Updated on 2024/07/28

Information

 

写真a

 
JIMI EIJIRO
 
Organization
Faculty of Dental Science Department of Dental Science Professor
Faculty of Dental Science OBT Research Center(Joint Appointment)
School of Dentistry Department of Dentistry(Joint Appointment)
Graduate School of Dental Science (Joint Appointment)
Graduate School of Dental Science Department of Dental Science(Joint Appointment)
Title
Professor
Contact information
メールアドレス
Profile
平成30年3月31日にOBT研究センターキックオフシンポジウムを開催 平成31年3月2、3日に第1回KOB・OBT研究センター合同国際シンポジウムを開催 令和元年2月8、9日に第2回KOB・OBT研究センター合同国際シンポジウムを開催 令和2年2月6日に第3回KOB・OBT研究センター合同国際シンポジウムを開催 令和3年2月6日に第4回KOB・OBT研究センター合同国際シンポジウムをオンラインで開催 令和3年11月27-28日に第3回KOB・OBT研究センター合同国際シンポジウムを開催 令和4年10月29-30日に第4回KOB・OBT・DDR研究センター合同国際シンポジウムを開催
External link

Degree

  • DDS.,Ph.D

Research History

  • 昭和大学歯学部生化学講座助手 ハワードヒューズ医学研究所(イエール大学)研究員 福岡歯科大学 細胞生物学講座 細胞生理学分野 助教授 九州歯科大学 健康増進学講座 分子情報生化学分野 教授

Research Interests・Research Keywords

  • Research theme:Elucidation of a new bone metabolism regulation mechanism by epithelial cells

    Keyword:epithelial cells, bone metabolism

    Research period: 2023.4 - 2024.4

  • Research theme:Elucidation of new regulatory mechanism of protein deamidation and functional analysis using oral cancer cells

    Keyword:deamidation

    Research period: 2021.10 - 2023.3

  • Research theme:Elucidation of essential common molecular mechanisms that control postmenopausal osteoporosis and weight gain and development of therapeutic strategies

    Keyword:postmenopausal osteoporosis, weight gain

    Research period: 2021.4 - 2021.6

  • Research theme:Bone's function as a new sensor for emotional and immunological health

    Keyword:emotion, immunology, bone, NF-kB

    Research period: 2020.10 - 2021.6

  • Research theme:Morphogenesis and differentiation by the epithelial-mesenchymal interaction

    Keyword:p130Cas, tooth, salivary gland

    Research period: 2018.4 - 2025.3

  • Research theme:Signaling mechanism of transcription factor NF-kB and its functional analysis

    Keyword:NF-kB, metabolism

    Research period: 2014.4 - 2025.3

  • Research theme:The molecular mechanism of bone invasion by oral squamous cell carcinoma

    Keyword:oral squamous cell carcinoma, bone invasion

    Research period: 2003.4 - 2022.3

  • Research theme:The role of transcription factor NF-kB on bone metabolism

    Keyword:transcription factor, bone metabolism

    Research period: 1991.4 - 2027.4

Awards

  • 第33回日本骨代謝学会学術賞

    2016.8   日本骨代謝学会  

  • ライオン学術賞

    2015.9   日本歯科基礎医学会  

  • 第22回日本骨代謝学会優秀演題賞「骨形成」

    2003.6   日本骨代謝学会  

  • Young Investigator Award

    1997.9  

  • 第8回 歯科基礎医学会賞

    1996.9  

Papers

  • Inhibition of the ATG4-LC3 pathway suppressed osteoclast maturation. Reviewed International journal

    #Hiura F, Kawabata Y, #Aoki T, Mizokami A, Jimi E.

    Biochem Biophys Res Commun.   2023.12

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    Language:English   Publishing type:Research paper (scientific journal)  

    DOI: doi: 10.1016/j.bbrc.2022.09.065.

    Repository Public URL: https://hdl.handle.net/2324/7178663

  • Inhibition of non-canonical NF-B signaling suppresses periodontal inflammation and bone loss. Invited Reviewed International journal

    #Aoki T, #Hiura F, #Li A, #Yang N, Takakura-Hino N, Mukai S, @Matsuda M, @Nishimura F, @Jimi E.

    2023.4

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    Language:English   Publishing type:Research paper (scientific journal)  

    DOI: 10.3389/fimmu.2023.1179007.

    Repository Public URL: https://hdl.handle.net/2324/7172190

  • p130Cas is required for androgen-dependent postnatal development regulation of submandibular glands. Reviewed International journal

    Sci Rep.   2023.3

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    Language:English   Publishing type:Research paper (scientific journal)  

    DOI: 10.1038/s41598-023-32390-1.

    Repository Public URL: https://hdl.handle.net/2324/7178662

  • Id4 modulates salivary gland homeostasis and its expression is downregulated in IgG4-related disease via miR-486-5p. Reviewed International journal

    @Hayashi Y, #Kimura S, Yano E, @Yoshimoto S, Saeki A, Yasukochi A, Hatakeyama Y, Moriyama M, Nakamura S, Jimi E, Kawakubo-Yasukochi T.

    Biochim Biophys Acta Mol Cell Res.   2023.2

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    Language:English   Publishing type:Research paper (scientific journal)  

    DOI: 10.1016/j.bbamcr.2022.119404.

  • RANKL elevation activates the NIK/NF-κB pathway, inducing obesity in ovariectomized mice. Invited Reviewed International journal

    2022.4

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    Language:English   Publishing type:Research paper (scientific journal)  

    DOI: 10.1530/JOE-21-0424

    Repository Public URL: https://hdl.handle.net/2324/7178665

  • Phospholipase C-related catalytically inactive protein acts as a positive regulator for insulin signalling in adipocytes. Reviewed International journal

    Gao J, Mizokami A, Takeuchi H, Li A, Huang F, Nagano H, Kanematsu T, Jimi E, Hirata M.

    J Cell Sci. 2022 135(1):jcs258584.   2022.4

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    Language:English   Publishing type:Research paper (scientific journal)  

    DOI: 10.1242/jcs.258584.

  • Deletion of epithelial cell-specific p130Cas impairs the maturation stage of amelogenesis. Reviewed International journal

    #Inoue A, @Kiyoshima T, @Yoshizaki K, Nakatomi C, Nakatomi M, Ohshima H, Shin M, @Gao J, Tsuru K, Okabe K, Nakamura I, Honda H, @Matsuda M, @Takahashi I, @Jimi E.

    Bone   154   116210   2021.11

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    Language:English   Publishing type:Research paper (scientific journal)  

    DOI: 10.1016/j.bone.2021.116210

    Repository Public URL: https://hdl.handle.net/2324/7178667

  • Bone morphogenetic protein induces bone invasion of melanoma by epithelial-mesenchymal transition via the Smad1/5 signaling pathway. Reviewed International journal

    Gao J, Muroya R, Huang F, Nagata K, Shin M, Nagano R, Tajiri Y, Fujii S, Yamaza T, Aoki K, Tamura Y, Inoue M, Chishaki S, Kukita T, Okabe K, Matsuda M, Mori Y, Kiyoshima T, Jimi E.

    Lab Invest.   101   1475 - 1483   2021.11

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    Language:English   Publishing type:Research paper (scientific journal)  

    DOI: 10.1038/s41374-021-00661-y.

  • Hepatic glycogenolysis is determined by maternal high-calorie diet via methylation of Pygl and this is modified by osteocalcin administration in mice. Reviewed International journal

    Kawakubo-Yasukochi T, Yano E, Kimura S, Nishinakagawa T, Mizokami A, Hayashi Y, Hatakeyama Y, Ohe K, Yasukochi A, Nakamura S, Jimi E, Hirata M.

    Mol Metab.   2021.10

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    Language:English   Publishing type:Research paper (scientific journal)  

    DOI: 10.1016/j.molmet.2021.101360.

  • RAF1-MEK/ERK pathway-dependent ARL4C expression promotes ameloblastoma cell proliferation and osteoclast formation. Reviewed International journal

    @Fujii S, Ishibashi T, @Kokura M, Fujimoto T, Matsumoto S, Shidara S, Kurppa KJ, Pape J, Caton J, Morgan PR, Heikinheimo K, Kikuchi A, @Jimi E, @Kiyoshima T.

    J Pathol.   2021.10

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    Language:English   Publishing type:Research paper (scientific journal)  

    DOI: 10.1002/path.5814.

  • Volume-regulated chloride channel regulates cell proliferation and is involved in the possible interaction between TMEM16A and LRRC8A in human metastatic oral squamous cell carcinoma cells. Reviewed International journal

    Yoshimoto S, Matsuda M, Kato K, Jimi E, Takeuchi H, Nakano S, Kajioka S, Matsuzaki E, Hirofuji T, Inoue R, Hirata M, Morita H.

    Eur J Pharmacol.   895   173881   2021.3

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    Language:English   Publishing type:Research paper (scientific journal)  

    DOI: 10.1016/j.ejphar.2021.173881.

