Revisiting PFA-mediated tissue fixation chemistry: FixEL enables trapping of small molecules in the brain to visualize their distribution changes

Hiroshi Nonaka; Takeharu Mino; Seiji Sakamoto; Jae Hoon Oh; Yu Watanabe; Mamoru Ishikawa; Akihiro Tsushima; Kazuma Amaike; Shigeki Kiyonaka; Tomonori Tamura; A. Radu Aricescu; Wataru Kakegawa; Eriko Miura; Michisuke Yuzaki; Itaru Hamachi

doi:10.1016/j.chempr.2022.11.005

Revisiting PFA-mediated tissue fixation chemistry: FixEL enables trapping of small molecules in the brain to visualize their distribution changes

Hiroshi Nonaka, Takeharu Mino, Seiji Sakamoto, Jae Hoon Oh, Yu Watanabe, Mamoru Ishikawa, Akihiro Tsushima, Kazuma Amaike, Shigeki Kiyonaka, Tomonori Tamura, A. Radu Aricescu, Wataru Kakegawa, Eriko Miura, Michisuke Yuzaki, Itaru Hamachi

生理学

研究成果: Article › 査読

3 被引用数 (Scopus)

抄録

Various small molecules have been used as functional probes for tissue imaging in medical diagnosis and pharmaceutical drugs for disease treatment. The spatial distribution, target selectivity, and diffusion/excretion kinetics of small molecules in structurally complicated specimens are critical for function. However, robust methods for precisely evaluating these parameters in the brain have been limited. Herein, we report a new method termed “fixation-driven chemical cross-linking of exogenous ligands (FixEL),” which traps and images exogenously administered molecules of interest (MOIs) in complex tissues. This method relies on protein-MOI interactions and chemical cross-linking of amine-tethered MOI with paraformaldehyde used for perfusion fixation. FixEL is used to obtain images of the distribution of the small molecules, which addresses selective/nonselective binding to proteins, time-dependent localization changes, and diffusion/retention kinetics of MOIs such as the scaffold of PET tracer derivatives or drug-like small molecules.

本文言語	English
ページ（範囲）	523-540
ページ数	18
ジャーナル	Chem
巻	9
号	2
DOI	https://doi.org/10.1016/j.chempr.2022.11.005
出版ステータス	Published - 2023 2月 9

ASJC Scopus subject areas

化学 (全般)
生化学
環境化学
化学工学（全般）
生化学、医学
材料化学

文献へのアクセス

10.1016/j.chempr.2022.11.005

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引用スタイル

Nonaka, H., Mino, T., Sakamoto, S., Oh, J. H., Watanabe, Y., Ishikawa, M., Tsushima, A., Amaike, K., Kiyonaka, S., Tamura, T., Radu Aricescu, A., Kakegawa, W., Miura, E., Yuzaki, M., & Hamachi, I. (2023). Revisiting PFA-mediated tissue fixation chemistry: FixEL enables trapping of small molecules in the brain to visualize their distribution changes. Chem, 9(2), 523-540. https://doi.org/10.1016/j.chempr.2022.11.005

Nonaka, H, Mino, T, Sakamoto, S, Oh, JH, Watanabe, Y, Ishikawa, M, Tsushima, A, Amaike, K, Kiyonaka, S, Tamura, T, Radu Aricescu, A, Kakegawa, W, Miura, E, Yuzaki, M & Hamachi, I 2023, 'Revisiting PFA-mediated tissue fixation chemistry: FixEL enables trapping of small molecules in the brain to visualize their distribution changes', Chem, vol. 9, no. 2, pp. 523-540. https://doi.org/10.1016/j.chempr.2022.11.005

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title = "Revisiting PFA-mediated tissue fixation chemistry: FixEL enables trapping of small molecules in the brain to visualize their distribution changes",

abstract = "Various small molecules have been used as functional probes for tissue imaging in medical diagnosis and pharmaceutical drugs for disease treatment. The spatial distribution, target selectivity, and diffusion/excretion kinetics of small molecules in structurally complicated specimens are critical for function. However, robust methods for precisely evaluating these parameters in the brain have been limited. Herein, we report a new method termed “fixation-driven chemical cross-linking of exogenous ligands (FixEL),” which traps and images exogenously administered molecules of interest (MOIs) in complex tissues. This method relies on protein-MOI interactions and chemical cross-linking of amine-tethered MOI with paraformaldehyde used for perfusion fixation. FixEL is used to obtain images of the distribution of the small molecules, which addresses selective/nonselective binding to proteins, time-dependent localization changes, and diffusion/retention kinetics of MOIs such as the scaffold of PET tracer derivatives or drug-like small molecules.",

