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Study: Complete attenuation of genetically engineered Plasmodium falciparum sporozoites in human subjects

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  • Study: Complete attenuation of genetically engineered Plasmodium falciparum sporozoites in human subjects

    Source: http://stm.sciencemag.org/content/9/371/eaad9099


    Complete attenuation of genetically engineered Plasmodium falciparum sporozoites in human subjects

    James G. Kublin1,2,3,*,?, Sebastian A. Mikolajczak1,*, Brandon K. Sack1, Matt E. Fishbaugher1, Annette Seilie4, Lisa Shelton1, Tracie VonGoedert1, Melike Firat1, Sara Magee1, Emma Fritzen1, Will Betz1, Heather S. Kain1, Dorender A. Dankwa1, Ryan W. J. Steel1, Ashley M. Vaughan1, D. Noah Sather1, Sean C. Murphy1,4,5 and Stefan H. I. Kappe1,2,?

    + Author Affiliations

    ↵?Corresponding author. Email: stefan.kappe@cidresearch.org (S.H.I.K.); jkublin@fredhutch.org (J.G.K.)

    ↵* These authors contributed equally to this work.

    Science Translational Medicine 04 Jan 2017:
    Vol. 9, Issue 371,
    DOI: 10.1126/scitranslmed.aad9099

    A triple punch knocks out the malaria parasite

    Vaccination with weakened infectious forms of the malaria parasite is the most promising approach to protect against malaria infection. However, creating genetically defined and weakened parasite strains that are safe for vaccination remains challenging. In a new study, Kublin et al. show that genetic engineering of the malaria parasite by the precise removal of three genes creates a parasite strain that infects humans and is well tolerated but cannot cause malaria. These genetically attenuated parasites thus appear safe for vaccination and stimulate the human immune system to generate responses that have the potential to block infection.

    Abstract

    Immunization of humans with whole sporozoites confers complete, sterilizing immunity against malaria infection. However, achieving consistent safety while maintaining immunogenicity of whole parasite vaccines remains a formidable challenge. We generated a genetically attenuated Plasmodium falciparum (Pf) malaria parasite by deleting three genes expressed in the pre-erythrocytic stage (Pf p52−/p36−/sap1−). We then tested the safety and immunogenicity of the genetically engineered (Pf GAP3KO) sporozoites in human volunteers. Pf GAP3KO sporozoites were delivered to 10 volunteers using infected mosquito bites with a single exposure consisting of 150 to 200 bites per subject. All subjects remained blood stage?negative and developed inhibitory antibodies to sporozoites. GAP3KO rodent malaria parasites engendered complete, protracted immunity against infectious sporozoite challenge in mice. The results warrant further clinical testing of Pf GAP3KO and its potential development into a vaccine strain.
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