Albert Gründer scite author profile

The transcription factor family of nuclear factor I (NFI) proteins is encoded by four closely related genes: Nfia, Nfib, Nfic, and Nfix. A potential role for NFI proteins in regulating developmental processes has been implicated by their specific expression pattern during embryonic development and by analysis of NFI-deficient mice. It was shown that loss of NFIA results in hydrocephalus and agenesis of the corpus callosum and that NFIB deficiency leads to neurological defects and to severe lung hypoplasia, whereas Nfic knockout mice exhibit specific tooth defects. Here we report the knockout analysis of the fourth and last member of this gene family, Nfix. Loss of NFIX is postnatally lethal and leads to hydrocephalus and to a partial agenesis of the corpus callosum. Furthermore, NFIX-deficient mice develop a deformation of the spine, which is due to a delay in ossification of vertebral bodies and a progressive degeneration of intervertebral disks. Impaired endochondral ossification and decreased mineralization were also observed in femoral sections of Nfix ؊/؊ mice. Consistent with the defects in bone ossification we could show that the expression level of tetranectin, a plasminogenbinding protein involved in mineralization, is specifically downregulated in bones of NFIX-deficient mice.

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Nuclear factor I-B (Nfib) deficient mice have severe lung hypoplasia

Gründer

Ebel

Mallo

et al. 2002

Mechanisms of Development

100

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Binding sites for transcription factor nuclear factor one (NFI) proteins, encoded by four genes in the mouse, have been characterized from many tissue-specific genes. NFI genes are expressed in unique but overlapping patterns in embryonic and in adult tissues. Nfib is highly expressed in the embryonic lung. Here we show that Nfib null mutants die early postnatally and display severe lung hypoplasia. Heterozygotes do survive, but exhibit delayed pulmonary differentiation. Expression of transforming growth factor beta 1 (TGF-beta1) and sonic hedgehog (Shh) is not down-regulated in mutant lung epithelium at late stages of morphogenesis, which may result in incomplete lung maturation. Our study demonstrates that Nfib is essential for normal lung development, and suggests that it could be involved in the pathogenesis of respiratory distress syndromes in humans.

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A novel murine model of myeloproliferative disorders generated by overexpression of the transcription factor NF-E2

Kaufmann

Gründer

Hadlich

et al. 2012

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Albert Gründer

Nuclear Factor I X Deficiency Causes Brain Malformation and Severe Skeletal Defects

Nuclear factor I-B (Nfib) deficient mice have severe lung hypoplasia

A novel murine model of myeloproliferative disorders generated by overexpression of the transcription factor NF-E2

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