  • Adipocyte-specific GPRC6A ablation promotes diet-induced obesity by inhibiting lipolysis. Reviewed International journal

    Mukai S, Mizokami A, Otani T, Sano T, Matsuda M, Chishaki S, Gao, Kawakubo-Yasukochi T, Tang R, Kanematsu T, Takeuchi H, Jimi E, Hirata M.

    J Biol Chem.   296   2021.1

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    Language:English   Publishing type:Research paper (scientific journal)  

    DOI: doi: 10.1016/j.jbc.2021.100274.

  • A small nuclear acidic protein (MTI-II, Zn2+-binding protein, parathymosin) attenuates TNF-α inhibition of BMP-induced osteogenesis by enhancing accessibility of the Smad4-NF-κB p65 complex to Smad binding element. Invited Reviewed International journal

    2020.4

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    Pro-inflammatory cytokines prevent bone regeneration in vivo and activation of nuclear factor-κB (NF-κB) signaling has been proposed to lead to suppression of bone morphogenetic protein (BMP)-induced osteogenesis via direct binding of p65 to Smad4 in vitro. Application of a small nuclear acidic protein (MTI-II) and its delivered peptide, MPAID (MTI-II peptide anti-inflammatory drug) has been described to elicit therapeutic potential via strong anti-inflammatory action following the physical association of MTI-II and MPAID with p65. However, it is unclear whether MTI-II attenuates tumor necrosis factor (TNF)-α inhibition of BMP-induced osteogenesis. Herein, we found that TNF-α-mediated suppression of responses associated with BMP4-induced osteogenesis, including expression of the osteocalcin encoding gene Ocn, Smad binding element (SBE)-dependent luciferase activity, alkaline phosphatase activity, and alizarin red S staining were largely restored by MTI-II and MPAID in MC3T3-E1 cells. Mechanistically, MTI-II and MPAID did not inhibit nuclear translocation of p65 or disassociate Smad4 from p65. Further, results from chromatin immunoprecipitation (ChIP) analyses revealed that Smad4 enrichment in cells over-expressing MTI-II and treated with TNF-α was equivalent to that in cells without TNF-α treatment. Alternatively, Smad4 enrichment was considerably decreased following TNF-α treatment in control cells. Moreover, p65 enrichment in the Id-1 promoter SBE was detected only when cells over-expressing MTI-II were stimulated with TNF-α. Overall, our study concludes that MTI-II restored TNF-α-inhibited suppression of BMP-Smad-induced osteogenic differentiation by enhancing accessibility of the Smad4-p65 complex to the SBE rather than by liberating Smad4 from p65.

    DOI: doi: 10.1007/s11010-020-03734-6

  • A novel inhibitor of NF-κB-inducing kinase prevents bone loss by inhibiting osteoclastic bone resorption in ovariectomized mice. Invited Reviewed International journal

    2020.3

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    Language:English   Publishing type:Research paper (scientific journal)  

    Musculoskeletal diseases and disorders, including osteoporosis and rheumatoid arthritis are diseases that threaten a healthy life expectancy, and in order to extend the healthy life expectancy of elderly people, it is important to prevent bone and joint diseases and disorders. We previously reported that alymphoplasia (aly/aly) mice, which have a loss-of-function mutation in the Nik gene involved in the processing of p100 to p52 in the alternative NF-κB pathway, show mild osteopetrosis with a decrease in the osteoclast number, suggesting that the alternative NF-κB pathway is a potential drug target for ameliorating bone diseases. Recently, the novel NF-κB-inducing kinase (NIK)-specific inhibitor compound 33 (Cpd33) was developed, and we examined its effect on osteoclastic bone resorption in vitro and in vivo. Cpd33 inhibited the receptor activator of NF-κB ligand (RANKL)-induced osteoclastogenesis accompanied by a decrease in the expression of nfatc1, dc-stamp, and cathepsin K, markers of osteoclast differentiation, without affecting the cell viability, in a dose-dependent manner. Cdp33 specifically suppressed the RANKL-induced processing of p100 to p52 but not the phosphorylation of p65 or the degradation or resynthesis of IκBα in osteoclast precursors. Cpd33 also suppressed the bone-resorbing activity in mature osteoclasts. Furthermore, Cdp33 treatment prevented bone loss by suppressing the osteoclast formation without affecting the osteoblastic bone formation in ovariectomized mice. Taken together, NIK inhibitors may be a new option for patients with a reduced response to conventional pharmacotherapy or who have serious side effects.

    DOI: doi: 10.1016/j.bone.2020.115316.

  • p130Cas induces bone invasion by oral squamous cell carcinoma by regulating tumor epithelial-mesenchymal transition and cell proliferation. Reviewed International journal

    Yaginuma T, Gao J, Nagata K, Muroya R, Fei H, Nagano H, Chishaki S, Matsubara T, Kokabu S, Matsuo K, Kiyoshima T, Yoshioka I, Jimi E.

    Carcinogenesis   2020.1

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    Language:English   Publishing type:Research paper (scientific journal)  

    DOI: 10.1093/carcin/bgaa007.

  • Kif1c regulates osteoclastic bone resorption as a downstream molecule of p130Cas. Reviewed International journal

    Kobayakawa M, Matsubara T, Mizokami A, Hiura F, Takakura N, Kokabu S, Matsuda M, Yasuda H, Nakamura I, Takei Y, Honda H, Hosokawa R, Jimi E.

    Cell Biochem Funct.   2019.12

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    Language:English   Publishing type:Research paper (scientific journal)  

    DOI: doi: 10.1002/cbf.3476.

  • GLP-1 signaling is required for improvement of glucose tolerance by osteocalcin. Reviewed International journal

    Mizokami A, Mukai S, Gao J, Kawakubo-Yasukochi T, Otani T, Takeuchi H, Jimi E, Hirata M.

    J Endocrinol.   2019.11

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  • Bif-1/Endophilin B1/SH3GLB1 regulates bone homeostasis. Reviewed International journal

    Touyama K, Khan M, Aoki K, Matsuda M, Hiura F, Takakura N, Matsubara T, Harada Y, Hirohashi Y, Tamura Y, Gao J, Mori K, Kokabu S, Yasuda H, Fujita Y, Watanabe K, Takahashi Y, Maki K, Jimi E.

    J Cell Biochem   120 ( 11 )   18793 - 18804   2019.11

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    Language:English   Publishing type:Research paper (scientific journal)  

    DOI: doi: 10.1002/jcb.29193.

  • Constitutive activation of the alternative NF-κB pathway disturbs endochondral ossification. Reviewed International journal

    121   29 - 41   2019.4

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    Endochondral ossification is important for skeletal development. Recent findings indicate that the p65 (RelA) subunit, a main subunit of the classical nuclear factor-κB (NF-κB) pathway, plays essential roles in chondrocyte differentiation. Although several groups have reported that the alternative NF-κB pathway also regulates bone homeostasis, the role of the alternative NF-κB pathway in chondrocyte development is still unclear. Here, we analyzed the in vivo function of the alternative pathway on endochondral ossification using p100-deficient (p100-/-) mice, which carry a homozygous deletion of the COOH-terminal ankyrin repeats of p100 but still express functional p52 protein. The alternative pathway was activated during the periarticular stage in wild-type mice. p100-/- mice exhibited dwarfism, and histological analysis of the growth plate revealed abnormal arrangement of chondrocyte columns and a narrowed hypertrophic zone. Consistent with these observations, the expression of hypertrophic chondrocyte markers, type X collagen (ColX) or matrix metalloproteinase 13, but not early chondrogenic markers, such as Col II or aggrecan, was suppressed in p100-/- mice. An in vivo BrdU tracing assay clearly demonstrated less proliferative activity in chondrocytes in p100-/- mice. These defects were partly rescued when the RelB gene was deleted in p100-/- mice. Taken together, the alternative NF-κB pathway may regulate chondrocyte proliferation and differentiation to maintain endochondral ossification.

    DOI: doi: 10.1002/jcb.29193.

  • Osteocalcin triggers Fas/FasL-mediated necroptosis in adipocytes via activation of p300. Reviewed International journal

    Otani T, Matsuda M, Mizokami A, Kitagawa N, Takeuchi H, Jimi E, Inai T, Hirata M.

