Your search keyword '"Yu Miyamoto"' showing total 5 results

1. Single-cell transcriptomics of human cholesteatoma identifies an activin A-producing osteoclastogenic fibroblast subset inducing bone destruction

Author

Kotaro Shimizu, Junichi Kikuta, Yumi Ohta, Yutaka Uchida, Yu Miyamoto, Akito Morimoto, Shinya Yari, Takashi Sato, Takefumi Kamakura, Kazuo Oshima, Ryusuke Imai, Yu-Chen Liu, Daisuke Okuzaki, Tetsuya Hara, Daisuke Motooka, Noriaki Emoto, Hidenori Inohara, and Masaru Ishii

Subjects

Science

Abstract

Abstract Cholesteatoma, which potentially results from tympanic membrane retraction, is characterized by intractable local bone erosion and subsequent hearing loss and brain abscess formation. However, the pathophysiological mechanisms underlying bone destruction remain elusive. Here, we performed a single-cell RNA sequencing analysis on human cholesteatoma samples and identify a pathogenic fibroblast subset characterized by abundant expression of inhibin βA. We demonstrate that activin A, a homodimer of inhibin βA, promotes osteoclast differentiation. Furthermore, the deletion of inhibin βA /activin A in these fibroblasts results in decreased osteoclast differentiation in a murine model of cholesteatoma. Moreover, follistatin, an antagonist of activin A, reduces osteoclastogenesis and resultant bone erosion in cholesteatoma. Collectively, these findings indicate that unique activin A-producing fibroblasts present in human cholesteatoma tissues are accountable for bone destruction via the induction of local osteoclastogenesis, suggesting a potential therapeutic target.

Published

2023

2. JAK inhibition ameliorates bone destruction by simultaneously targeting mature osteoclasts and their precursors

Author

Shinya Yari, Junichi Kikuta, Hotaka Shigyo, Yu Miyamoto, Daisuke Okuzaki, Yuki Furusawa, Masafumi Minoshima, Kazuya Kikuchi, and Masaru Ishii

Subjects

JAK inhibitor, Osteoclast, Intravital imaging, Inflammatory bone destruction, Cell migration, Chemokine, Pathology, RB1-214

Abstract

Abstract Background Rheumatoid arthritis (RA) is characterized by chronic inflammation and resultant cartilage/bone destruction because of aberrantly activated osteoclasts. Recently, novel treatments with several Janus kinase (JAK) inhibitors have been shown to successfully ameliorate arthritis-related inflammation and bone erosion, although their mechanisms of action for limiting bone destruction remain unclear. Here, we examined the effects of a JAK inhibitor on mature osteoclasts and their precursors by intravital multiphoton imaging. Methods Inflammatory bone destruction was induced by local injection of lipopolysaccharides into transgenic mice carrying reporters for mature osteoclasts or their precursors. Mice were treated with the JAK inhibitor, ABT-317, which selectively inhibits the activation of JAK1, and then subjected to intravital imaging with multiphoton microscopy. We also used RNA sequencing (RNA-Seq) analysis to investigate the molecular mechanism underlying the effects of the JAK inhibitor on osteoclasts. Results The JAK inhibitor, ABT-317, suppressed bone resorption by blocking the function of mature osteoclasts and by targeting the migratory behaviors of osteoclast precursors to the bone surface. Further exhaustive RNA-Seq analysis demonstrated that Ccr1 expression on osteoclast precursors was suppressed in the JAK inhibitor-treated mice; the CCR1 antagonist, J-113863, altered the migratory behaviors of osteoclast precursors, which led to the inhibition of bone destruction under inflammatory conditions. Conclusions This is the first study to determine the pharmacological actions by which a JAK inhibitor blocks bone destruction under inflammatory conditions; this inhibition is beneficial because of its dual effects on both mature osteoclasts and immature osteoclast precursors.

Published

2023

3. In vivo induction of activin A-producing alveolar macrophages supports the progression of lung cell carcinoma

Author

Seiji Taniguchi, Takahiro Matsui, Kenji Kimura, Soichiro Funaki, Yu Miyamoto, Yutaka Uchida, Takao Sudo, Junichi Kikuta, Tetsuya Hara, Daisuke Motooka, Yu-Chen Liu, Daisuke Okuzaki, Eiichi Morii, Noriaki Emoto, Yasushi Shintani, and Masaru Ishii

Subjects

Science

Abstract

Alveolar macrophages represent a cell type that is physiologic to the lung immune landscape, however, it is not known whether they play an active role to maintain the tumour immune microenvironment. Here authors show by single cell RNA sequencing and functional experiments, that intra-tumour alveolar macrophages are phenotypically and transcriptionally different from the healthy ones, and likely play an aetio-pathologic role in tumorigenesis.

Published

2023

4. Generation and reactions of thiirenium ions by the Cation Pool method

Author

Akihiro Shimizu, Shun Horiuchi, Ryutaro Hayashi, Kouichi Matsumoto, Yu Miyamoto, Yusuke Morisawa, Tomonari Wakabayashi, and Jun-ichi Yoshida

Subjects

Organic chemistry, QD241-441

Published

2017

5. Preparation of self-supporting Au thin films on perforated substrate by releasing from water-soluble sacrificial layer.

Author

Yu Miyamoto, Yuma Fujii, Masafumi Yamano, Toru Harigai, Yoshiyuki Suda, Hirofumi Takikawa, Takeshi Kawano, Mamiko Nishiuchi, Hironao Sakaki, and Kiminori Kondo

Abstract

A self-supporting thin film is useful as a target material for laser-driven ion acceleration experiments. In this study, 100-nm-thick sputtered gold (Au) thin films were released from substrates using water-soluble sacrificial layers, and the released films were subsequently scooped up on perforated substrates. Au thin films were deposited by DC plasma sputtering on the sacrificial layers. In the releasing test, sodium chloride (NaCl) was shown to be most suitable as a sacrificial layer for Au thin films. In addition, sputtered Au thin films with thicknesses of 50 and 150 nm were deposited onto NaCl sacrificial layers, released on water, and scooped up on perforated substrates. Self-supporting Au thin films were obtained for all film thicknesses, but wrinkles and cracks appeared in the 50 nm film. [ABSTRACT FROM AUTHOR]

Published

2016