jing Jin & Kazutoyo Miura & Ababacar Diouf & Zenon A. Zenonos & Julio A. Ventocilla & Sarah E. Silk & Jennifer M. Marshall & Daniel G. W. Alanine & Chu, 2019. "A defined mechanistic correlate of protection against Plasmodium falciparum malaria in non-human primates," Nature Communications, Nature, vol. 10(1), pages 1-8, December.
    • Handle: RePEc:nat:natcom:v:10:y:2019:i:1:d:10.1038_s41467-019-09894-4
    DOI: 10.1038/s41467-019-09894-4
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