Single-cell bioluminescence imaging of deep tissue in freely moving animals

Satoshi Iwano; Mayu Sugiyama; Hiroshi Hama; Akiya Watakabe; Naomi Hasegawa; Takahiro Kuchimaru; Kazumasa Z. Tanaka; Megumu Takahashi; Yoko Ishida; Junichi Hata; Satoshi Shimozono; Kana Namiki; Takashi Fukano; Masahiro Kiyama; Hideyuki Okano; Shinae Kizaka-Kondoh; Thomas J. McHugh; Tetsuo Yamamori; Hiroyuki Hioki; Shojiro Maki; Atsushi Miyawaki

doi:10.1126/science.aaq1067

Single-cell bioluminescence imaging of deep tissue in freely moving animals

Satoshi Iwano, Mayu Sugiyama, Hiroshi Hama, Akiya Watakabe, Naomi Hasegawa, Takahiro Kuchimaru, Kazumasa Z. Tanaka, Megumu Takahashi, Yoko Ishida, Junichi Hata, Satoshi Shimozono, Kana Namiki, Takashi Fukano, Masahiro Kiyama, Hideyuki Okano, Shinae Kizaka-Kondoh, Thomas J. McHugh, Tetsuo Yamamori, Hiroyuki Hioki, Shojiro MakiAtsushi Miyawaki

Research output: Contribution to journal › Article › peer-review

249 Citations (Scopus)

Abstract

Bioluminescence is a natural light source based on luciferase catalysis of its substrate luciferin. We performed directed evolution on firefly luciferase using a red-shifted and highly deliverable luciferin analog to establish AkaBLI, an all-engineered bioluminescence in vivo imaging system. AkaBLI produced emissions in vivo that were brighter by a factor of 100 to 1000 than conventional systems, allowing noninvasive visualization of single cells deep inside freely moving animals. Single tumorigenic cells trapped in the mouse lung vasculature could be visualized. In the mouse brain, genetic labeling with neural activity sensors allowed tracking of small clusters of hippocampal neurons activated by novel environments. In a marmoset, we recorded video-rate bioluminescence from neurons in the striatum, a deep brain area, for more than 1 year. AkaBLI is therefore a bioengineered light source to spur unprecedented scientific, medical, and industrial applications.

Original language	English
Pages (from-to)	935-939
Number of pages	5
Journal	Science
Volume	359
Issue number	6378
DOIs	https://doi.org/10.1126/science.aaq1067
Publication status	Published - 2018 Feb 23
Externally published	Yes

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Iwano, S., Sugiyama, M., Hama, H., Watakabe, A., Hasegawa, N., Kuchimaru, T., Tanaka, K. Z., Takahashi, M., Ishida, Y., Hata, J., Shimozono, S., Namiki, K., Fukano, T., Kiyama, M., Okano, H., Kizaka-Kondoh, S., McHugh, T. J., Yamamori, T., Hioki, H., ... Miyawaki, A. (2018). Single-cell bioluminescence imaging of deep tissue in freely moving animals. Science, 359(6378), 935-939. https://doi.org/10.1126/science.aaq1067

Iwano, S, Sugiyama, M, Hama, H, Watakabe, A, Hasegawa, N, Kuchimaru, T, Tanaka, KZ, Takahashi, M, Ishida, Y, Hata, J, Shimozono, S, Namiki, K, Fukano, T, Kiyama, M, Okano, H, Kizaka-Kondoh, S, McHugh, TJ, Yamamori, T, Hioki, H, Maki, S & Miyawaki, A 2018, 'Single-cell bioluminescence imaging of deep tissue in freely moving animals', Science, vol. 359, no. 6378, pp. 935-939. https://doi.org/10.1126/science.aaq1067

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title = "Single-cell bioluminescence imaging of deep tissue in freely moving animals",

abstract = "Bioluminescence is a natural light source based on luciferase catalysis of its substrate luciferin. We performed directed evolution on firefly luciferase using a red-shifted and highly deliverable luciferin analog to establish AkaBLI, an all-engineered bioluminescence in vivo imaging system. AkaBLI produced emissions in vivo that were brighter by a factor of 100 to 1000 than conventional systems, allowing noninvasive visualization of single cells deep inside freely moving animals. Single tumorigenic cells trapped in the mouse lung vasculature could be visualized. In the mouse brain, genetic labeling with neural activity sensors allowed tracking of small clusters of hippocampal neurons activated by novel environments. In a marmoset, we recorded video-rate bioluminescence from neurons in the striatum, a deep brain area, for more than 1 year. AkaBLI is therefore a bioengineered light source to spur unprecedented scientific, medical, and industrial applications.",

