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Broadly reactive antibodies specific for Plasmodium falciparum MSP-119 are associated with the protection of naturally exposed children against infection
Quantitative Health Sciences Publications and Presentations
  • Arlene E. Dent, Case Western Reserve University
  • Ann M. Moormann, University of Massachusetts Medical School
  • Christopher T. Yohn, Case Western Reserve University
  • Rhonda J. Kimmel, Case Western Reserve University
  • Peter Odada Sumba, Kenya Medical Research Institute
  • John Vulule, Kenya Medical Research Institute
  • Carole A. Long, National Institutes of Health
  • David L. Narum, National Institutes of Health
  • Brendan S. Crabb, Burnet Institute of Medical Research
  • James W. Kazura, Case Western Reserve University
  • Daniel J. Tisch, Case Western Reserve University
UMMS Affiliation
Department of Quantitative Health Sciences; Department of Pediatrics
Publication Date
Document Type
Malaria, Falciparum; Merozoite Surface Protein 1; Antigens, Protozoan

BACKGROUND: The 19 kDa C-terminal region of Plasmodium falciparum Merozoite Surface Protein-1 is a known target of naturally acquired humoral immunity and a malaria vaccine candidate. MSP- 119 has four predominant haplotypes resulting in amino acid changes labelled EKNG, QKNG, QTSR and ETSR. IgG antibodies directed against all four variants have been detected, but it is not known if these variant specific antibodies are associated with haplotype-specific protection from infection.

METHODS: Blood samples from 201 healthy Kenyan adults and children who participated in a 12-week treatment time-to-infection study were evaluated. Venous blood drawn at baseline (week 0) was examined for functional and serologic antibodies to MSP-119 and MSP-142 variants. MSP-119 haplotypes were detected by a multiplex PCR assay at baseline and weekly throughout the study. Generalized linear models controlling for age, baseline MSP-119 haplotype and parasite density were used to determine the relationship between infecting P. falciparum MSP-119 haplotype and variant-specific antibodies.

RESULTS: A total of 964 infections resulting in 1,533 MSP-119 haplotypes detected were examined. The most common haplotypes were EKNG and QKNG, followed by ETSR and QTSR. Children had higher parasite densities, greater complexity of infection (>1 haplotype), and more frequent changes in haplotypes over time compared to adults. Infecting MSP-119 haplotype at baseline (week 0) had no influence on haplotypes detected over the subsequent 11 weeks among children or adults. Children but not adults with MSP-119 and some MSP-142 variant antibodies detected by serology at baseline had delayed time-to-infection. There was no significant association of variant-specific serology or functional antibodies at baseline with infecting haplotype at baseline or during 11 weeks of follow up among children or adults.

CONCLUSIONS: Variant transcending IgG antibodies to MSP-119 are associated with protection from infection in children, but not adults. These data suggest that inclusion of more than one MSP-119 variant may not be required in a malaria blood stage vaccine.

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This is an Open Access article distributed under the terms of the Creative Commons Attribution License (, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

DOI of Published Version
Malar J. 2012 Aug 21;11(1):287. Link to article on publisher's site
PubMed ID
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Citation Information
Arlene E. Dent, Ann M. Moormann, Christopher T. Yohn, Rhonda J. Kimmel, et al.. "Broadly reactive antibodies specific for Plasmodium falciparum MSP-119 are associated with the protection of naturally exposed children against infection" Vol. 11 Iss. 1 (2012) ISSN: 1475-2875 (Linking)
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