Abstract
The in utero environment profoundly impacts childhood neurodevelopment and behaviour. A substantial proportion of pregnancies in Africa are at risk of malaria in pregnancy (MIP) however the impact of in utero exposure to MIP on fetal neurodevelopment is unknown. Complement activation, in particular C5a, may contribute to neuropathology and adverse outcomes during MIP. We used an experimental model of MIP and standardized neurocognitive testing, MRI, micro-CT and HPLC analysis of neurotransmitter levels, to test the hypothesis that in utero exposure to malaria alters neurodevelopment through a C5a-C5aR dependent pathway. We show that malaria-exposed offspring have persistent neurocognitive deficits in memory and affective-like behaviour compared to unexposed controls. These deficits were associated with reduced regional brain levels of major biogenic amines and BDNF that were rescued by disruption of C5a-C5aR signaling using genetic and functional approaches. Our results demonstrate that experimental MIP induces neurocognitive deficits in offspring and suggest novel targets for intervention.
Publication types
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Research Support, Non-U.S. Gov't
MeSH terms
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Animals
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Biogenic Amines / metabolism
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Brain / blood supply
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Brain / immunology
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Brain / metabolism
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Brain / pathology
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Brain-Derived Neurotrophic Factor / metabolism
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Cerebrovascular Circulation
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Complement C5a / metabolism*
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Down-Regulation
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Female
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Fetal Development
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Host-Parasite Interactions*
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Malaria / immunology
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Malaria / metabolism
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Malaria / parasitology
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Malaria / physiopathology*
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Male
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Mice, Inbred BALB C
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Mice, Knockout
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Neurocognitive Disorders / etiology*
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Neurocognitive Disorders / immunology
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Neurocognitive Disorders / metabolism
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Neurocognitive Disorders / pathology
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Neurogenesis*
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Neurons / immunology
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Neurons / metabolism
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Neurons / pathology
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Plasmodium berghei / immunology
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Plasmodium berghei / physiology
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Pregnancy
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Pregnancy Complications, Parasitic / immunology
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Pregnancy Complications, Parasitic / metabolism
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Pregnancy Complications, Parasitic / parasitology
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Pregnancy Complications, Parasitic / physiopathology*
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Receptor, Anaphylatoxin C5a / genetics
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Receptor, Anaphylatoxin C5a / metabolism*
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Signal Transduction
Substances
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Biogenic Amines
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Brain-Derived Neurotrophic Factor
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C5ar1 protein, mouse
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Receptor, Anaphylatoxin C5a
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Complement C5a