    Cell Death Dis. 2018 13: 1194   13   1194   2018.12

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  • The actin-binding protein PPP1r18 regulates maturation, actin organization, and bone resorption activity of osteoclasts Reviewed

    Takuma Matsubara, Shoichiro Kokabu, Chihiro Nakatomi, Masayuki Kinbara, Toshihiro Maeda, Mitsuhiro Yoshizawa, Hisataka Yasuda, Teruko Takano-Yamamoto, Roland Baron, Eijiro Jimi

    Molecular and Cellular Biology   38 ( 4 )   2018.2

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    Language:English   Publishing type:Research paper (scientific journal)  

    DOI: 10.1128/MCB.00425-17

  • A peptide that blocks the interaction of NF-κB p65 subunit with Smad4 enhances BMP2-induced osteogenesis Reviewed

    2018.1

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    Bone morphogenetic protein (BMP) potentiates bone formation through the Smad signaling pathway in vitro and in vivo. The transcription factor nuclear factor κB (NF-κB) suppresses BMP-induced osteoblast differentiation. Recently, we identified that the transactivation (TA) 2 domain of p65, a main subunit of NF-κB, interacts with the mad homology (MH) 1 domain of Smad4 to inhibit BMP signaling. Therefore, we further attempted to identify the interacting regions of these two molecules at the amino acid level. We identified a region that we term the Smad4-binding domain (SBD), an amino-terminal region of TA2 that associates with the MH1 domain of Smad4. Cell-permeable SBD peptide blocked the association of p65 with Smad4 and enhanced BMP2-induced osteoblast differentiation and mineralization without affecting the phosphorylation of Smad1/5 or the activation of NF-κB signaling. SBD peptide enhanced the binding of the BMP2-inudced phosphorylated Smad1/5 on the promoter region of inhibitor of DNA binding 1 (Id-1) compared with control peptide. Although SBD peptide did not affect BMP2-induced chondrogenesis during ectopic bone formation, the peptide enhanced BMP2-induced ectopic bone formation in subcortical bone. Thus, the SBD peptide is useful for enabling BMP2-induced bone regeneration without inhibiting NF-κB activity.

    DOI: 10.1002/jcp.26571

  • NOTCH2 Hajdu-Cheney Mutations Escape SCFFBW7-Dependent Proteolysis to Promote Osteoporosis Reviewed

    Hidefumi Fukushima, Kouhei Shimizu, Asami Watahiki, Seira Hoshikawa, Tomoki Kosho, Daiju Oba, Seiji Sakano, Makiko Arakaki, Aya Yamada, Katsuyuki Nagashima, Koji Okabe, Satoshi Fukumoto, Eijiro Jimi, Anna Bigas, Keiichi Nakayama, Keiko Nakayama, Yoko Aoki, Wenyi Wei, Hiroyuki Inuzuka

    Molecular Cell   68 ( 4 )   645 - 658   2017.11

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    Language:English   Publishing type:Research paper (scientific journal)  

    DOI: 10.1016/j.molcel.2017.10.018

  • The transcriptional co-repressor TLE3 regulates myogenic differentiation by repressing the activity of the MyoD transcription factor Reviewed

    Shoichiro Kokabu, Chihiro Nakatomi, Takuma Matsubara, Yusuke Ono, William N. Addison, Jonathan W. Lowery, Mariko Urata, Aaron M. Hudnall, Suzuro Hitomi, Mitsushiro Nakatomi, Tsuyoshi Sato, Kenji Osawa, Tetsuya Yoda, Vicki Rosen, Eijiro Jimi

    Journal of Biological Chemistry   292 ( 31 )   12885 - 12894   2017.1

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    Language:English   Publishing type:Research paper (scientific journal)  

    DOI: 10.1074/jbc.M116.774570

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Presentations

  • 閉経後骨粗しょう症と体重増加の共通分子機構 Invited

    @自見 英治郎

    第96回日本生化学会大会  2023.11 

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    Event date: 2024.4

    Language:Japanese   Presentation type:Symposium, workshop panel (public)  

    Venue:福岡   Country:Japan  

    超高齢社会において、健康寿命の延伸は重要な課題である。閉経後の女性は、骨密度の低下による骨折リスクや体重の増加による糖尿病や心血管障害のほか、乳がんなど女性特有のがんの発症リスクが上がることが報告されている。エストロゲン欠乏による骨密度の低下と体重増加は各臓器で共通の反応を惹起することが考えられるが、従来これらの疾患は、臓器別に研究や治療が行われてきた。我々は、NF-κB-inducing kinase (NIK)の遺伝的機能欠失型変異によって非古典的経路が抑制されたalymphoplasia(aly/aly)マウスが骨吸収の抑制による軽度の大理石骨病を呈することから、NIKの阻害剤が新たな骨粗鬆症の治療薬になる可能性を考えた。そこで新規NIKの阻害剤Cpd33を卵巣摘出(ovariectomized:OVX)マウスに投与すると、骨量の減少だけでなく、内臓脂肪の増加による体重増加も抑制された。aly/alyマウスにOVXを行った場合でも同様の結果を得た。一方、NF-κBによる骨代謝調節にp65サブユニットの534番セリン残基(S534)のリン酸化が重要なことを見出し、リン酸化を受けないp65変異(S534A)マウスを樹立した。このマウスはNF-κB活性が亢進しており、OVXで誘導される骨量減少と体重増加が著しく亢進した。骨量減少は、破骨細胞による骨吸収の著しい亢進と骨髄細胞からの脂肪細胞への分化亢進に起因し、体重増加は間葉系細胞からの脂肪細胞への分化の亢進に起因すると考えられた。以上の結果より、NF-κBの活性化が閉経後骨粗しょう症と体重増加を制御する標的分子になりうると考えられる。

  • The regulation of NF-κB signaling by p65 serine 534 phosphorylation is involved in both postmenopausal osteoporosis and weight gain

    #Fei Huang, @Jing Gao,# Aonan Li, @Akiko Mizokami,@Eijiro Jimi

    第65回歯科基礎医学会学術大会  2024.9 

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    Event date: 2024.4

    Language:English  

    Venue:東京   Country:Japan  

  • p130cas はマウス顎下腺の顆粒性導管細胞分化のための ER-ゴルジネットワークの形成に重要な役割を果たす

    #李 傲男,@高 靖,@藤井 慎介,@清島 保,@自見英治郎

    第64回歯科基礎医学会  2022.9 

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    Event date: 2022.9

    Language:English  

    Venue:徳島   Country:Japan  

  • 閉経による血清RANKL濃度の上昇はNF-kB の非古典的経路を活性化し肥満を引き起こす

    #森 馨代,@溝上 顕子,@佐野 朋美,@兼松 隆,@自見英治郎

    第63回歯科基礎医学会学術大会  2021.10 

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    Event date: 2021.10

    Language:Japanese   Presentation type:Oral presentation (general)  

    Country:Japan  

  • 新規 NIK 阻害剤の骨吸収阻害薬としての効果の検討

    高倉那奈,@自見英治郎,@松田美穂,#日浦史隆,#森 馨代, 北村知昭

    日本歯科保存学会 2019年度秋季学術大会(第151回)  2019.11 

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    Event date: 2019.11

    Language:Japanese  

    Venue:福岡国際会議場   Country:Japan  

  • 骨吸収の分子機構の解明と歯周病治療への展開 Invited

    @自見 英治郎

    第62回日本歯周病学会学術大会  2020.10 

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    Event date: 2019.10

    Language:Japanese   Presentation type:Oral presentation (invited, special)  

    Venue:西日本総合展示場   Country:Japan  

  • NF-κBとBMPシグナル経路の相互作用を標的とした骨再生の新しいアプローチ Invited

    自見 英治郎

    第60回歯科基礎医学会  2018.9 

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    Event date: 2018.9

    Language:Japanese   Presentation type:Symposium, workshop panel (public)  

    Venue:九州大学百年講堂   Country:Japan  

  • 大学院生、基礎研究者そしてPIへ Invited

    自見 英治郎

    先端歯学スクール  2017.8 

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    Event date: 2017.8

    Language:Japanese  

    Venue:東京医科歯科大学   Country:Japan  

  • 骨吸収の分子メカニズム Invited

    自見 英治郎

    第55回日本小児歯科学会大会  2017.6 

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    Event date: 2017.5

    Language:Japanese   Presentation type:Oral presentation (invited, special)  

    Venue:西日本総合展示場、北九州、福岡   Country:Japan  

  • 加齢に伴う病態変化の生化学 Invited

    @自見 英治郎

    第96回日本生化学会大会  2023.11 

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    Event date: 2024.4

    Language:Japanese   Presentation type:Symposium, workshop panel (public)  

    Venue:福岡   Country:Japan  

  • 転写因子NF-κB p65サブユニットによる上皮細胞分化と発毛制御

    #高 田、@川端 由子、@清島 保、@自見 英治郎

    第65回歯科基礎医学会学術大会  2023.9 

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    Event date: 2024.4

    Language:Japanese  

    Venue:東京   Country:Japan  

  • エナメル芽細胞極性化におけるp130Casの機能解析

    #川原 純平、@吉崎 恵悟、湯田 智美、井上 茜、@宮崎 佳奈子、@田 甜、#韓 涛、@自見 英治郎、@高橋 一郎

    第65回歯科基礎医学会学術大会  2023.9 

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    Event date: 2024.4

    Language:Japanese  

    Country:Japan  

  • Functional analysis of deamination in p65, a subunit of NF-κB, in oral squamous cell carcinoma

    第65回歯科基礎医学会学術大会  2023.9 

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    Event date: 2024.4

    Language:English  

    Country:Japan  

  • 閉経後の骨・エネルギー代謝異常の進展を制御する環境エンリッチメント

    #鞠 超然、@安河内(川久保)友世、#高 田、@小倉 綾乃、@川端 由子、@自見 英治郎

    第65回歯科基礎医学会学術大会  2023.9 

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    Event date: 2024.4

    Language:Japanese  

    Country:Japan  

  • p130Casはエナメル芽細胞分化過程において細胞極性を制御する

    #川原 純平、@吉崎 恵悟、湯田 智美、井上 茜、@宮崎 佳奈子、@田 甜、#韓 涛、@自見 英治郎、@高橋 一郎

    第82回日本矯正歯科学会学術大会  2023.11 

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    Event date: 2024.4

    Language:Japanese  

    Venue:新潟   Country:Japan  

  • 上皮細胞分化と発毛制御における転写因子NF-κB p65サブユニットの役割

    #高 田、@川端 由子、@清島 保、@自見 英治郎

    第96回日本生化学会大会  2023.11 

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    Event date: 2024.4

    Language:Japanese  

    Venue:福岡   Country:Japan  

  • The functional implications of deamination in p65, a subunit of NF-κB, in oral squamous cell carcinoma.

