AVID mouse: A versatile platform for real-time, multiscale ATP imaging and spatial systems metabolism analysis in living mice

Yuichiro Ohnishi; Daiki Setoyama; Hideki Miwa; Norimichi Koitabashi; Riki Ogasawara; Seri Kitada; Naoki Matoba; Takahito Ayano; Kaoru Hiramoto; Ryuto Yasui; Yuki Sugiura; Takahisa Anada; Kosuke Ino; Hinako Matsuda; Takahiro Noma; Shigenori Nonaka; Takashi Izumi; Masahiko Kurabayashi; Makoto Suematsu; Yuya Kunisaki; Motoko Yanagita; Hiromi Imamura; Masamichi Yamamoto

doi:10.1016/j.celrep.2025.116246

AVID mouse: A versatile platform for real-time, multiscale ATP imaging and spatial systems metabolism analysis in living mice

Yuichiro Ohnishi
, Daiki Setoyama
, Hideki Miwa
, Norimichi Koitabashi
, Riki Ogasawara
, Seri Kitada
, Naoki Matoba
, Takahito Ayano
, Kaoru Hiramoto
, Ryuto Yasui
, Yuki Sugiura
, Takahisa Anada
, Kosuke Ino
, Hinako Matsuda
, Takahiro Noma
, Shigenori Nonaka
, Takashi Izumi
, Masahiko Kurabayashi
, Makoto Suematsu
, Yuya Kunisaki

Motoko Yanagita, Hiromi Imamura, Masamichi Yamamoto

研究成果: ジャーナルへの寄稿 › 学術誌 › 査読

抄録

We developed the AVID (ATP visualization in vivo directly) mouse, a genetically encoded biosensor mouse enabling real-time, multiscale imaging of ATP dynamics across the whole body, organs, and cellular compartments in living animals. AVID revealed previously undetectable localized ATP depletion near the central vein of the liver after myocardial infarction, spatially linked to kynurenic acid accumulation—a phenomenon invisible to conventional bulk metabolomics. By seamlessly integrating macroscopic organ-level imaging with microscopic spatial metabolomics, AVID establishes a new framework for spatial systems metabolism. Beyond myocardial infarction, this platform offers broad applicability to study organ-organ metabolic communication, spatial metabolic heterogeneity, and localized metabolic shifts across diverse physiological and pathological contexts, providing a transformative resource for metabolic research.

本文言語	英語
論文番号	116246
ジャーナル	Cell Reports
巻	44
号	9
DOI	https://doi.org/10.1016/j.celrep.2025.116246
出版ステータス	出版済み - 9月 23 2025

!!!All Science Journal Classification (ASJC) codes

生化学、遺伝学、分子生物学一般

文献へのアクセス

10.1016/j.celrep.2025.116246

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引用スタイル

Ohnishi, Y., Setoyama, D., Miwa, H., Koitabashi, N., Ogasawara, R., Kitada, S., Matoba, N., Ayano, T., Hiramoto, K., Yasui, R., Sugiura, Y., Anada, T., Ino, K., Matsuda, H., Noma, T., Nonaka, S., Izumi, T., Kurabayashi, M., Suematsu, M., ... Yamamoto, M. (2025). AVID mouse: A versatile platform for real-time, multiscale ATP imaging and spatial systems metabolism analysis in living mice. Cell Reports, 44(9), 記事 116246. https://doi.org/10.1016/j.celrep.2025.116246

Ohnishi, Y, Setoyama, D, Miwa, H, Koitabashi, N, Ogasawara, R, Kitada, S, Matoba, N, Ayano, T, Hiramoto, K, Yasui, R, Sugiura, Y, Anada, T, Ino, K, Matsuda, H, Noma, T, Nonaka, S, Izumi, T, Kurabayashi, M, Suematsu, M, Kunisaki, Y, Yanagita, M, Imamura, H & Yamamoto, M 2025, 'AVID mouse: A versatile platform for real-time, multiscale ATP imaging and spatial systems metabolism analysis in living mice', Cell Reports, vol. 44, no. 9, 116246. https://doi.org/10.1016/j.celrep.2025.116246

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abstract = "We developed the AVID (ATP visualization in vivo directly) mouse, a genetically encoded biosensor mouse enabling real-time, multiscale imaging of ATP dynamics across the whole body, organs, and cellular compartments in living animals. AVID revealed previously undetectable localized ATP depletion near the central vein of the liver after myocardial infarction, spatially linked to kynurenic acid accumulation—a phenomenon invisible to conventional bulk metabolomics. By seamlessly integrating macroscopic organ-level imaging with microscopic spatial metabolomics, AVID establishes a new framework for spatial systems metabolism. Beyond myocardial infarction, this platform offers broad applicability to study organ-organ metabolic communication, spatial metabolic heterogeneity, and localized metabolic shifts across diverse physiological and pathological contexts, providing a transformative resource for metabolic research.",

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author = "Yuichiro Ohnishi and Daiki Setoyama and Hideki Miwa and Norimichi Koitabashi and Riki Ogasawara and Seri Kitada and Naoki Matoba and Takahito Ayano and Kaoru Hiramoto and Ryuto Yasui and Yuki Sugiura and Takahisa Anada and Kosuke Ino and Hinako Matsuda and Takahiro Noma and Shigenori Nonaka and Takashi Izumi and Masahiko Kurabayashi and Makoto Suematsu and Yuya Kunisaki and Motoko Yanagita and Hiromi Imamura and Masamichi Yamamoto",

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AU - Miwa, Hideki

AU - Koitabashi, Norimichi

AU - Ogasawara, Riki

AU - Kitada, Seri

AU - Matoba, Naoki

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AU - Hiramoto, Kaoru

AU - Yasui, Ryuto

AU - Sugiura, Yuki

AU - Anada, Takahisa

AU - Ino, Kosuke

AU - Matsuda, Hinako

AU - Noma, Takahiro

AU - Nonaka, Shigenori

AU - Izumi, Takashi

AU - Kurabayashi, Masahiko

AU - Suematsu, Makoto

AU - Kunisaki, Yuya

AU - Yanagita, Motoko

AU - Imamura, Hiromi

AU - Yamamoto, Masamichi

PY - 2025/9/23

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KW - multiscale imaging

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KW - organ-organ interaction

KW - spatial systems metabolism

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