Albumin-chaperoned cyanine dye yields superbright NIR-II fluorophore with enhanced pharmacokinetics

Rui Tian; Qiao Zeng; Shoujun Zhu; Joseph Lau; Swati Chandra; Robert Ertsey; Kenneth S. Hettie; Tarn Teraphongphom; Zhubin Hu; Gang Niu; Dale O. Kiesewetter; Haitao Sun; Xiaodong Zhang; Alexander L. Antaris; Bernard R. Brooks; Xiaoyuan Chen

doi:10.1126/sciadv.aaw0672

Albumin-chaperoned cyanine dye yields superbright NIR-II fluorophore with enhanced pharmacokinetics

Rui Tian
, Qiao Zeng
, Shoujun Zhu^*
, Joseph Lau
, Swati Chandra
, Robert Ertsey
, Kenneth S. Hettie
, Tarn Teraphongphom
, Zhubin Hu
, Gang Niu
, Dale O. Kiesewetter
, Haitao Sun
, Xiaodong Zhang
, Alexander L. Antaris
, Bernard R. Brooks
, Xiaoyuan Chen

^*此作品的通讯作者

精密光谱科学与技术高等研究院

National Institutes of Health
Jilin University
Stanford University
East China Normal University
Tianjin University
Intuitive Surgical

科研成果: 期刊稿件 › 文章 › 同行评审

250 引用（Scopus）

摘要

NIR-II fluorescence imaging greatly reduces scattering coefficients for nearly all tissue types at long wavelengths, benefiting deep tissue imaging. However, most of the NIR-II fluorophores suffer from low quantum yields and/or short circulation time that limit the quality of NIR-II imaging. Here, we engineered a supramolecular assembly of protein complex with lodged cyanine dyes to produce a brilliant NIR-II fluorophore, providing a NIR-II quantum yield of 21.2% with prolonged circulation time. Computational modeling revealed the mechanism for fluorescence enhancement and identified key parameters governing albumin complex for NIR-II fluorophores. Our complex afforded high-resolution microvessel imaging, with a 3-hour imaging window compared to 2 min for free dye alone. Furthermore, the complexation strategy was applied to an antibody-derived assembly, offering high-contrast tumor imaging without affecting the targeting ability of the antibody. This study provides a facile strategy for producing high-performance NIR-II fluorophores by chaperoning cyanine dyes with functional proteins.

源语言	英语
文章编号	aaw0672
期刊	Science Advances
卷	5
期	9
DOI	https://doi.org/10.1126/sciadv.aaw0672
出版状态	已出版 - 13 9月 2019

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Tian, R., Zeng, Q., Zhu, S., Lau, J., Chandra, S., Ertsey, R., Hettie, K. S., Teraphongphom, T., Hu, Z., Niu, G., Kiesewetter, D. O., Sun, H., Zhang, X., Antaris, A. L., Brooks, B. R., & Chen, X. (2019). Albumin-chaperoned cyanine dye yields superbright NIR-II fluorophore with enhanced pharmacokinetics. Science Advances, 5(9), 文章 aaw0672. https://doi.org/10.1126/sciadv.aaw0672

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title = "Albumin-chaperoned cyanine dye yields superbright NIR-II fluorophore with enhanced pharmacokinetics",

abstract = "NIR-II fluorescence imaging greatly reduces scattering coefficients for nearly all tissue types at long wavelengths, benefiting deep tissue imaging. However, most of the NIR-II fluorophores suffer from low quantum yields and/or short circulation time that limit the quality of NIR-II imaging. Here, we engineered a supramolecular assembly of protein complex with lodged cyanine dyes to produce a brilliant NIR-II fluorophore, providing a NIR-II quantum yield of 21.2\% with prolonged circulation time. Computational modeling revealed the mechanism for fluorescence enhancement and identified key parameters governing albumin complex for NIR-II fluorophores. Our complex afforded high-resolution microvessel imaging, with a 3-hour imaging window compared to 2 min for free dye alone. Furthermore, the complexation strategy was applied to an antibody-derived assembly, offering high-contrast tumor imaging without affecting the targeting ability of the antibody. This study provides a facile strategy for producing high-performance NIR-II fluorophores by chaperoning cyanine dyes with functional proteins.",

author = "Rui Tian and Qiao Zeng and Shoujun Zhu and Joseph Lau and Swati Chandra and Robert Ertsey and Hettie, \{Kenneth S.\} and Tarn Teraphongphom and Zhubin Hu and Gang Niu and Kiesewetter, \{Dale O.\} and Haitao Sun and Xiaodong Zhang and Antaris, \{Alexander L.\} and Brooks, \{Bernard R.\} and Xiaoyuan Chen",

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doi = "10.1126/sciadv.aaw0672",

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AU - Tian, Rui

AU - Zeng, Qiao

AU - Zhu, Shoujun

AU - Lau, Joseph

AU - Chandra, Swati

AU - Ertsey, Robert

AU - Hettie, Kenneth S.

AU - Teraphongphom, Tarn

AU - Hu, Zhubin

AU - Niu, Gang

AU - Kiesewetter, Dale O.

AU - Sun, Haitao

AU - Zhang, Xiaodong

AU - Antaris, Alexander L.

AU - Brooks, Bernard R.

AU - Chen, Xiaoyuan

PY - 2019/9/13

Y1 - 2019/9/13

N2 - NIR-II fluorescence imaging greatly reduces scattering coefficients for nearly all tissue types at long wavelengths, benefiting deep tissue imaging. However, most of the NIR-II fluorophores suffer from low quantum yields and/or short circulation time that limit the quality of NIR-II imaging. Here, we engineered a supramolecular assembly of protein complex with lodged cyanine dyes to produce a brilliant NIR-II fluorophore, providing a NIR-II quantum yield of 21.2% with prolonged circulation time. Computational modeling revealed the mechanism for fluorescence enhancement and identified key parameters governing albumin complex for NIR-II fluorophores. Our complex afforded high-resolution microvessel imaging, with a 3-hour imaging window compared to 2 min for free dye alone. Furthermore, the complexation strategy was applied to an antibody-derived assembly, offering high-contrast tumor imaging without affecting the targeting ability of the antibody. This study provides a facile strategy for producing high-performance NIR-II fluorophores by chaperoning cyanine dyes with functional proteins.

AB - NIR-II fluorescence imaging greatly reduces scattering coefficients for nearly all tissue types at long wavelengths, benefiting deep tissue imaging. However, most of the NIR-II fluorophores suffer from low quantum yields and/or short circulation time that limit the quality of NIR-II imaging. Here, we engineered a supramolecular assembly of protein complex with lodged cyanine dyes to produce a brilliant NIR-II fluorophore, providing a NIR-II quantum yield of 21.2% with prolonged circulation time. Computational modeling revealed the mechanism for fluorescence enhancement and identified key parameters governing albumin complex for NIR-II fluorophores. Our complex afforded high-resolution microvessel imaging, with a 3-hour imaging window compared to 2 min for free dye alone. Furthermore, the complexation strategy was applied to an antibody-derived assembly, offering high-contrast tumor imaging without affecting the targeting ability of the antibody. This study provides a facile strategy for producing high-performance NIR-II fluorophores by chaperoning cyanine dyes with functional proteins.

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SN - 2375-2548

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JO - Science Advances

JF - Science Advances

IS - 9

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Albumin-chaperoned cyanine dye yields superbright NIR-II fluorophore with enhanced pharmacokinetics

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