    第96回日本生化学会大会  2023.11 

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    Event date: 2024.4

    Language:English  

    Venue:福岡   Country:Japan  

  • 生活環境に起因する 閉経後の骨粗鬆症やエネルギー代謝異常症の進展制御機構

    #鞠 超然、@安河内(川久保)友世、#高 田、@小倉 綾乃、@川端 由子、@自見 英治郎

    2023.11 

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    Event date: 2024.4

    Language:Japanese  

    Venue:福岡   Country:Japan  

  • NF-κB signaling is involved in both postmenopausal osteoporosis and weight gain

    第96回日本生化学会大会  2023.11 

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    Event date: 2024.4

    Language:Japanese  

    Venue:福岡   Country:Japan  

  • The regulatory mechanism of NF-kB signals involved in postmenopausal osteoporosis and weight gain NF-κBシグナルの調節メカニズムは閉経後骨粗鬆症と体重増加に関与する

    第64回歯科基礎医学会  2022.9 

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    Event date: 2023.9

    Language:Japanese   Presentation type:Oral presentation (general)  

    Venue:徳島   Country:Japan  

  • 転写因子 NF-κB の新たな活性化制御機構とその機能解析

    #青木 司、@松田 美穂、@自見 英治郎

    第64回歯科基礎医学会  2022.9 

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    Event date: 2022.9

    Language:English   Presentation type:Oral presentation (general)  

    Venue:徳島   Country:Japan  

  • 唾液腺におけるId4の役割と病態への関与

    #木村宗惟、林慶和、#佐伯彩華、安河内篤、@中村誠司、@自見英治郎、@安河内(川久保)友世

    第64回歯科基礎医学会  2022.9 

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    Event date: 2022.9

    Language:Japanese   Presentation type:Oral presentation (general)  

    Venue:徳島   Country:Japan  

  • 低分子量Gタンパク質ARL4Cの発現はエナメル上皮腫における腫瘍細胞増殖と破骨細胞形成を促進する

    @藤井 慎介、@自見 英治郎,@清島 保

    第64回歯科基礎医学会  2022.9 

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    Event date: 2022.9

    Language:Japanese   Presentation type:Oral presentation (general)  

    Venue:徳島   Country:Japan  

  • 充実環境による閉経後骨粗鬆症・体重増加に対する抑制効果

    #鞠 超然、@川端 由子、#黄 菲、#李 傲男、@自見 英治郎

    第64回歯科基礎医学会  2022.9 

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    Event date: 2022.9

    Language:Japanese   Presentation type:Oral presentation (general)  

    Venue:徳島   Country:Japan  

  • 閉経後骨粗鬆症モデルマウスの味覚行動の変化

    @川端 由子、#尾池 麻未、@髙井 信吾、@岩田 周介、@實松 敬介、@重村 憲德、@兼松 隆、@自見 英治郎

    2022.9 

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    Event date: 2022.9

    Language:Japanese   Presentation type:Oral presentation (general)  

    Venue:徳島   Country:Japan  

  • LC3の阻害は破骨細胞の成熟を抑制し、歯周病モデルの骨破壊を抑制する

    #日浦 史隆、@川端 由子、@溝上 顕子、@自見 英治郎

    第64回歯科基礎医学会  2022.9 

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    Event date: 2022.9

    Language:Japanese   Presentation type:Oral presentation (general)  

    Country:Japan  

  • The role of serine 536 phosphorylation of NF-kB p65 in the bone loss and obesity in postmenopausal women

    #Fei Huang, @Jing Gao, @Eijiro Jimi

    2021.10 

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    Event date: 2021.10

    Language:English   Presentation type:Oral presentation (general)  

    Country:Japan  

  • エナメル上皮腫におけるRAF1-MAPK依存性の低分子量Gタンパク質ARL4Cの高発現は腫瘍細胞増殖と破骨細胞形成を促進する

    #小倉 萌,@藤井 慎介,@自見英治郎,@清島 保

    第63回歯科基礎医学会学術大会  2021.10 

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    Event date: 2021.10

    Language:Japanese   Presentation type:Oral presentation (general)  

    Country:Japan  

  • 唾液腺の形態形成及び機能発現における p130Cas の役割

    #室屋 龍佑,@高 靖,中富 千尋,@藤井 慎介,@清島 保,@自見英治郎

    第61回歯科基礎医学会  2019.10 

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    Event date: 2019.10

    Language:Japanese  

    Country:Japan  

  • p130Cas のエナメル質成熟過程における役割

    井上 茜, 中富 千尋, 中富 満城, 進 正史, 岡部 幸司, 大島 勇人, 松田 美穂, 自見英治郎

    第61回歯科基礎医学会  2019.10 

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    Event date: 2019.10

    Language:Japanese   Presentation type:Oral presentation (general)  

    Venue:東京歯科大学   Country:Japan  

  • 新規 NIK 阻害剤 Compound33 による破骨細胞分化・機能抑制効果の検討

    高倉 那奈, 松田 美穂, 日浦 史隆, 北村 知昭, 自見英治郎

    第61回歯科基礎医学会  2019.10 

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    Event date: 2019.10

    Language:Japanese   Presentation type:Oral presentation (general)  

    Venue:東京歯科大学   Country:Japan  

  • オステオカルシンの代謝改善効果における GLP-1 受容体シグナルの役割

    @溝上 顕子 向井 悟 竹内 弘 @自見英治郎 平田 雅人

    第61回歯科基礎医学会  2019.10 

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    Event date: 2019.10

    Language:Japanese   Presentation type:Oral presentation (general)  

    Venue:東京歯科大学   Country:Japan  

  • 扁平上皮癌細胞の形態変化・移動・浸潤および骨破壊における p130Cas の役割

    柳沼 樹、松原 琢磨、古株彰一郎、中富 千尋、自見英治郎

    第60回歯科基礎医学会  2018.9 

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    Event date: 2018.9 - 2019.9

    Language:Japanese   Presentation type:Oral presentation (general)  

    Country:Japan  

  • オステオカルシンは紫外線誘導性酸化ストレスの抑制作用を有している

    向井 悟、溝上 顕子、高 靖、自見英治郎、平田 雅人

    第60回歯科基礎医学会  2018.9 

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    Event date: 2018.9

    Language:Japanese  

    Venue:九州大学百年講堂、福岡   Country:Japan  

  • 新規 NIK 阻害剤の RANKL 誘導性破骨細胞分化への影響の検討

    高倉 那奈、松田 美穂、日浦 史隆、北村 知昭、自見英治郎

    第60回歯科基礎医学会  2018.9 

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    Event date: 2018.9

    Language:Japanese   Presentation type:Oral presentation (general)  

    Country:Japan  

  • エナメル質成熟過程における p130Cas の機能解析

    中富 千尋、中富 満城、古株彰一郎、松原 琢磨、大島 勇人、自見英治郎

    第60回歯科基礎医学会  2018.9 

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    Event date: 2018.9

    Language:Japanese   Presentation type:Oral presentation (general)  

    Venue:九州大学百年講堂、福岡   Country:Japan  

  • PRIP による脂肪細胞のインスリンシグナリングの調節

    高 靖、溝上 顕子、竹内 弘、自見英治郎、平田 雅人

    第60回歯科基礎医学会  2018.9 

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    Event date: 2018.9

    Language:Japanese   Presentation type:Oral presentation (general)  

    Venue:九州大学百年講堂、福岡   Country:Japan  

  • p130Cas と結合する分子 Bif-1 は破骨細胞による骨吸収へ影響を与える

    當山 健弥、松原 琢磨、古株彰一郎、中富 千尋、牧 憲司、自見英治郎

    第60回歯科基礎医学会  2018.9 

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    Event date: 2018.9

    Language:Japanese   Presentation type:Oral presentation (general)  

    Venue:九州大学百年講堂、福岡   Country:Japan  

  • 破骨細胞のアクチンリング形成における Kif1c の役割

    小早川美輝、松原 琢磨、古株彰一郎、細川 隆司、自見英治郎

    第60回歯科基礎医学会  2018.9 

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    Event date: 2018.9

    Language:Japanese   Presentation type:Oral presentation (general)  

