The phylogenetically conserved nuclear factor I (NFI) gene family encodes site-specific transcription factors essential for the development of a number of organ systems. We showed previously that Nfia-deficient mice exhibit agenesis of the corpus callosum and other forebrain defects, whereas Nfic-deficient mice have agenesis of molar tooth roots and severe incisor defects. Here we show that Nfib-deficient mice possess unique defects in lung maturation and exhibit callosal agenesis and forebrain defects that are similar to, but more severe than, those seen in Nfia-deficient animals. In addition, loss of Nfib results in defects in basilar pons formation and hippocampus development that are not seen in Nfia-deficient mice. Heterozygous Nfib-deficient animals also exhibit callosal agenesis and delayed lung maturation, indicating haploinsufficiency at the Nfib locus. The similarity in brain defects in Nfia-and Nfib-deficient animals suggests that these two genes may cooperate in late fetal forebrain development, while Nfib is essential for late fetal lung maturation and development of the pons.Nuclear factor I (NFI) transcription and replication proteins function both in adenoviral DNA replication (12,43,44) and in the regulation of transcription throughout development (21). There are four NFI genes in mammals (Nfia, Nfib, Nfic, and Nfix) and single NFI genes in Drosophila melanogaster, Caenorhabditis elegans, Anopheles spp., and other simple animals (21,30,50). No NFI genes have been found in plants, bacteria, or single-cell eukaryotes. In mammals, NFI proteins function as homo-or heterodimers and are expressed in complex, overlapping patterns during embryogenesis (6, 31). NFI proteins bind to a dyad-symmetric binding site (TTGGCN 5 GCCAA) with high affinity (20,40), and NFI proteins have been shown to either activate or repress gene expression depending on the promoter and cellular context (21, 42). The presence of four NFI genes in mammals with possibly overlapping functions makes it a challenge to identify in vivo targets of individual NFI proteins and the roles of NFI genes in development.We showed previously that disruption of Nfia causes late gestation neuroanatomical defects, including agenesis of the corpus callosum, size reductions in other forebrain commissures, and loss of specific midline glial populations (11, 56). In contrast, disruption of Nfic results in early postnatal defects in tooth formation, including the loss of molar roots and aberrant incisor development (61). In a previous study, insertion of a lacZ reporter gene into the Nfib locus resulted in defects in lung maturation but no apparent defects in brain development (22). Here we report the replacement of the essential exon 2 of the Nfib gene with a lacZ reporter gene and show that mice homozygous for our replacement mutation have major neuroanatomical defects similar to, but more severe than, those of Nfia Ϫ/Ϫ mice. These defects include callosal agenesis, aberrant hippocampus and pons formation, and loss of specific midline glial populatio...
