Kyoko Ota scite author profile

Cellular senescence is one of the key strategies to suppress expansion of cells with mutations. Senescence is induced in response to genotoxic and oxidative stress. Here we show that the transcription factor Bach1 (BTB and CNC homology 1, basic leucine zipper transcription factor 1), which inhibits oxidative stress-inducible genes, is a crucial negative regulator of oxidative stress-induced cellular senescence. Bach1-deficient murine embryonic fibroblasts showed a propensity to undergo more rapid and profound p53-dependent premature senescence than control wild-type cells in response to oxidative stress. Bach1 formed a complex that contained p53, histone deacetylase 1 and nuclear co-repressor N-coR. Bach1 was recruited to a subset of p53 target genes and contributed to impeding p53 action by promoting histone deacetylation. Because Bach1 is regulated by oxidative stress and heme, our data show that Bach1 connects oxygen metabolism and cellular senescence as a negative regulator of p53.

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Sarcopenia in Resected NSCLC: Effect on Postoperative Outcomes

Nakamura

Inage

Tobita

et al. 2018

Journal of Thoracic Oncology

115

105

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Potential Involvement of IL-17F in Asthma

Ota

Kawaguchi

Matsukura

et al. 2014

Journal of Immunology Research

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The expression of IL-17F is seen in the airway of asthmatics and its level is correlated with disease severity. Several studies have demonstrated that IL-17F plays a pivotal role in allergic airway inflammation and induces several asthma-related molecules such as CCL20. IL-17F-induced CCL20 may attract Th17 cells into the airway resulting in the recruitment of additional Th17 cells to enhance allergic airway inflammation. We have recently identified, for the first time, that bronchial epithelial cells are its novel cell source in response to IL-33 via ST2-ERK1/2-MSK1 signaling pathway. The receptor for IL-17F is the heterodimeric complex of IL-17RA and IL-17RC, and IL-17F activates many signaling pathways. In a case-control study of 867 unrelated Japanese subjects, a His161 to Arg161 (H161R) substitution in the third exon of the IL-17F gene was associated with asthma. In atopic patients with asthma, prebronchodilator baseline FEV1/FVC values showed a significant association with the H161R variant. Moreover, this variant is a natural antagonist for the wild-type IL-17F. Moreover, IL-17F is involved in airway remodeling and steroid resistance. Hence, IL-17F may play an orchestrating role in the pathogenesis of asthma and may provide a valuable therapeutic target for development of novel strategies.

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Peroxisome Proliferator-Activated Receptor γ and Growth Inhibition by Its Ligands in Uterine Endometrial Carcinoma

Ota

Itō²,

Suzuki³

et al. 2006

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Interleukin‐33 induces interleukin‐17F in bronchial epithelial cells

Fujita

Kawaguchi

Kokubu

et al. 2012

Allergy

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Kyoko Ota

Bach1 inhibits oxidative stress–induced cellular senescence by impeding p53 function on chromatin

Sarcopenia in Resected NSCLC: Effect on Postoperative Outcomes

Potential Involvement of IL-17F in Asthma

Peroxisome Proliferator-Activated Receptor γ and Growth Inhibition by Its Ligands in Uterine Endometrial Carcinoma

Interleukin‐33 induces interleukin‐17F in bronchial epithelial cells

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