    Venue:九州大学百年講堂、福岡   Country:Japan  

  • 骨基質タンパク質オステオカルシンと相互作用する分子の探索

    鮫島 潤星、中辻 敬太、加来 謙太、野田純一郎、高 靖、溝上 顕子、松田 美穂、自見英治郎

    第60回歯科基礎医学会  2018.9 

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    Event date: 2018.9

    Language:Japanese  

    Country:Japan  

  • 唾液腺の発生および機能発現における p130Cas の役割

    室屋 龍佑、高 靖、中富 千尋、藤井 慎介、清島 保、自見英治郎

    第60回歯科基礎医学会  2018.9 

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    Event date: 2018.9

    Language:Japanese   Presentation type:Oral presentation (general)  

    Country:Japan  

  • p130CasはTGFβ刺激による口腔扁平上皮癌の形態変化、細胞移動、および浸潤能の亢進に関与する International conference

    柳沼樹、松原琢磨、古株彰一郎、中富千尋、矢田直美、松尾拡、吉岡泉、自見英治郎

    第78回九州歯科学会総会・学術大会  2018.5 

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    Event date: 2018.5

    Language:Japanese  

    Country:Japan  

  • PPP1r18による破骨細胞分化制御

    松原琢磨、古株彰一郎、中富千尋、自見英治郎

    第78回九州歯科学会総会・学術大会  2018.5 

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    Event date: 2018.5

    Language:English  

    Country:Japan  

  • 新規NIK阻害剤の骨吸収抑制効果の検討

    高倉那奈、自見英治郎、古株彰一郎、松原琢磨、北村知昭

    第78回九州歯科学会総会・学術大会  2018.5 

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    Event date: 2018.5

    Language:Japanese  

    Country:Japan  

  • p130Cas結合タンパク質Bif-1は破骨細胞の骨吸収を制御する

    當山健弥、松原琢磨、古株彰一郎、中富千尋、牧憲司、自見英治郎

    第78回九州歯科学会総会・学術大会  2018.5 

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    Event date: 2018.5

    Language:Japanese  

    Country:Japan  

  • 破骨細胞の成熟過程におけるKif1cの役割

    小早川美輝、松原琢磨、古株彰一郎、細川隆司、自見英治郎

    第78回九州歯科学会総会・学術大会  2018.5 

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    Event date: 2018.5

    Language:Japanese  

    Country:Japan  

  • 破骨細胞のアクチンリング形成および破骨細胞性骨吸収を制御するアクチン結合分子PPP1r18

    松原琢磨、古株彰一郎、中富千尋、自見英治郎

    第59回歯科基礎医学会学術大会  2017.9 

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    Event date: 2017.9 - 2018.9

    Language:Japanese  

    Country:Japan  

  • BMPによる骨形成促進を目的としたSmad4とNF-κB p65の会合領域の検討

    浦田真梨子、松原琢磨、中富千尋、平田-土屋志津、古株彰一郎、張 皿、北村知昭、自見英治郎

    第59回歯科基礎医学会学術大会  2017.9 

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    Event date: 2017.9

    Language:Japanese  

    Country:Japan  

  • 成長板軟骨細胞の増殖におけるNF-κB非古典的経路の役割

    中富千尋、松原琢磨、中富満城、古株彰一郎、自見英治郎

    第59回歯科基礎医学会学術大会  2017.9 

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    Event date: 2017.9

    Language:Japanese   Presentation type:Oral presentation (general)  

    Country:Japan  

  • シグナル調節分子PRIPの破骨細胞分化における役割

    松田美穂、自見英治郎、平田雅人

    第59回歯科基礎医学会学術大会  2017.9 

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    Language:Japanese  

    Country:Japan  

  • 脂肪組織特異的GPRC6A欠損が全身代謝に与える影響

    溝上顕子、竹内弘、自見英治郎、平田雅人

    第59回歯科基礎医学会学術大会  2017.9 

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    Event date: 2017.9

    Language:Japanese  

    Country:Japan  

  • 悪性黒色腫の顎骨浸潤と転移におけるBMPシグナルの役割

    小川昌洋、古株彰一郎、中富千尋、松原琢磨、渡邉誠之、自見英治郎

    第59回歯科基礎医学会学術大会  2017.9 

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    Language:Japanese  

    Country:Japan  

  • 動脈硬化の病態におけるオステオカルシンの役割

    近藤皓彦、川久保-安河内友世、溝上顕子、自見英治郎、平田雅人

    第59回歯科基礎医学会学術大会  2017.9 

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    Language:Japanese  

    Country:Japan  

  • TLE3による骨格筋組織幹細胞、サテライト細胞の増殖・分化制御機構

    古株彰一郎、中富千尋、松原琢磨、自見英治郎

    第59回歯科基礎医学会学術大会  2017.9 

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    Language:Japanese  

    Country:Japan  

▼display all

MISC

  • The unique function of p130Cas in regulating the bone metabolism. Reviewed

    Jimi E, Honda H, Nakamura I.

    Pharmacol Ther.   2021.10

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    DOI: 10.1016/j.pharmthera.2021.1

  • Critical roles of NF-κB signaling molecules in bone metabolism revealed by genetic mutation in osteopetrosis. Reviewed

    2022.7

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  • 臨床に向けた最近の研究動向から 最新の骨代謝研究について―第2回 新たな骨粗鬆症治療薬の開発

    自見 英治郎

    日本歯科評論   2020.11

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  • 臨床に向けた最近の研究動向から 最新の骨代謝研究について―第3回 口腔癌による顎骨浸潤の治療標的分子 Reviewed

    自見 英治郎

    日本歯科評論   2020.11

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  • 臨床に向けた最近の研究動向から 最新の骨代謝研究について―第1回 BMP2を用いた新たな骨再生の試み

    自見 英治郎

    日本歯科評論 10月号   2020.10

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  • 新たな骨粗しょう症治療薬開発への期待

    自見 英治郎

    2020.8

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  • NF-κB signaling regulates physiological and pathological chondrogenesis.

    2019.12

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    The nuclear factor-κB (NF-κB) is a transcription factor that regulates the expression of genes that control cell proliferation and apoptosis, as well as genes that respond to inflammation and immune responses. There are two means of NF-κB activation: the classical pathway, which involves the degradation of the inhibitor of κBα (IκBα), and the alternative pathway, which involves the NF-κB-inducing kinase (NIK, also known as MAP3K14). The mouse growth plate consists of the resting zone, proliferative zone, prehypertrophic zone, and hypertrophic zone. The p65 (RelA), which plays a central role in the classical pathway, is expressed throughout the cartilage layer, from the resting zone to the hypertrophic zone. Inhibiting the classical NF-κB signaling pathway blocks growth hormone (GH) or insulin-like growth factor (IGF-1) signaling, suppresses cell proliferation, and suppresses bone morphogenetic protein 2 (BMP2) expression, thereby promoting apoptosis. Since the production of autoantibodies and inflammatory cytokines, such as tumor necrosis factor-α (TNFα), interleukin (IL)-1β, IL-6, and IL-17, are regulated by the classical pathways and are increased in rheumatoid arthritis (RA), NF-κB inhibitors are used to suppress inflammation and joint destruction in RA models. In osteoarthritis (OA) models, the strength of NF-κB-activation is found to regulate the facilitation or suppression of OA. On the other hand, RelB is involved in the alternative pathway, and is expressed in the periarticular zone during the embryonic period of development. The alternative pathway is involved in the generation of chondrocytes in the proliferative zone during physiological conditions, and in the development of RA and OA during pathological conditions. Thus, NF-κB is an important molecule that controls normal development and the pathological destruction of cartilage.

    DOI: doi: 10.3390/ijms20246275.

  • The Role of NF-κB in physiological bone development and Inflammatory bone diseases: Is NF-κB Inhibition "Killing two birds with one stone"?

    2019.12

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    Nuclear factor-κB (NF-κB) is a transcription factor that regulates the expression of various genes involved in inflammation and the immune response. The activation of NF-κB occurs via two pathways: inflammatory cytokines, such as TNF-α and IL-1β, activate the "classical pathway", and cytokines involved in lymph node formation, such as CD40L, activate the "alternative pathway". NF-κB1 (p50) and NF-κB2 (p52) double-knockout mice exhibited severe osteopetrosis due to the total lack of osteoclasts, suggesting that NF-κB activation is required for osteoclast differentiation. These results indicate that NF-κB may be a therapeutic target for inflammatory bone diseases, such as rheumatoid arthritis and periodontal disease. On the other hand, mice that express the dominant negative form of IκB kinase (IKK)-β specifically in osteoblasts exhibited increased bone mass, but there was no change in osteoclast numbers. Therefore, inhibition of NF-κB is thought to promote bone formation. Taken together, the inhibition of NF-κB leads to "killing two birds with one stone": it suppresses bone resorption and promotes bone formation. This review describes the role of NF-κB in physiological bone metabolism, pathologic bone destruction, and bone regeneration.

    DOI: doi: 10.3390/cells8121636.

