Iron function and dysfunction in the brain: A pediatric neurologist's perspective

Carl E. Stafstrom

doi:10.1055/s-0036-1586390

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Journal of Pediatric Biochemistry 2012; 02(01): 003-014
DOI: 10.1055/s-0036-1586390

Review Article

Georg Thieme Verlag KG Stuttgart – New York

Iron function and dysfunction in the brain: A pediatric neurologist's perspective

Carl E. Stafstrom

^aDepartments of Neurology and Pediatrics, School of Medicine and Public Health University of Wisconsin, Madison, WI USA

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Publication History

27 December 2010

13 May 2011

Publication Date:
01 August 2016 (online)

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Abstract

Iron plays a critical role in brain development and physiology, cytoplasmic protein function, and mitochondrial reactions. Brain iron levels are regulated tightly, and pathologies can result from both iron deficiency (learning and memory deficits, neuronal and dendritic developmental alterations, impaired myelin function, and abnormal neurotransmitter regulation) and iron overload (free radical production and oxidative stress, as proposed for Parkinson and Alzheimer diseases as well as rare genetic disorders of iron accumulation). This review briefly summarizes the roles of iron in normal and abnormal brain function, with emphasis on the developing brain, and describes some disorders deriving from deficient or excessive iron levels.

Keywords

Iron - brain - iron deficiency - transferrin - ferritin - aceruloplasminemia