Norihisa Ooe scite author profile

Sim2, a basic helix-loop-helix (bHLH)-PAS transcriptional repressor, is thought to be involved in some symptoms of Down's syndrome. In the course of searching for hypothetical Sim2 relatives, we isolated another bHLH-PAS factor, NXF. NXF was a novel gene and was selectively expressed in neuronal tissues. While no striking homolog of NXF was found in vertebrates, a Caenorhabditis elegans putative transcription factor, C15C8.2, showed similarity in the bHLH-PAS domain. NXF had an activation domain as a transcription activator, and Arnt-type bHLH-PAS subfamily members were identified as the heterodimer partners of NXF. The NXF/Arnt heterodimer was capable of binding and activating a subset of Sim2/Arnt target DNA variants, and Sim2 could compete with the NXF activity on the elements. We showed that Drebrin had several such NXF/Arnt binding elements on the promoter, which could be direct or indirect cross talking points between NXF (activation) and Sim2 (repression) action. Drebrin has been reported to be engaged in dendriticcytoskeleton modulation at synapses, and such a novel NXF signaling system on neural gene promoter may be a molecular target of the adverse effects of Sim2 in the mental retardation of Down's syndrome.

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Functional Characterization of Basic Helix-Loop-Helix-PAS Type Transcription Factor NXF in Vivo

Ooe

Motonaga

Kobayashi

et al. 2009

Journal of Biological Chemistry

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NXF, a member of the basic helix-loop-helix-PAS transcription factor family, is thought to be involved in functional regulation of neurons, because significant expression is found in the mature brain. To elucidate functions of NXF in vivo, here we generated mice lacking NXF using homologous recombination with embryonic stem cells. NXF(-/-) mice were morphologically indistinguishable (with no growth retardation) from their littermates (wild type) at birth. However, they started to die at a rate of 1 death/20-30 animals per week under specific pathogen-free grade breeding conditions when over 3 months old. Histological analyses revealed age-dependent neurodegeneration in brain, and only 20-30% of the NXF(-/-) mice survived for 16 months. To clarify the role of NXF in protection against neurodegeneration in normal cells, we analyzed gene expression under several conditions in vitro and in vivo. The NXF gene was up-regulated by several neurodegenerative cell-stress inducers such as thapsigargin (endoplasmic reticulum stress), SIN-1 (oxidative stress), and sorbitol (osmotic stress) in cultured cells. Furthermore, elevated NXF gene expression was apparent with in vivo stroke models featuring kainate-induced hippocampal injury and transient global ischemia. When NXF(-/-) mice were evaluated in the glutamate excitotoxicity model, they proved more susceptible to hippocampal injury at 15 weeks after birth. The findings in this study suggest that the NXF gene could be induced in response to several neurodegenerative stimuli/excitations for the cell protection, and thus provide an "on demand" cell-protection system in nervous tissue.

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Characterization of functional heterodimer partners in brain for a bHLH-PAS factor NXF

Ooe

Saito

Kaneko

2009

Biochimica et Biophysica Acta (BBA) - Gene Regulatory Mechanism

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An in Vitro Reporter Gene Assay Method Incorporating Metabolic Activation with Human and Rat S9 or Liver Microsomes

Sumida

Ooe

Nagahori

et al. 2001

Biochemical and Biophysical Research Communications

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Limited species differences in estrogen receptor alpha-medicated reporter gene transactivation by xenoestrogens

Sumida

Ooe

Saito

et al. 2003

The Journal of Steroid Biochemistry and Molecular Biology

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Norihisa Ooe

Identification of a Novel Basic Helix-Loop-Helix–PAS Factor, NXF, Reveals a Sim2 Competitive, Positive Regulatory Role in Dendritic-Cytoskeleton Modulator Drebrin Gene Expression

Functional Characterization of Basic Helix-Loop-Helix-PAS Type Transcription Factor NXF in Vivo

Characterization of functional heterodimer partners in brain for a bHLH-PAS factor NXF

An in Vitro Reporter Gene Assay Method Incorporating Metabolic Activation with Human and Rat S9 or Liver Microsomes

Limited species differences in estrogen receptor alpha-medicated reporter gene transactivation by xenoestrogens

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