  • 破骨細胞

    自見 英治郎

    副甲状腺・骨代謝疾患診療マニュアル   2019.6

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  • Vitamin status and mineralized tissue formation

    Eijiro Jimi

    Current Oral Health Reports   2019.2

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    Language:English   Publishing type:Article, review, commentary, editorial, etc. (scientific journal)  

  • 骨リモデリングにおける破骨細胞の役割

    自見 英治郎

    2017.12

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    Language:Japanese   Publishing type:Article, review, commentary, editorial, etc. (scientific journal)  

    骨リモデリングは、破骨細胞による骨吸収と骨芽細胞による骨形成サイクルから成り、骨量とカルシウムの恒常性の維持に重要である。骨吸収と骨形成は密接な関係を保つが、これら2つのバランスが崩れると骨量の増加や減少が生じる。破骨細胞は生理的、または病的骨吸収に関わる多核巨細胞であり、破骨細胞による骨吸収はさまざまなサイトカイン、カルシウムシグナルや転写因子によって制御されている。近年では遺伝子欠損マウスの結果から破骨細胞による骨吸収を制御する新たな分子の重要性が証明されている。本稿では、骨リモデリングを制御する破骨細胞の骨吸収に関する分子機構について最近の知見を概説する。

  • 骨吸収の分子メカニズム

    自見 英治郎

    小児歯科臨床   2017.11

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    Language:Japanese   Publishing type:Article, review, commentary, editorial, etc. (scientific journal)  

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Professional Memberships

  • 歯科基礎医学会

  • 日本骨代謝学会

  • 分子生物学会

  • 日本小児歯科学会

  • 日本歯科医学教育学会

  • 日本生化学会

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Committee Memberships

  • Organizer   Domestic

    2022.12 - 2023.11   

  • Executive   Domestic

    2022.1 - 2024.12   

  • 歯科基礎医学会   常任理事   Domestic

    2022.1 - 2024.12   

  • Executive   Domestic

    2020.5 - 2022.6   

  • Executive   Domestic

    2018.5 - 2019.6   

  • Councilor   Domestic

    2017.10 - 2022.6   

  • 日本骨代謝学会   教育委員会   Domestic

    2017.10 - 2022.6   

  • 日本骨代謝学会   教育委員会委員   Domestic

    2014.4 - 2020.4   

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Academic Activities

  • Screening of academic papers

    Role(s): Peer review

    2024

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    Type:Peer review 

    Number of peer-reviewed articles in foreign language journals:29

  • シンポジウム企画

    第96回日本生化学会大会  ( 福岡 ) 2023.10 - 2023.11

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    Type:Competition, symposium, etc. 

  • 幹事

    第96回日本生化学会大会  ( 福岡 ) 2023.4 - 2024.3

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    Type:Competition, symposium, etc. 

  • Screening of academic papers

    Role(s): Peer review

    2023

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    Type:Peer review 

    Number of peer-reviewed articles in foreign language journals:8

  • シンポジウムオーガナイザー

    歯科基礎医学会  ( 徳島 ) 2022.9

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    Type:Competition, symposium, etc. 

  • Journal of Cellular Physiology International contribution

    Role(s): Peer review

    2022.4

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    Type:Academic society, research group, etc. 

  • Screening of academic papers

    Role(s): Peer review

    2022

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    Type:Peer review 

    Number of peer-reviewed articles in foreign language journals:28

  • シンポジウムオーガナイザー

    日本骨代謝学会  ( WEB開催 ) 2021.10 - 2023.10

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    Type:Competition, symposium, etc. 

    Number of participants:300

  • Screening of academic papers

    Role(s): Peer review

    2021

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    Type:Peer review 

    Number of peer-reviewed articles in foreign language journals:43

  • 国際科学研究費専門委員

    Role(s): Review, evaluation

    日本学術振興会  2020.6 - 2020.10

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    Type:Scientific advice/Review 

  • Screening of academic papers

    Role(s): Peer review

    2020

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    Type:Peer review 

    Number of peer-reviewed articles in foreign language journals:37

  • Cells International contribution

    2019.7 - 2021.7

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    Type:Academic society, research group, etc. 

  • 国際科学研究費専門委員

    Role(s): Review, evaluation

    日本学術振興会  2019.6 - 2019.11

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    Type:Scientific advice/Review 

  • H31基盤研究(S)研究進捗評価

    Role(s): Review, evaluation

    日本学術振興会  2019.4 - 2019.6

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    Type:Scientific advice/Review 

  • Screening of academic papers

    Role(s): Peer review

    2019

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    Type:Peer review 

    Number of peer-reviewed articles in foreign language journals:33

    Proceedings of domestic conference Number of peer-reviewed papers:1

  • 科研研究費審査員

    Role(s): Review, evaluation

    日本学術振興会  2018.10 - 2019.3

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    Type:Scientific advice/Review 

  • 準備委員長

    第60回歯科基礎医学会学術大会  ( 九州大学医学部百年講堂 ) 2018.9

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    Type:Competition, symposium, etc. 

    Number of participants:1,000

  • Journal of Bone and Mineral Metabolism International contribution

    Role(s): Peer review

    2018.4 - 2018.6

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    Type:Academic society, research group, etc. 

  • Screening of academic papers

    Role(s): Peer review

    2018

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    Type:Peer review 

    Number of peer-reviewed articles in foreign language journals:20

  • 科学研究費審査員

    Role(s): Review, evaluation

    日本学術振興会  2017.10 - 2018.3

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    Type:Scientific advice/Review 

  • Screening of academic papers

    Role(s): Peer review

    2017

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    Type:Peer review 

    Number of peer-reviewed articles in foreign language journals:19

  • Journal of Bone and Mineral Metabolism International contribution

    2010.4 - 2021.3

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    Type:Academic society, research group, etc. 

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Research Projects

  • 女性ホルモン欠乏によるNF-κB活性化機構と骨・エネルギー代謝制御の解明

    Grant number:24K02612  2024 - 2026

    日本学術振興会  科学研究費助成事業  基盤研究(B)

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    Authorship:Principal investigator  Grant type:Scientific research funding

  • 新規骨補填剤の機能解析

    2023.4 - 2025.4

    共同研究

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    Authorship:Collaborating Investigator(s) (not designated on Grant-in-Aid)  Grant type:Other funds from industry-academia collaboration

  • 超早期癌発見戦略に向けた変異細胞-隣接正常細胞-間質細胞における不安定性出現解明

    Grant number:23H03102  2023 - 2026

    日本学術振興会  科学研究費助成事業  基盤研究(B)

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    Authorship:Coinvestigator(s)  Grant type:Scientific research funding

  • 膜貫通型受容体ALK2の細胞内二量体の形成を制御する新規分子の探索

    Grant number:23K18343  2023 - 2024

    日本学術振興会  科学研究費助成事業  挑戦的研究(萌芽)

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    Authorship:Coinvestigator(s)  Grant type:Scientific research funding

  • 上皮系細胞による新たな骨代謝調節機構の解明

    Grant number:23K18363  2023 - 2024

    日本学術振興会  科学研究費助成事業  挑戦的研究(萌芽)

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    Authorship:Principal investigator  Grant type:Scientific research funding

  • 硬組織の形成と代謝に関する分子的制御機構の解明と応用に関する研究

    2021.2 - 2024.3

    共同研究

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    Authorship:Principal investigator  Grant type:Other funds from industry-academia collaboration

  • 閉経後の骨粗鬆症と体重増加を制御する本質的共通分子機構の解明と治療戦略への展開

    Grant number:21H03108  2021 - 2023

    日本学術振興会  科学研究費助成事業  基盤研究(B)

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    Authorship:Principal investigator  Grant type:Scientific research funding

  • 閉経後の骨粗鬆症と体重増加を制御する本質的共通分子機構の解明と治療戦略への展開

    Grant number:21H03108  2021 - 2023

    日本学術振興会  科学研究費助成事業  基盤研究(B)

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    Authorship:Principal investigator  Grant type:Scientific research funding

  • タンパク質脱アミド化の新たな制御機構の解明と口腔がん細胞を用いた機能解析

    Grant number:21K19609  2021 - 2022

    日本学術振興会  科学研究費助成事業  挑戦的研究(萌芽)

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    Authorship:Principal investigator  Grant type:Scientific research funding

  • 感情と免疫学的健康の新しいセンサーとしての骨の働き International coauthorship

    2020.4 - 2023.3

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    Authorship:Principal investigator 

    精神状態と骨代謝疾患の発症や進行との関連が報告されているが、これまで客観的に細胞・分子レベルで解析した研究は殆どない。D’Acquisto教授は、充実環境と社会的孤立という異なる環境下で飼育したマウスに細菌感染実験を行ったところ、充実環境で飼育したマウスは、免疫応答が向上し、社会的孤立では逆の効果を示すことを報告した。本国際共同研究では、充実環境と社会的孤立に代表される生活環境の違いによる精神状態の変化が骨代謝疾患の発症や進行に関与すること、両者の関連にNF-κBが関与すること、さらに精神状態を考慮に入れた新しい骨代謝疾患の予防法、治療法の選択や予後の予測に情報を提供することを目指す。

  • 感情と免疫学的健康の新しいセンサーとしての骨の働き

    Grant number:20KK0213  2020 - 2023

    日本学術振興会  科学研究費助成事業  国際共同研究強化(B)

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    Authorship:Principal investigator  Grant type:Scientific research funding

