Anemia Offers Stronger Protection Than Sickle Cell Trait Against the Erythrocytic Stage of Falciparum Malaria and This Protection Is Reversed by Iron Supplementation

Goheen, Morgan M.; Wegmüller, Rita; Bah, Amadou; Darboe, Bakary; Danso, Ebrima; Affara, Muna; Gardner, Dave; Patel, Jaymin C.; Prentice, Andrew M.; Cerami, Anthony

doi:10.1016/j.ebiom.2016.11.011

Cited by 54 publications

(64 citation statements)

References 27 publications

(39 reference statements)

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Section: Safety Of Antenatal Iron Interventions In Malaria‐endemic Sementioning

confidence: 88%

“…The same group has recently shown this to be true in Gambian children and that it applies both to laboratory and local clinical strains of P. falciparum (Goheen et al , 2016). They have further shown that young erythrocytes are more susceptible to invasion and propagation by P. falciparum merozoites than mature erythrocytes (Clark et al , 2014a,b; Goheen et al , 2016). Seven weeks of iron supplementation completely abrogated the protection offered by iron deficiency anaemia in both Gambian children (Goheen et al , 2016) and pregnant Gambian women (Drs Goheen, Bah & Cerami, MRC Unit The Gambia, Banjul, The Gambia, personal communication).…”

Section: Safety Of Antenatal Iron Interventions In Malaria‐endemic Sementioning

confidence: 88%

“…They have further shown that young erythrocytes are more susceptible to invasion and propagation by P. falciparum merozoites than mature erythrocytes (Clark et al , 2014a,b; Goheen et al , 2016). Seven weeks of iron supplementation completely abrogated the protection offered by iron deficiency anaemia in both Gambian children (Goheen et al , 2016) and pregnant Gambian women (Drs Goheen, Bah & Cerami, MRC Unit The Gambia, Banjul, The Gambia, personal communication). These results indicate that the increased erythropoiesis and thus, the greater availability of young erythrocytes in response to iron supplementation leads to a transient increase in P. falciparum malaria risk in iron‐deficient individuals but not in their iron‐replete peers.…”

Section: Safety Of Antenatal Iron Interventions In Malaria‐endemic Sementioning

confidence: 99%

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Safety and benefits of antenatal oral iron supplementation in low‐income countries: a review

2017

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SummaryThe World Health Organization recommends universal iron supplementation of 30–60 mg/day in pregnancy but coverage is low in most countries. Its efficacy is uncertain, however, and there has been a vigorous debate in the last decade about its safety, particularly in areas with a high burden of malaria and other infectious diseases. We reviewed the evidence on the safety and efficacy of antenatal iron supplementation in low‐income countries. We found no evidence that daily supplementation at a dose of 60 mg leads to increased maternal Plasmodium infection risk. On the other hand, recent meta‐analyses found that antenatal iron supplementation provides benefits for maternal health (severe anaemia at postpartum, blood transfusion). For neonates, there was a reduced prematurity risk, and only a small or no effect on birth weight. A recent trial showed, however, that benefits of antenatal iron supplementation on maternal and neonatal health vary by maternal iron status, with substantial benefits in iron‐deficient women. The benefits of universal iron supplementation are likely to vary with the prevalence of iron deficiency. As a consequence, the balance between benefits and risks is probably more favourable in low‐income countries than in high‐income countries despite the higher exposure to infectious pathogens.

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Section: Safety Of Antenatal Iron Interventions In Malaria‐endemic Sementioning

confidence: 88%

Section: Safety Of Antenatal Iron Interventions In Malaria‐endemic Sementioning

confidence: 88%

Section: Safety Of Antenatal Iron Interventions In Malaria‐endemic Sementioning

confidence: 99%

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Safety and benefits of antenatal oral iron supplementation in low‐income countries: a review

2017

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“…This has been driven by the hazardous nature of iron; both in causing oxidative damage and in promoting the growth of microorganisms. There is clear evidence that a moderate degree of iron deficiency anemia is highly protective against malaria [28] and likely protective against a range of bacterial and fungal pathogens [23] and possibly viruses [41] . This has resulted in the evolution of exquisite systems for chaperoning iron and regulating its intake and organ distribution.…”

Section: Conclusion: Implications Of the New Molecular Insightsmentioning

confidence: 99%

“…Hepcidin-induced hypoferremia in circulating plasma protects against the acute threat of bacterial and yeast sepsis. Prolonged upregulation of hepcidin leads to the anemia of inflammation or of chronic infection [27] , which in turn protects against the blood stage of malarial infection [28] . Similarly, hypoferremia in hepatocytes protects against the hepatic stages of malaria infection [29] .…”

Section: Competing Control Of Iron By Iron Needs and Infection/inflammentioning

confidence: 99%

Clinical Implications of New Insights into Hepcidin-Mediated Regulation of Iron Absorption and Metabolism

Prentice¹

2017

Ann Nutr Metab

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The fact that humans must balance their need for iron against its potential for causing harm has been known for several centuries, but the molecular mechanisms by which we achieve this feat have only been revealed in the last 2 decades. Chief amongst these is the discovery of the master-regulatory liver-derived hormone hepcidin. By switching off ferroportin in enterocytes and macrophages, hepcidin exerts fine control over both iron absorption and its distribution among tissues. Hepcidin expression is downregulated by low iron status and active erythropoiesis and upregulated by iron overload and infection and/or inflammation. The latter mechanism explains the etiology of the anemia of chronic infection. Pharmaceutical companies are actively developing hepcidin agonists and antagonists to combat iron overload and anemia, respectively. In a global health context the discovery of hepcidin shines a new light on the world's most prevalent micronutrient problem; iron deficiency and its consequent anemia. It is now apparent that humans are not poorly designed to absorb dietary iron, but rather are exerting a tonic downregulation of iron absorption to protect themselves against infection. These new insights suggest that interventions to reduce infections and inflammation will be at least as effective as dietary interventions and that the latter will not succeed without the former.

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Nutritional Frameworks in Malaria

Kim

Goheen

Bei

2020

Nutrition and Infectious Diseases

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Anemia Offers Stronger Protection Than Sickle Cell Trait Against the Erythrocytic Stage of Falciparum Malaria and This Protection Is Reversed by Iron Supplementation

Cited by 54 publications

References 27 publications

Safety and benefits of antenatal oral iron supplementation in low‐income countries: a review

Safety and benefits of antenatal oral iron supplementation in low‐income countries: a review

Clinical Implications of New Insights into Hepcidin-Mediated Regulation of Iron Absorption and Metabolism

Nutritional Frameworks in Malaria

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