keywords = "SDG3: Good health and well-being, diffusion kinetics in brain, drug distribution, drug target engagement, hydrogel-tissue chemistry, ligand-protein interaction, molecular imaging, nanobody, neurotransmitter receptors",

author = "Hiroshi Nonaka and Takeharu Mino and Seiji Sakamoto and Oh, {Jae Hoon} and Yu Watanabe and Mamoru Ishikawa and Akihiro Tsushima and Kazuma Amaike and Shigeki Kiyonaka and Tomonori Tamura and {Radu Aricescu}, A. and Wataru Kakegawa and Eriko Miura and Michisuke Yuzaki and Itaru Hamachi",

note = "Funding Information: The authors thank Dr. Lei Wang and Dr. Muneo Tsujikawa for organic synthesis and technical support of biological experiments. The authors also thank Ashleigh Cooper, PhD, from Edanz ( https://jp.edanz.com/ac ) for editing a draft of this manuscript. This work was supported by the Japan Science and Technology Agency (JST) ERATO grant no. JPMJER1802 and by a Grant-in-Aid for Scientific Research on Innovative Areas “Chemistry for Multimolecular Crowding Biosystems” (JSPS KAKENHI grant no. 17H06348 ) to I.H. This work was partially supported by JST, the establishment of university fellowships toward the creation of science technology innovation, grant no. JPMJFS2123 to T.M and a Grant-in-Aid for Scientific Research on Innovative Areas “Integrated Bio-metal Science” ( 19H05764 ) to T.T. Publisher Copyright: {\textcopyright} 2022 The Authors",

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doi = "10.1016/j.chempr.2022.11.005",

language = "English",

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T1 - Revisiting PFA-mediated tissue fixation chemistry

T2 - FixEL enables trapping of small molecules in the brain to visualize their distribution changes

AU - Nonaka, Hiroshi

AU - Mino, Takeharu

AU - Sakamoto, Seiji

AU - Oh, Jae Hoon

AU - Watanabe, Yu

AU - Ishikawa, Mamoru

AU - Tsushima, Akihiro

AU - Amaike, Kazuma

AU - Kiyonaka, Shigeki

AU - Tamura, Tomonori

AU - Radu Aricescu, A.

AU - Kakegawa, Wataru

AU - Miura, Eriko

AU - Yuzaki, Michisuke

AU - Hamachi, Itaru

N1 - Funding Information: The authors thank Dr. Lei Wang and Dr. Muneo Tsujikawa for organic synthesis and technical support of biological experiments. The authors also thank Ashleigh Cooper, PhD, from Edanz ( https://jp.edanz.com/ac ) for editing a draft of this manuscript. This work was supported by the Japan Science and Technology Agency (JST) ERATO grant no. JPMJER1802 and by a Grant-in-Aid for Scientific Research on Innovative Areas “Chemistry for Multimolecular Crowding Biosystems” (JSPS KAKENHI grant no. 17H06348 ) to I.H. This work was partially supported by JST, the establishment of university fellowships toward the creation of science technology innovation, grant no. JPMJFS2123 to T.M and a Grant-in-Aid for Scientific Research on Innovative Areas “Integrated Bio-metal Science” ( 19H05764 ) to T.T. Publisher Copyright: © 2022 The Authors

PY - 2023/2/9

Y1 - 2023/2/9

N2 - Various small molecules have been used as functional probes for tissue imaging in medical diagnosis and pharmaceutical drugs for disease treatment. The spatial distribution, target selectivity, and diffusion/excretion kinetics of small molecules in structurally complicated specimens are critical for function. However, robust methods for precisely evaluating these parameters in the brain have been limited. Herein, we report a new method termed “fixation-driven chemical cross-linking of exogenous ligands (FixEL),” which traps and images exogenously administered molecules of interest (MOIs) in complex tissues. This method relies on protein-MOI interactions and chemical cross-linking of amine-tethered MOI with paraformaldehyde used for perfusion fixation. FixEL is used to obtain images of the distribution of the small molecules, which addresses selective/nonselective binding to proteins, time-dependent localization changes, and diffusion/retention kinetics of MOIs such as the scaffold of PET tracer derivatives or drug-like small molecules.

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KW - SDG3: Good health and well-being

KW - diffusion kinetics in brain

KW - drug distribution

KW - drug target engagement

KW - hydrogel-tissue chemistry

KW - ligand-protein interaction

KW - molecular imaging

KW - nanobody

KW - neurotransmitter receptors

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DO - 10.1016/j.chempr.2022.11.005

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