  • 肥満を引き起こす新たな組織・分子基盤の解明

    Grant number:18H02967  2018 - 2020

    日本学術振興会  科学研究費助成事業  基盤研究(B)

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    Authorship:Principal investigator  Grant type:Scientific research funding

  • Src-Casを中心とした骨吸収活性調節におけるKifファミリー分子の役割解明

    Grant number:18K09509  2018 - 2020

    日本学術振興会  科学研究費助成事業  基盤研究(C)

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    Authorship:Coinvestigator(s)  Grant type:Scientific research funding

  • 病的な骨形成調節機構の解明とその応用

    Grant number:17H04317  2017 - 2019

    日本学術振興会  科学研究費助成事業  基盤研究(B)

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    Authorship:Coinvestigator(s)  Grant type:Scientific research funding

  • 悪性黒色腫の上皮-間葉移行におけるBMPの役割と新規浸潤・転移モデルの確立

    Grant number:17K11622  2017 - 2019

    日本学術振興会  科学研究費助成事業  基盤研究(C)

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    Authorship:Coinvestigator(s)  Grant type:Scientific research funding

  • NSAIDsリポジショニングによるNF-κB阻害を介した歯髄炎治療法の開発

    Grant number:17K11706  2017 - 2019

    日本学術振興会  科学研究費助成事業  基盤研究(C)

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    Authorship:Coinvestigator(s)  Grant type:Scientific research funding

  • 口腔扁平上皮癌上皮間葉移行におけるp130 Casの役割と治療標的としての可能性

    Grant number:17K11884  2017 - 2019

    日本学術振興会  科学研究費助成事業  基盤研究(C)

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    Authorship:Coinvestigator(s)  Grant type:Scientific research funding

  • 副作用の少ない小児ステロイド性顎骨骨粗鬆症治療における骨吸収阻害薬の開発

    Grant number:17K11968  2017 - 2019

    日本学術振興会  科学研究費助成事業  基盤研究(C)

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    Authorship:Coinvestigator(s)  Grant type:Scientific research funding

  • 形づくりから分化を制御するp130Casの器官形成における共通性(コモナリティ)

    Grant number:17K19773  2017 - 2018

    科学研究費助成事業  挑戦的萌芽研究

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    Authorship:Principal investigator  Grant type:Scientific research funding

  • 埼玉医科大学FOP診療・研究プロジェクト

    2014.6 - 2018.6

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    Authorship:Coinvestigator(s) 

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Class subject

  • 口腔生化学4

    2024.12 - 2025.2   Winter quarter

  • 口腔生化学3

    2024.10 - 2024.12   Fall quarter

  • 口腔生化学2

    2024.6 - 2024.8   Summer quarter

  • 口腔生化学1

    2024.4 - 2024.6   Spring quarter

  • 口腔細胞工学(高年次)D

    2023.12 - 2024.2   Winter quarter

  • 口腔生化学4

    2023.12 - 2024.2   Winter quarter

  • 口腔細胞工学(低年次)D

    2023.12 - 2024.2   Winter quarter

  • 口腔細胞工学(コア)D

    2023.12 - 2024.2   Winter quarter

  • 口腔細胞工学(高年次)C

    2023.10 - 2023.12   Fall quarter

  • 口腔生化学3

    2023.10 - 2023.12   Fall quarter

  • 口腔細胞工学(低年次)C

    2023.10 - 2023.12   Fall quarter

  • 口腔細胞工学(コア)C

    2023.10 - 2023.12   Fall quarter

  • 口腔細胞工学(高年次)B

    2023.6 - 2023.8   Summer quarter

  • 口腔生化学2

    2023.6 - 2023.8   Summer quarter

  • 口腔細胞工学(低年次)B

    2023.6 - 2023.8   Summer quarter

  • 口腔細胞工学(コア)B

    2023.6 - 2023.8   Summer quarter

  • 口腔細胞工学(高年次)A

    2023.4 - 2023.6   Spring quarter

  • 口腔生化学1

    2023.4 - 2023.6   Spring quarter

  • 口腔細胞工学(低年次)A

    2023.4 - 2023.6   Spring quarter

  • 口腔細胞工学(コア)A

    2023.4 - 2023.6   Spring quarter

  • 口腔細胞工学(高年次)D

    2022.12 - 2023.2   Winter quarter

  • 口腔細胞工学(低年次)D

    2022.12 - 2023.2   Winter quarter

  • 口腔細胞工学(コア)D

    2022.12 - 2023.2   Winter quarter

  • 口腔生化学4

    2022.12 - 2023.2   Winter quarter

  • 口腔脳機能病態学(低年次) D

    2022.12 - 2023.2   Winter quarter

  • 口腔脳機能病態学(コア) D

    2022.12 - 2023.2   Winter quarter

  • 口腔細胞工学(コア) D

    2022.12 - 2023.2   Winter quarter

  • 口腔細胞工学(低年次) D

    2022.12 - 2023.2   Winter quarter

  • Oral,Brain and Total Health Science (Core) D

    2022.12 - 2023.2   Winter quarter

  • Molecular and Cellular Biochemistry (Lower-grade) D

    2022.12 - 2023.2   Winter quarter

  • Molecular and Cellular Biochemistry (Core) D

    2022.12 - 2023.2   Winter quarter

  • 口腔細胞工学(高年次)C

    2022.10 - 2022.12   Fall quarter

  • 口腔細胞工学(低年次)C

    2022.10 - 2022.12   Fall quarter

  • 口腔細胞工学(コア)C

    2022.10 - 2022.12   Fall quarter

  • 口腔生化学3

    2022.10 - 2022.12   Fall quarter

  • 口腔脳機能病態学(低年次) C

    2022.10 - 2022.12   Fall quarter

  • 口腔脳機能病態学(コア) C

    2022.10 - 2022.12   Fall quarter

  • 口腔細胞工学(コア) C

    2022.10 - 2022.12   Fall quarter

  • 口腔細胞工学(低年次) C

    2022.10 - 2022.12   Fall quarter

  • Oral,Brain and Total Health Science (Core) C

    2022.10 - 2022.12   Fall quarter

  • Molecular and Cellular Biochemistry (Lower-grade) C

    2022.10 - 2022.12   Fall quarter

  • Molecular and Cellular Biochemistry (Core) C

    2022.10 - 2022.12   Fall quarter

  • 口腔細胞工学(高年次)B

    2022.6 - 2022.8   Summer quarter

  • 口腔細胞工学(低年次)B

    2022.6 - 2022.8   Summer quarter

  • 口腔細胞工学(コア)B

    2022.6 - 2022.8   Summer quarter

  • 口腔生化学2

    2022.6 - 2022.8   Summer quarter

  • 口腔脳機能病態学(低年次) B

    2022.6 - 2022.8   Summer quarter

  • 口腔脳機能病態学(コア) B

    2022.6 - 2022.8   Summer quarter

  • 口腔細胞工学(コア) B

    2022.6 - 2022.8   Summer quarter

  • 口腔細胞工学(低年次) B

    2022.6 - 2022.8   Summer quarter

  • Oral,Brain and Total Health Science (Core) B

    2022.6 - 2022.8   Summer quarter

  • Molecular Cell Biology and Oral Anatomy (Lower-grade) B

    2022.6 - 2022.8   Summer quarter

  • Molecular Cell Biology and Oral Anatomy (Core) D

    2022.6 - 2022.8   Summer quarter

  • Molecular and Cellular Biochemistry (Lower-grade) B

    2022.6 - 2022.8   Summer quarter

  • Molecular and Cellular Biochemistry (Core) B

    2022.6 - 2022.8   Summer quarter

  • Biochemistry and Biology

    2022.4 - 2023.3   Full year

  • 口腔細胞工学(高年次)A

    2022.4 - 2022.6   Spring quarter

  • 口腔生化学1

    2022.4 - 2022.6   Spring quarter

  • 口腔細胞工学(低年次)A

    2022.4 - 2022.6   Spring quarter

  • 口腔細胞工学(コア)A

    2022.4 - 2022.6   Spring quarter

  • Molecular and Cellular Biochemistry (Core) A

    2022.4 - 2022.6   Spring quarter

  • 口腔脳機能病態学(低年次) A

    2022.4 - 2022.6   Spring quarter

  • 口腔脳機能病態学(コア) A

    2022.4 - 2022.6   Spring quarter

  • 口腔細胞工学(コア) A

    2022.4 - 2022.6   Spring quarter

  • 口腔細胞工学(低年次) A

    2022.4 - 2022.6   Spring quarter

  • Oral,Brain and Total Health Science (Core) A

    2022.4 - 2022.6   Spring quarter

  • Molecular Cell Biology and Oral Anatomy (Lower-grade) A

    2022.4 - 2022.6   Spring quarter

  • Molecular Cell Biology and Oral Anatomy (Core) C

    2022.4 - 2022.6   Spring quarter

  • Molecular and Cellular Biochemistry (Lower-grade) A

    2022.4 - 2022.6   Spring quarter

  • Molecular and Cellular Biochemistry (Lower-grade) D

    2021.12 - 2022.2   Winter quarter

  • Molecular and Cellular Biochemistry (Lower-grade) C

    2021.10 - 2021.12   Fall quarter

  • 口腔細胞工学(低年次) D

    2021.10 - 2021.12   Fall quarter

  • 口腔細胞工学(低年次) C

    2021.10 - 2021.12   Fall quarter

  • Molecular and Cellular Biochemistry (Lower-grade) B

    2021.6 - 2021.8   Summer quarter

  • 口腔細胞工学(低年次) B

    2021.6 - 2021.8   Summer quarter

  • 口腔生化学

    2021.4 - 2022.3   Full year

  • 口腔細胞工学

    2021.4 - 2022.3   Full year

  • Biochemistry and Biology

    2021.4 - 2022.3   Full year

  • Introduction to Oral Biological Research(口腔細胞工学)