author = "Satoshi Iwano and Mayu Sugiyama and Hiroshi Hama and Akiya Watakabe and Naomi Hasegawa and Takahiro Kuchimaru and Tanaka, {Kazumasa Z.} and Megumu Takahashi and Yoko Ishida and Junichi Hata and Satoshi Shimozono and Kana Namiki and Takashi Fukano and Masahiro Kiyama and Hideyuki Okano and Shinae Kizaka-Kondoh and McHugh, {Thomas J.} and Tetsuo Yamamori and Hiroyuki Hioki and Shojiro Maki and Atsushi Miyawaki",

note = "Funding Information: This work was supported in part by grants from the Japan Ministry of Education, Culture, Sports, Science, and Technology Grant-in-Aid for Scientific Research on Innovative Areas: Resonance Bio (15H05948 to A.M; 16H01426 to H. Hioki); Scientific Research (16H04663 to H. Hioki); Exploratory Research (17K19451 to H. Hioki; 24650633 to S.M.); Adaptive, Seamless Technology Transfer Program through target-driven R&D JST (AS2614119N to S.M); and the Brain Mapping by Integrated Neurotechnologies for Disease Studies (Brain/MINDS) and Japan Agency for Medical Research and Development-Core Research for Evolutional Science and Technology (AMED-CREST), the Uehara Memorial Foundation, and Special Postdoctoral Researchers Program from RIKEN (S.I.). Publisher Copyright: {\textcopyright} 2017 The Authors.",

year = "2018",

month = feb,

day = "23",

doi = "10.1126/science.aaq1067",

language = "English",

volume = "359",

pages = "935--939",

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T1 - Single-cell bioluminescence imaging of deep tissue in freely moving animals

AU - Iwano, Satoshi

AU - Sugiyama, Mayu

AU - Hama, Hiroshi

AU - Watakabe, Akiya

AU - Hasegawa, Naomi

AU - Kuchimaru, Takahiro

AU - Tanaka, Kazumasa Z.

AU - Takahashi, Megumu

AU - Ishida, Yoko

AU - Hata, Junichi

AU - Shimozono, Satoshi

AU - Namiki, Kana

AU - Fukano, Takashi

AU - Kiyama, Masahiro

AU - Okano, Hideyuki

AU - Kizaka-Kondoh, Shinae

AU - McHugh, Thomas J.

AU - Yamamori, Tetsuo

AU - Hioki, Hiroyuki

AU - Maki, Shojiro

AU - Miyawaki, Atsushi

N1 - Funding Information: This work was supported in part by grants from the Japan Ministry of Education, Culture, Sports, Science, and Technology Grant-in-Aid for Scientific Research on Innovative Areas: Resonance Bio (15H05948 to A.M; 16H01426 to H. Hioki); Scientific Research (16H04663 to H. Hioki); Exploratory Research (17K19451 to H. Hioki; 24650633 to S.M.); Adaptive, Seamless Technology Transfer Program through target-driven R&D JST (AS2614119N to S.M); and the Brain Mapping by Integrated Neurotechnologies for Disease Studies (Brain/MINDS) and Japan Agency for Medical Research and Development-Core Research for Evolutional Science and Technology (AMED-CREST), the Uehara Memorial Foundation, and Special Postdoctoral Researchers Program from RIKEN (S.I.). Publisher Copyright: © 2017 The Authors.

PY - 2018/2/23

Y1 - 2018/2/23

N2 - Bioluminescence is a natural light source based on luciferase catalysis of its substrate luciferin. We performed directed evolution on firefly luciferase using a red-shifted and highly deliverable luciferin analog to establish AkaBLI, an all-engineered bioluminescence in vivo imaging system. AkaBLI produced emissions in vivo that were brighter by a factor of 100 to 1000 than conventional systems, allowing noninvasive visualization of single cells deep inside freely moving animals. Single tumorigenic cells trapped in the mouse lung vasculature could be visualized. In the mouse brain, genetic labeling with neural activity sensors allowed tracking of small clusters of hippocampal neurons activated by novel environments. In a marmoset, we recorded video-rate bioluminescence from neurons in the striatum, a deep brain area, for more than 1 year. AkaBLI is therefore a bioengineered light source to spur unprecedented scientific, medical, and industrial applications.

AB - Bioluminescence is a natural light source based on luciferase catalysis of its substrate luciferin. We performed directed evolution on firefly luciferase using a red-shifted and highly deliverable luciferin analog to establish AkaBLI, an all-engineered bioluminescence in vivo imaging system. AkaBLI produced emissions in vivo that were brighter by a factor of 100 to 1000 than conventional systems, allowing noninvasive visualization of single cells deep inside freely moving animals. Single tumorigenic cells trapped in the mouse lung vasculature could be visualized. In the mouse brain, genetic labeling with neural activity sensors allowed tracking of small clusters of hippocampal neurons activated by novel environments. In a marmoset, we recorded video-rate bioluminescence from neurons in the striatum, a deep brain area, for more than 1 year. AkaBLI is therefore a bioengineered light source to spur unprecedented scientific, medical, and industrial applications.

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Single-cell bioluminescence imaging of deep tissue in freely moving animals

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