Ali Z. Chaudhry scite author profile

The nuclear factor I (NFI) family of site‐specific DNA‐binding proteins is required for both the cell‐type specific transcription of many viral and cellular genes and for the replication of adenovirus DNA. Although binding sites for NFI proteins within the promoters of several tissue‐specific genes have been shown to be essential for their expression, it is unclear which NFI gene products function in specific tissues during development. We have isolated cDNAs from all four murine NFI genes (gene designations Nfia, Nfib, Nfic, and Nfix), assessed the embryonic and postnatal expression patterns of the NFI genes, and determined the ability of specific NFI proteins to activate transcription from the NFI‐dependent mouse mammary tumor virus (MMTV) promoter. In adult mice, all four NFI genes are most highly expressed in lung, liver, heart, and other tissues but only weakly expressed in spleen and testis. The embryonic expression patterns of the NFI genes is complex, with NFI‐A transcripts appearing earliest—within 9 days postcoitum in the heart and developing brain. The four genes exhibit unique but overlapping patterns of expression during embryonic development, with high level expression of NFI‐A, NFI‐B, and NFI‐X transcripts in neocortex and extensive expression of the four genes in muscle, connective tissue, liver, and other organ systems. The four NFI gene products studied differ in their ability to activate expression of the NFI‐dependent MMTV promoter, with the NFI‐B protein being most active and the NFI‐A protein being least active. These data are discussed in the context of the developmental expression patterns of known NFI‐responsive genes. The differential activation of an NFI‐dependent promoter, together with the expression patterns observed for the four genes, indicate that the NFI proteins may play an important role in regulating tissue‐specific gene expression during mammalian embryogenesis. Dev. Dyn. 208:313–325, 1997. © 1997 Wiley‐Liss, Inc.

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Expression patterns of the four nuclear factor I genes during mouse embryogenesis indicate a potential role in development

Chaudhry

1997

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The nuclear factor I (NFI) family of site-specific DNA-binding proteins is required for both the cell-type specific transcription of many viral and cellular genes and for the replication of adenovirus DNA. Although binding sites for NFI proteins within the promoters of several tissue-specific genes have been shown to be essential for their expression, it is unclear which NFI gene products function in specific tissues during development. We have isolated cDNAs from all four murine NFI genes (gene designations Nfia, Nfib, Nfic, and Nfix), assessed the embryonic and postnatal expression patterns of the NFI genes, and determined the ability of specific NFI proteins to activate transcription from the NFI-dependent mouse mammary tumor virus (MMTV) promoter. In adult mice, all four NFI genes are most highly expressed in lung, liver, heart, and other tissues but only weakly expressed in spleen and testis. The embryonic expression patterns of the NFI genes is complex, with NFI-A transcripts appearing earliest-within 9 days postcoitum in the heart and developing brain. The four genes exhibit unique but overlapping patterns of expression during embry-onic development, with high level expression of NFI-A, NFI-B, and NFI-X transcripts in neocortex and extensive expression of the four genes in muscle, connective tissue, liver, and other organ systems. The four NFI gene products studied differ in their ability to activate expression of the NFI-dependent MMTV promoter, with the NFI-B protein being most active and the NFI-A protein being least active. These data are discussed in the context of the developmental expression patterns of known NFI-responsive genes. The differential activation of an NFI-dependent promoter, together with the expression patterns observed for the four genes, indicate that the NFI proteins may play an important role in regulating tissue-specific gene expression during mam-malian embryogenesis. Dev. Dyn. 208:313-325, 1997. r 1997 Wiley-Liss, Inc.

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Nuclear Factor I (NFI) Isoforms Differentially Activate Simple versus Complex NFI-responsive Promoters

Chaudhry¹,

Vitullo²,

Gronostajski³

1998

Journal of Biological Chemistry

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Promoter-specific differences in the function of transcription factors play a central role in the regulation of gene expression. We have measured the maximal transcriptional activation potentials of nuclear factor I (NFI) proteins encoded by each of the four identified NFI genes (NFI-A, -B, -C, and -X) by transient transfection in JEG-3 cells using two model NFI-dependent promoters: 1) a simple chimeric promoter containing a single NFI-binding site upstream of the adenovirus major late promoter (NFI-Ad), and 2) the more complex mouse mammary tumor virus long terminal repeat promoter. The relative activation potentials for the NFI isoforms differed between the two promoters, with NFI-X being the strongest activator of NFI-Ad and NFI-B being the strongest activator of the MMTV promoter. To determine if these promoter-specific differences in activation potential were due to the presence of glucocorticoid response elements (GREs), we added GREs upstream of the NFI-binding site in NFI-Ad. NFI-X remains the strongest activator of the GRE containing simple promoter, indicating that differences in relative activation potential are not due solely to the presence of GREs. Since NFI proteins bind to DNA as dimers, we assessed the activation potentials of NFI heterodimers. Here, we show that NFI heterodimers have intermediate activation potentials compared with homodimers, demonstrating one potential mechanism by which different NFI proteins can regulate gene expression.

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Ali Z. Chaudhry

Expression patterns of the four nuclear factor I genes during mouse embryogenesis indicate a potential role in development

Expression patterns of the four nuclear factor I genes during mouse embryogenesis indicate a potential role in development

Nuclear Factor I (NFI) Isoforms Differentially Activate Simple versus Complex NFI-responsive Promoters

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