    2021.4 - 2022.3   Full year

  • Integrated Dental Science(口腔細胞工学)

    2021.4 - 2022.3   Full year

  • 生化学・口腔生化学

    2021.4 - 2022.3   Full year

  • 歯学概論1

    2021.4 - 2021.9   First semester

  • Molecular and Cellular Biochemistry (Lower-grade) A

    2021.4 - 2021.6   Spring quarter

  • 口腔細胞工学(低年次) A

    2021.4 - 2021.6   Spring quarter

  • 口腔細胞工学

    2020.4 - 2021.3   Full year

  • 細胞生物学特論

    2020.4 - 2021.3   Full year

  • Biochemistry and Biology

    2020.4 - 2021.3   Full year

  • 口腔常態制御学特論(口腔細胞工学)

    2020.4 - 2021.3   Full year

  • 口腔生化学

    2020.4 - 2021.3   Full year

  • 口腔細胞工学演習

    2020.4 - 2021.3   Full year

  • 生化学・口腔生化学

    2020.4 - 2021.3   Full year

  • 細胞の仕組み

    2020.4 - 2021.3   Full year

  • 口腔細胞工学

    2020.4 - 2021.3   Full year

  • 歯学概論1

    2020.4 - 2020.9   First semester

  • 口腔生化学

    2019.4 - 2020.3   Full year

  • Biochemistry and Biology

    2019.4 - 2020.3   Full year

  • 口腔細胞工学

    2019.4 - 2020.3   Full year

  • 口腔細胞工学演習

    2019.4 - 2020.3   Full year

  • 生化学・口腔生化学

    2019.4 - 2020.3   Full year

  • 細胞の仕組み

    2019.4 - 2020.3   Full year

  • 口腔細胞工学

    2019.4 - 2020.3   Full year

  • 口腔常態制御学研究入門(口腔細胞工学)

    2018.4 - 2019.3   Full year

  • Biochemistry and Biology

    2018.4 - 2019.3   Full year

  • 細胞の仕組み

    2018.4 - 2019.3   Full year

  • 口腔細胞工学

    2018.4 - 2019.3   Full year

  • 口腔生化学

    2018.4 - 2019.3   Full year

  • 口腔細胞工学演習

    2018.4 - 2019.3   Full year

  • 生化学・口腔生化学

    2018.4 - 2019.3   Full year

  • Biochemistry and Biology

    2018.4 - 2018.9   First semester

  • 口腔生化学

    2017.10 - 2018.3   Second semester

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FD Participation

  • 2023.9   Role:Planning   Title:ハラスメントについて

    Organizer:[Undergraduate school/graduate school/graduate faculty]

  • 2023.6   Role:Planning   Title:科研費採択のためのFD

    Organizer:[Undergraduate school/graduate school/graduate faculty]

  • 2022.10   Role:Planning   Title:ゴミ廃棄について

    Organizer:[Undergraduate school/graduate school/graduate faculty]

  • 2022.5   Role:Planning   Title:科学研究費補助金採択率向上に向けて

    Organizer:[Undergraduate school/graduate school/graduate faculty]

  • 2018.5   Role:Participation   Title:臨床実習後臨床能力試験トライアルの実施に向けて

    Organizer:[Undergraduate school/graduate school/graduate faculty]

Visiting, concurrent, or part-time lecturers at other universities, institutions, etc.

  • 2024  昭和大学 歯学部  Classification:Part-time lecturer  Domestic/International Classification:Japan 

  • 2024  福岡医健・スポーツ専門学校  Classification:Part-time lecturer 

  • 2024  徳島大学歯学部  Classification:Part-time lecturer  Domestic/International Classification:Japan 

  • 2023  昭和大学 歯学部  Classification:Part-time lecturer  Domestic/International Classification:Japan 

  • 2023  福岡医健・スポーツ専門学校  Classification:Part-time lecturer 

  • 2023  徳島大学歯学部  Classification:Part-time lecturer  Domestic/International Classification:Japan 

  • 2022  徳島大学 歯学部  Classification:Part-time lecturer 

  • 2022  福岡医健・スポーツ専門学校  Classification:Part-time lecturer  Domestic/International Classification:Japan 

  • 2021  福岡医健・スポーツ専門学校  Classification:Part-time lecturer  Domestic/International Classification:Japan 

  • 2021  昭和大学 歯学部  Classification:Part-time lecturer 

  • 2020  福岡医健・スポーツ専門学校  Classification:Part-time lecturer  Domestic/International Classification:Japan 

  • 2020  昭和大学 歯学部  Classification:Part-time faculty 

  • 2020  北九州小倉看護専門学校 准看護師科  Classification:Part-time lecturer  Domestic/International Classification:Japan 

  • 2019  福岡医健・スポーツ専門学校  Classification:Part-time lecturer  Domestic/International Classification:Japan 

  • 2019  九州歯科大学 歯学部  Classification:Part-time faculty 

  • 2019  昭和大学 歯学部  Classification:Part-time faculty 

  • 2019  北九州小倉看護専門学校 准看護師科  Classification:Part-time lecturer  Domestic/International Classification:Japan 

  • 2018  九州歯科大学 特任教授  Classification:Part-time faculty  Domestic/International Classification:Japan 

  • 2018  昭和大学歯学部  Classification:Part-time faculty  Domestic/International Classification:Japan 

  • 2018  北九州市小倉看護専門学校 准看護師科  Classification:Part-time lecturer  Domestic/International Classification:Japan 

  • 2018  九州医療スポーツ専門学校  Classification:Part-time lecturer  Domestic/International Classification:Japan 

  • 2017  九州医療スポーツ専門学校  Classification:Part-time lecturer  Domestic/International Classification:Japan 

  • 2017  九州歯科大学 特任教授  Classification:Part-time faculty  Domestic/International Classification:Japan 

  • 2017  昭和大学歯学部  Classification:Part-time faculty  Domestic/International Classification:Japan 

  • 2017  北九州小倉看護専門学校准看護師科  Classification:Part-time lecturer  Domestic/International Classification:Japan 

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Other educational activity and Special note

  • 2024  Class Teacher 

  • 2023  Class Teacher 

  • 2023  Special Affairs 

  • 2022  Class Teacher 

  • 2021  Class Teacher 

  • 2020  Class Teacher 

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Outline of Social Contribution and International Cooperation activities

  • 九州臨床再生歯科研究会 会長 2019 3月まで
    九州大学歯学研究院 副研究院長 国際連携担当

Activities contributing to policy formation, academic promotion, etc.

  • 2023.4 - 2024.3   厚生労働省

    歯科医師国家試験 試験委員

  • 2022.4 - 2023.3   厚生労働省

    歯科医師国家試験 試験委員

  • 2021.4 - 2022.3   厚生労働省

    歯科医師国家試験 試験委員

  • 2020.4 - 2021.3   厚生労働省

    歯科医師国家試験 試験委員

Acceptance of Foreign Researchers, etc.

  • 歯学研究院 口腔細胞工学分野

    Acceptance period: 2022.4 - 2026.3  

    Nationality:China

  • 歯学研究院 口腔細胞工学分野

    Acceptance period: 2022.4  

    Nationality:China

  • 歯学研究院 口腔細胞工学分野

    Acceptance period: 2022.4  

    Nationality:China

  • 歯学研究院 口腔細胞工学分野

    Acceptance period: 2021.4 - 2024.3  

    Nationality:China

  • 歯学研究院 口腔細胞工学分野

    Acceptance period: 2021.1 - 2022.6  

    Nationality:China

  • 歯学研究院 口腔細胞工学分野

    Acceptance period: 2019.10 - 2023.9   (Period):1 month or more

    Nationality:China

    Business entity:Other

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Travel Abroad

  • 2023.2 - 2023.3

    Staying countory name 1:Indonesia   Staying institution name 1:Airlangga University

  • 2023.2

    Staying countory name 1:Korea, Republic of   Staying institution name 1:Pusan national University

  • 2011.11

    Staying countory name 1:China   Staying institution name 1:Beijing International Convention Center

  • 2011.2

    Staying countory name 1:Korea, Republic of   Staying institution name 1:Jukhyun Bio Auditorium, School of Life Science

  • 1998.10 - 2003.2

    Staying countory name 1:United States   Staying institution name 1:Division of Immunobiology, Yale University School of Medicine