The iron exporter ferroportin 1 is essential for development of the mouse embryo, forebrain patterning and neural tube closure.

Neural tube defects (NTDs) are some of the most common birth defects observed in humans. The incidence of NTDs can be reduced by peri-conceptional folic acid supplementation alone and reduced even further by supplementation with folic acid plus a multivitamin. Here, we present evidence that iron maybe an important nutrient necessary for normal development of the neural tube. Following implantation of the mouse embryo, ferroportin 1 (Fpn1) is essential for the transport of iron from the mother to the fetus and is expressed in the visceral endoderm, yolk sac and placenta. The flatiron (ffe) mutant mouse line harbors a hypomorphic mutation in Fpn1 and we have created an allelic series of Fpn1 mutations that result in graded developmental defects. A null mutation in the Fpn1 gene is embryonic lethal before gastrulation, hypomorphic Fpn1(ffe/ffe) mutants exhibit NTDs consisting of exencephaly, spina bifida and forebrain truncations, while Fpn1(ffe/KI) mutants exhibit even more severe NTDs. We show that Fpn1 is not required in the embryo proper but rather in the extra-embryonic visceral endoderm. Our data indicate that loss of Fpn1 results in abnormal morphogenesis of the anterior visceral endoderm (AVE). Defects in the development of the forebrain in Fpn1 mutants are compounded by defects in multiple signaling centers required for maintenance of the forebrain, including the anterior definitive endoderm (ADE), anterior mesendoderm (AME) and anterior neural ridge (ANR). Finally, we demonstrate that this loss of forebrain maintenance is due in part to the iron deficiency that results from the absence of fully functional Fpn1.