病態システム解析医学分野
基本情報
- 所属
- 藤田医科大学 医療科学部 臨床教育連携ユニット 病態システム解析医学分野 医療准教授
- 学位
- 医学博士(山梨大学)医師免許死体解剖資格認定
- J-GLOBAL ID
- 200901046035768325
- researchmap会員ID
- 6000017924
- 外部リンク
経歴
7-
2024年4月 - 現在
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2018年10月 - 2024年3月
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2018年4月 - 2018年10月
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2016年9月 - 2018年3月
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2016年4月 - 2016年8月
学歴
3-
2003年4月 - 2008年3月
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1994年4月 - 2000年3月
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1991年4月 - 1994年3月
委員歴
6-
2020年10月 - 現在
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2014年5月 - 現在
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2021年8月 - 2022年8月
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2018年6月 - 2019年6月
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2018年8月 - 2018年8月
受賞
3論文
65-
Neurochemistry international 195 106141-106141 2026年3月5日 査読有りMultiple sclerosis (MS) is a common autoimmune demyelinating disease of the central nervous system (CNS). Although activation of the kynurenine (KYN) pathway has been observed in patients with MS, its pathological significance remains unclear. In this study, we investigated the role of the KYN pathway in MS using an experimental autoimmune encephalomyelitis (EAE) mouse model, a widely recognized animal model of MS. We found an increase in the expression of kynureninase (KYNU), a key enzyme in the KYN pathway that is specifically localized within monocytes in the spinal cord of EAE mice. This was accompanied by a significant accumulation of quinolinic acid (QUIN) in the spinal cord. Importantly, similar increases in KYNU expression and QUIN levels were observed in the spinal cord of proteolipid protein overexpressing mice (PLP-tg mice), another model of demyelination. Notably, KYNU knockout (KO) reduced EAE severity and monocyte recruitment to the spinal cord of EAE model mice. These findings suggest that the increase in KYNU expression and the subsequent accumulation of QUIN may contribute to the exacerbation of MS. Taken together, our results indicate that KYNU could be a novel therapeutic target for MS.
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Scientific reports 2026年3月1日 査読有り
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Scientific Reports 2025年11月 査読有り
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Disease models & mechanisms 17(5) 2024年5月1日 査読有りDiabetic nephropathy (DN), as a complication of diabetes, is a substantial healthcare challenge owing to the high risk of morbidity and mortality involved. Although significant progress has been made in understanding the pathogenesis of DN, more efficient models are required to develop new therapeutics. Here, we created a DN model in zebrafish by crossing diabetic Tg(acta1:dnIGF1R-EGFP) and proteinuria-tracing Tg(l-fabp::VDBP-GFP) lines, named zMIR/VDBP. Overfed adult zMIR/VDBP fish developed severe hyperglycemia and proteinuria, which were not observed in wild-type zebrafish. Renal histopathology revealed human DN-like characteristics, such as glomerular basement membrane thickening, foot process effacement and glomerular sclerosis. Glomerular dysfunction was restored upon calorie restriction. RNA sequencing analysis demonstrated that DN zebrafish kidneys exhibited transcriptional patterns similar to those seen in human DN pathogenesis. Notably, the phosphatidylinositol 3-kinase (PI3K)/protein kinase B (Akt) signaling pathway was activated, a phenomenon observed in the early phase of human DN. In addition, metformin improved hyperglycemia and proteinuria in DN zebrafish by modulating Akt phosphorylation. Our results indicate that zMIR/VDBP fish are suitable for elucidating the mechanisms underlying human DN and could be a powerful tool for therapeutic discovery.
MISC
39-
日本薬理学会年会要旨集 94 3-O-E2-2 2021年White matter abnormalities have been implicated in psychiatric diseases such as major depressive disorder (MDD) ; however, the underlying mechanisms remain poorly understood. The structure and function of the corpus callosum are particularly vulnerable to stress, which may lead to MDD. In the present study, we investigated whether chronic social defeat stress (CSDS) induces myelin abnormalities of the corpus callosum through inflammation that contributes to the pathogenesis of MDD. To produce CSDS, the adult C57BL/6J mouse was exposed to an aggressor ICR mouse for 10 consecutive days. CSDS decreased mature oligodendrocytes in the corpus callosum, and persistently developed depression-like behaviors such as increased immobility in the forced swimming test and impaired social interaction. On transmission electron microscopy, myelin abnormalities and axonal degeneration were observed with necrosis-like cell death of oligodendrocytes in the corpus callosum. Interestingly, CSDS significantly increased the Gasdermin D (Gsdmd), a marker of pyroptosis, concomitantly with enhanced IL-1β production in the corpus callosum. Administration of IL-1β inhibitor prevented the decrease of oligodendrocytes and CSDS-induced depression-like behaviors. These findings suggest that IL-1β acts as a crucial mediator of oligodendroglial pyroptosis induced by the CSDS, which may be responsible for the development of MDD.
書籍等出版物
10-
IntechOpen: Electron Microscopy - Novel Microscopy Trends 2018年9月
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In Vivo Cryotechnique in Biomedical Research and Application for Bioimaging of Living Animal Organs 2016年
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In Vivo Cryotechnique in Biomedical Research and Application for Bioimaging of Living Animal Organs 2016年
担当経験のある科目(授業)
5-
統合講義 (臨床解剖学, 人体発生学) (山梨大学 医学部)
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肉眼解剖学 (帝京科学大学)
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人体発生学 (藤田医科大学 医学部)
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組織学 (山梨大学 医学部, 藤田医科大学 医学部, 帝京科学大学)
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神経解剖学 (山梨大学 医学部)
所属学協会
7共同研究・競争的資金等の研究課題
6-
2023年 - 2025年
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日本学術振興会 科学研究費助成事業 基盤研究(C) 2020年4月 - 2023年3月
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科研費 基盤(C) (分担) 2018年4月 - 2020年3月
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科研費 基盤(C) 2016年4月 - 2020年3月
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科研費 若手研究(B) 2013年4月 - 2014年3月