Quantification of anti-parasite and anti-disease immunity to malaria as a function of age and exposure

Isabel Rodriguez-Barraquer; Emmanuel Arinaitwe; Prasanna Jagannathan; Moses R. Kamya; Philip J. Rosenthal; John Rek; Grant Dorsey; Joaniter Nankabirwa; Sarah Staedke; Maxwell Kilama; Chris Drakeley; Isaac Ssewanyana; David L. Smith; Bryan Greenhouse

doi:10.7554/elife.35832

Quantification of anti-parasite and anti-disease immunity to malaria as a function of age and exposure

Isabel Rodriguez-Barraquer
, Emmanuel Arinaitwe
, Prasanna Jagannathan
, Moses R. Kamya
, Philip J. Rosenthal
, John Rek
, Grant Dorsey
, Joaniter Nankabirwa
, Sarah Staedke
, Maxwell Kilama
, Chris Drakeley
, Isaac Ssewanyana
, David L. Smith
, Bryan Greenhouse

University of California at San Francisco
Infectious Diseases Research Collaboration
Stanford University
Makerere University
London School of Hygiene and Tropical Medicine
University of Washington

Research output: Contribution to journal › Article › peer-review

102 Citations (Scopus)

Abstract

Fundamental gaps remain in our understanding of how immunity to malaria develops. We used detailed clinical and entomological data from parallel cohort studies conducted across the malaria transmission spectrum in Uganda to quantify the development of immunity against symptomatic P. falciparum as a function of age and transmission intensity. We focus on: anti-parasite immunity (i.e. ability to control parasite densities) and anti-disease immunity (i.e. ability to tolerate higher parasite densities without fever). Our findings suggest a strong effect of age on both types of immunity, not explained by cumulative-exposure. They also show an independent effect of exposure, where children living in moderate/high transmission settings develop immunity faster as transmission increases. Surprisingly, children in the lowest transmission setting appear to develop immunity more efficiently than those living in moderate transmission settings. Anti-parasite and anti-disease immunity develop in parallel, reducing the probability of experiencing symptomatic malaria upon each subsequentP. falciparum infection.

Original language	English
Article number	e35832
Journal	eLife
Volume	7
DOIs	https://doi.org/10.7554/elife.35832
Publication status	Published - 25 Jul 2018
Externally published	Yes

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 3 Good Health and Well-being

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10.7554/elife.35832Licence: CC BY

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Rodriguez-Barraquer, I., Arinaitwe, E., Jagannathan, P., Kamya, M. R., Rosenthal, P. J., Rek, J., Dorsey, G., Nankabirwa, J., Staedke, S., Kilama, M., Drakeley, C., Ssewanyana, I., Smith, D. L., & Greenhouse, B. (2018). Quantification of anti-parasite and anti-disease immunity to malaria as a function of age and exposure. eLife, 7, Article e35832. https://doi.org/10.7554/elife.35832

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title = "Quantification of anti-parasite and anti-disease immunity to malaria as a function of age and exposure",

abstract = "Fundamental gaps remain in our understanding of how immunity to malaria develops. We used detailed clinical and entomological data from parallel cohort studies conducted across the malaria transmission spectrum in Uganda to quantify the development of immunity against symptomatic P. falciparum as a function of age and transmission intensity. We focus on: anti-parasite immunity (i.e. ability to control parasite densities) and anti-disease immunity (i.e. ability to tolerate higher parasite densities without fever). Our findings suggest a strong effect of age on both types of immunity, not explained by cumulative-exposure. They also show an independent effect of exposure, where children living in moderate/high transmission settings develop immunity faster as transmission increases. Surprisingly, children in the lowest transmission setting appear to develop immunity more efficiently than those living in moderate transmission settings. Anti-parasite and anti-disease immunity develop in parallel, reducing the probability of experiencing symptomatic malaria upon each subsequentP. falciparum infection.",

author = "Isabel Rodriguez-Barraquer and Emmanuel Arinaitwe and Prasanna Jagannathan and Kamya, \{Moses R.\} and Rosenthal, \{Philip J.\} and John Rek and Grant Dorsey and Joaniter Nankabirwa and Sarah Staedke and Maxwell Kilama and Chris Drakeley and Isaac Ssewanyana and Smith, \{David L.\} and Bryan Greenhouse",

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T1 - Quantification of anti-parasite and anti-disease immunity to malaria as a function of age and exposure

AU - Rodriguez-Barraquer, Isabel

AU - Arinaitwe, Emmanuel

AU - Jagannathan, Prasanna

AU - Kamya, Moses R.

AU - Rosenthal, Philip J.

AU - Rek, John

AU - Dorsey, Grant

AU - Nankabirwa, Joaniter

AU - Staedke, Sarah

AU - Kilama, Maxwell

AU - Drakeley, Chris

AU - Ssewanyana, Isaac

AU - Smith, David L.

AU - Greenhouse, Bryan

PY - 2018/7/25

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N2 - Fundamental gaps remain in our understanding of how immunity to malaria develops. We used detailed clinical and entomological data from parallel cohort studies conducted across the malaria transmission spectrum in Uganda to quantify the development of immunity against symptomatic P. falciparum as a function of age and transmission intensity. We focus on: anti-parasite immunity (i.e. ability to control parasite densities) and anti-disease immunity (i.e. ability to tolerate higher parasite densities without fever). Our findings suggest a strong effect of age on both types of immunity, not explained by cumulative-exposure. They also show an independent effect of exposure, where children living in moderate/high transmission settings develop immunity faster as transmission increases. Surprisingly, children in the lowest transmission setting appear to develop immunity more efficiently than those living in moderate transmission settings. Anti-parasite and anti-disease immunity develop in parallel, reducing the probability of experiencing symptomatic malaria upon each subsequentP. falciparum infection.

AB - Fundamental gaps remain in our understanding of how immunity to malaria develops. We used detailed clinical and entomological data from parallel cohort studies conducted across the malaria transmission spectrum in Uganda to quantify the development of immunity against symptomatic P. falciparum as a function of age and transmission intensity. We focus on: anti-parasite immunity (i.e. ability to control parasite densities) and anti-disease immunity (i.e. ability to tolerate higher parasite densities without fever). Our findings suggest a strong effect of age on both types of immunity, not explained by cumulative-exposure. They also show an independent effect of exposure, where children living in moderate/high transmission settings develop immunity faster as transmission increases. Surprisingly, children in the lowest transmission setting appear to develop immunity more efficiently than those living in moderate transmission settings. Anti-parasite and anti-disease immunity develop in parallel, reducing the probability of experiencing symptomatic malaria upon each subsequentP. falciparum infection.

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DO - 10.7554/elife.35832

M3 - Article

SN - 2050-084X

VL - 7

JO - eLife

JF - eLife

M1 - e35832

ER -

Quantification of anti-parasite and anti-disease immunity to malaria as a function of age and exposure

Abstract

UN SDGs

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