Faculty of Veterinary Science

道下 正貴

ミチシタ マサキ  (Masaki Michishita)

基本情報

所属
日本獣医生命科学大学 獣医学部 准教授
学位
博士(獣医学)(東京大学)

J-GLOBAL ID
201501014744797435
researchmap会員ID
B000250308

外部リンク

委員歴

 3

受賞

 1

論文

 154
  • Yuyo Yasumura, Takahiro Teshima, Tomokazu Nagashima, Masaki Michishita, Yoshiaki Taira, Ryohei Suzuki, Hirotaka Matsumoto
    Frontiers in Veterinary Science 11 2024年8月8日  査読有り
    Introduction The therapeutic efficacy of mesenchymal stromal cells (MSCs) in inflammatory bowel disease is not completely known and is not consistent. Priming with inflammatory cytokines has been proposed to adapt MSCs to an inflammatory environment to have them ready to counteract it, but may have undesirable effects on MSCs, such as increased immunogenicity. In this study, we hypothesized that priming MSCs with inflamed intestinal tissue would more effectively enhance their therapeutic effect on intestinal inflammation. Methods The capacity of canine adipose-derived MSCs (cADSCs) primed with colon tissue homogenates from mice with experimentally induced colitis or a combination of tumor necrosis factor-α and interferon-γ to inhibit T-cell proliferation was analyzed, along with their own apoptosis, proliferation, cell surface marker expression, and transcriptome. In addition, colitis mice were treated with the primed cADSCs to assess colitis severity and immune cell profile. Results Priming with cytokines induced apoptosis, decreased cell proliferation, and major histocompatibility complex-II gene expression in cADSCs, but these adverse effects were mild or absent with colitis-tissue priming. cADSCs primed with colitis tissue reduced the severity of colitis via the induction of M2 macrophages and T-regulatory cells and suppression of T-helper (Th)1/Th17-cell responses, and their effects were comparable to those of cytokine-primed cells. Discussion Our results emphasize the importance of the activation of MSCs by the appropriate microenvironment to maximize their therapeutic effect.
  • Tomokazu Nagashima, Shohei Tsumoto, Daisuke Yazawa, Miki Omura, Kazuhiko Ochiai, Karin Yoshida, Kayoko Sugibayashi, Yukino Machida, Ryoichi Suzuki, Koh Igarashi, Koichi Makimura, Yasushi Hara, Masaki Michishita
    Journal of comparative pathology 213 73-77 2024年8月  査読有り責任著者
    A 10-year-old spayed mixed breed dog presented with severe neurological signs. Computed tomography revealed a cranial mediastinal mass, osteolysis of the right second rib and second thoracic vertebra, tracheobronchial and mesenteric lymph node enlargement, pneumonia and pleural effusion. Magnetic resonance imaging detected lesions in the white matter of the right frontal lobe and left cerebral hemisphere with contrast-enhanced T1-weighted images showing demarcated enhancement. On cut section, the surface of the right cerebral frontal lobe and left cerebral hemisphere corticomedullary junctions were indistinct and the white matter was discoloured. Microscopically, multicentric granulomatous inflammation was seen in the brain, cranial mediastinal mass, masses on the right second rib, tracheobronchial and mesenteric lymph nodes, heart, kidneys, lungs and oesophagus. Necrosis and hyaline fungal structures were frequently observed in the centre of the granulomas. These fungi had septae, Y-shaped branching and were 2-3 μm in width. Sequence analysis of DNA from formalin-fixed paraffin-embedded samples identified the fungi as Schizophyllum commune. Based on these findings, this case was diagnosed as disseminated S. commune infection. This is the first report of granulomatous encephalitis caused by S. commune in a dog.
  • Ichiro Yamamoto, Masaki Michishita, Koki Fujita, Tamami Sakai, Noriyasu Sasaki, Koh Kawasumi
    General and comparative endocrinology 353 114520-114520 2024年4月18日  査読有り
    G protein-coupled receptor 84 (GPR84) was cloned as an orphan receptor, and medium-chain fatty acids were then revealed as endogenous ligands. GPR84 is expressed in immune cells and is believed to protect liver function from lipotoxicity caused by overeating and high-fat diet intake. This study aimed to present the molecular characterization of GPR84 in domestic cats. The deduced amino acid sequence of the feline GPR84 shows high sequence homology (83-89 %) with the orthologues from other mammalians by cDNA cloning of feline GPR84. Remarkably high mRNA expression was observed in the bone marrow by Q-PCR analysis. The inhibition of intracellular cAMP concentration was observed in cells transfected with feline GPR84 and treated with medium-chain fatty acids. Immunostaining of GPR84 and free fatty acid receptor 2 (FFAR2)/GPR43 in the bone marrow, where high mRNA expression was observed, showed reactions in macrophages and myeloid cells. To clarify whether the receptor formed homo/hetero-merization, GPR84 and FFARs were analyzed using Nano-Luc binary technology and NanoLuc bioluminescence resonance energy transfer technologies, which revealed that GPR84 formed more heteromers with FFAR2 than homomers with each other. In addition, when GPR84 and FFAR2/GPR43 were cotransfected in the cell, their localization on the cell membrane was reduced compared with that when single receptors were transfected. These results indicated that GPR84 is a functional receptor protein that is expressed in cat tissues and may have a protein-protein interaction with FFAR2/GPR43 on the cell membrane.
  • Tomokazu Nagashima, Masanori Kobayashi, Yoshiaki Kubo, Katsuya Nagaho, Kayoko Sugibayashi, Takahiro Saito, Yukino Machida, Masaki Michishita
    Journal of Comparative Pathology 210 8-14 2024年4月  査読有り責任著者
  • Yoshihiko Yu, Tadashi Miyamoto, Yui Kimura, Kazuhito Itamoto, Masaki Michishita, Hitoshi Hatakeyama, Tomokazu Nagashima, Rikako Asada, Tomomi Yamaguchi, Daisuke Hasegawa, Yoshihiro Nomura, Leslie A Lyons, Tomoki Kosho
    The Canadian veterinary journal = La revue veterinaire canadienne 65(3) 227-233 2024年3月  査読有り
    A stray cat, an intact female Japanese domestic shorthair cat of unknown age (suspected to be a young adult), was rescued. The cat was lethargic and thin and had marked skin fragility, delayed wound healing without skin hyperextensibility, and hind limb proprioceptive ataxia and paresis. Survey radiography, computed tomography, and magnetic resonance imaging revealed congenital vertebral anomalies, including thoracolumbar transitional vertebrae, scoliosis resulting from a thoracic lateral wedge-shaped vertebra, and a kinked tail, and a dilated spinal cord central canal. Through nutritional support, the cat's general condition normalized, followed by a gradual and complete improvement of skin features. Whole-genome sequencing was completed; however, no pathogenic genetic variant was identified that could have caused this phenotype, including congenital scoliosis. A skin biopsy obtained 7 y after the rescue revealed no remarkable findings on histopathology or transmission electron microscopy. Based on clinical course and microscopic findings, malnutrition-induced reversible feline skin fragility syndrome (FSFS) was suspected, and nutritional support was considered to have improved the skin condition. Key clinical message: This is the second reported case of presumed malnutrition-induced reversible FSFS and was accompanied by long-term follow-up.

MISC

 39

書籍等出版物

 1

講演・口頭発表等

 44

担当経験のある科目(授業)

 2

共同研究・競争的資金等の研究課題

 11