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Your search keyword '"Ichiro Takada"' showing total 5 results
Start Over Author "Ichiro Takada" Journal nature cell biology
5 results on '"Ichiro Takada"'

1. A histone lysine methyltransferase activated by non-canonical Wnt signalling suppresses PPAR-γ transactivation

Author

Yasuhiro Minami, Shinichiro Takezawa, Shinji Takada, Fumiaki Ohtake, Mamoru Igarashi, Ken-ichi Takeyama, Min Young Youn, Gen Yamada, Takashi Nakamura, Shigeaki Kato, Hirochika Kitagawa, Yoshiko Yogiashi, Yoshihiro Mezaki, Kobayashi Shinji, Miyuki Suzawa, Hiroshi Shibuya, Ichiro Takada, Masatomo Mihara, and Kunihiro Matsumoto

Subjects
Transcriptional Activation, Genetic Vectors, Down-Regulation, Core Binding Factor Alpha 1 Subunit, Mice, Transgenic, Wnt-5a Protein, Mice, Transactivation, Osteogenesis, Transcriptional regulation, Animals, Phosphorylation, Cells, Cultured, Adipogenesis, biology, Wnt signaling pathway, Histone-Lysine N-Methyltransferase, Cell Biology, Chromatin, Cell biology, PPAR gamma, Wnt Proteins, RUNX2, Histone, Histone methyltransferase, Mutation, biology.protein, Cancer research, Plasmids, Signal Transduction
Abstract

Histone modifications induced by activated signalling cascades are crucial to cell-lineage decisions. Osteoblast and adipocyte differentiation from common mesenchymal stem cells is under transcriptional control by numerous factors. Although PPAR-gamma (peroxisome proliferator activated receptor-gamma) has been established as a prime inducer of adipogenesis, cellular signalling factors that determine cell lineage in bone marrow remain generally unknown. Here, we show that the non-canonical Wnt pathway through CaMKII-TAK1-TAB2-NLK transcriptionally represses PPAR-gamma transactivation and induces Runx2 expression, promoting osteoblastogenesis in preference to adipogenesis in bone marrow mesenchymal progenitors. Wnt-5a activates NLK (Nemo-like kinase), which in turn phosphorylates a histone methyltransferase, SETDB1 (SET domain bifurcated 1), leading to the formation of a co-repressor complex that inactivates PPAR-gamma function through histone H3-K9 methylation. These findings suggest that the non-canonical Wnt signalling pathway suppresses PPAR-gamma function through chromatin inactivation triggered by recruitment of a repressing histone methyltransferase, thus leading to an osteoblastic cell lineage from mesenchymal stem cells.

Published
2007

2. Cytokines suppress adipogenesis and PPAR-γ function through the TAK1/TAB1/NIK cascade

Author

Satoko Ogawa, Yukiko Gotoh, Yasuhiro Takeuchi, Kunihiro Matsumoto, Miyuki Suzawa, Takashi Kadowaki, Hiroshi Shibuya, Shigeaki Kato, Junn Yanagisawa, Toshimasa Yamauchi, Ichiro Takada, and Fumiaki Ohtake

Subjects
Recombinant Fusion Proteins, Cellular differentiation, medicine.medical_treatment, Blotting, Western, Receptors, Cytoplasmic and Nuclear, Electrophoretic Mobility Shift Assay, HIV Envelope Protein gp120, Protein Serine-Threonine Kinases, Biology, Cell Line, Mice, Troglitazone, Transactivation, Adipocytes, medicine, Animals, Chromans, Adaptor Proteins, Signal Transducing, Growth factor, Mesenchymal stem cell, Cell Biology, Blotting, Northern, MAP Kinase Kinase Kinases, Precipitin Tests, Cell biology, Thiazoles, medicine.anatomical_structure, Cytokine, Adipogenesis, Cytokines, Thiazolidinediones, Bone marrow, Stem cell, Cell Division, Plasmids, Signal Transduction, Transcription Factors
Abstract

Pluripotent mesenchymal stem cells in bone marrow differentiate into adipocytes, osteoblasts and other cells. Balanced cytodifferentiation of stem cells is essential for the formation and maintenance of bone marrow; however, the mechanisms that control this balance remain largely unknown. Whereas cytokines such as interleukin-1 (IL-1) and tumour-necrosis factor-alpha (TNF-alpha) inhibit adipogenesis, the ligand-induced transcription factor peroxisome proliferator-activated receptor-gamma (PPAR-gamma), is a key inducer of adipogenesis. Therefore, regulatory coupling between cytokine- and PPAR-gamma-mediated signals might occur during adipogenesis. Here we show that the ligand-induced transactivation function of PPAR-gamma is suppressed by IL-1 and TNF-alpha, and that this suppression is mediated through NF-kappaB activated by the TAK1/TAB1/NF-kappaB-inducing kinase (NIK) cascade, a downstream cascade associated with IL-1 and TNF-alpha signalling. Unlike suppression of the PPAR-gamma transactivation function by mitogen-activated protein kinase-induced growth factor signalling through phosphorylation of the A/B domain, NF-kappaB blocks PPAR-gamma binding to DNA by forming a complex with PPAR-gamma and its AF-1-specific co-activator PGC-2. Our results suggest that expression of IL-1 and TNF-alpha in bone marrow may alter the fate of pluripotent mesenchymal stem cells, directing cellular differentiation towards osteoblasts rather than adipocytes by suppressing PPAR-gamma function through NF-kappaB activated by the TAK1/TAB1/NIK cascade.

Published
2003

3. Retraction Note: Cytokines suppress adipogenesis and PPAR-γ function through the TAK1/TAB1/NIK cascade

Author

Junn Yanagisawa, Ichiro Takada, Kunihiro Matsumoto, Yasuhiro Takeuchi, Miyuki Suzawa, Satoko Ogawa, Hiroshi Shibuya, Toshimasa Yamauchi, Yukiko Gotoh, Fumiaki Ohtake, Takashi Kadowaki, and Shigeaki Kato

Subjects
chemistry.chemical_classification, chemistry, Adipogenesis, Cascade, digestive, oral, and skin physiology, Peroxisome proliferator-activated receptor, lipids (amino acids, peptides, and proteins), macromolecular substances, Cell Biology, humanities, Function (biology), Cell biology
Abstract

Retraction: Cytokines suppress adipogenesis and PPAR-γ function through the TAK1/TAB1/NIK cascade

Published
2014

4. Retraction Note: A histone lysine methyltransferase activated by non-canonical Wnt signalling suppresses PPAR-γ transactivation

Author

Ichiro Takada, Masatomo Mihara, Miyuki Suzawa, Fumiaki Ohtake, Shinji Kobayashi, Mamoru Igarashi, Min-Young Youn, Ken-ichi Takeyama, Takashi Nakamura, Yoshihiro Mezaki, Shinichiro Takezawa, Yoshiko Yogiashi, Hirochika Kitagawa, Gen Yamada, Shinji Takada, Yasuhiro Minami, Hiroshi Shibuya, Kunihiro Matsumoto, and Shigeaki Kato

Subjects
Cell Biology
Published
2014

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