Iron & the brain: Where and when neurodevelopmental disabilities may begin during pregnancy
Monday, March 6, 2023
Study finds possible cellular origin for impairments associated with gestational iron deficiency
The cells that make up the human brain begin developing long before the physical shape of the brain has formed. This early organizing of a network of cells plays a major role in brain health throughout the course of a lifetime. Numerous studies have found that mothers with low iron levels during pregnancy have a higher risk of giving birth to a child that develops cognitive impairments like autism, attention deficit syndrome, and learning disabilities. However, iron deficiency is still prevalent in pregnant mothers and young children.
The mechanisms by which gestational iron deficiency (GID) contributes to cognitive impairment are not fully understood. The laboratory of Margot Mayer- Proschel, PhD, a professor of Biomedical Genetics and Neuroscience at the University of Rochester Medical Center, was the first to demonstrated that the brains of animals born to iron-deficient mice react abnormally to excitatory brain stimuli, and that iron supplements giving at birth does not restore functional impairment that appears later in life. Most recently, her lab has made a significant progress in the quest to find the cellular origin of the impairment and have identified a new embryonic neuronal progenitor cell target for GID. This study was recently published in the journal Development.
“We are very excited by this finding,” Mayer-Proschel said, who was awarded a $2 million grant from the National Institute of Child Health & Human Development in 2018 to do this work. “This could connect gestational iron deficiency to these very complex disorders. Understanding that connection could lead to changes to healthcare recommendations and potential targets for future therapies.”
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