BODIPY Derivatives for Photodynamic Therapy: Influence of Configuration versus Heavy Atom Effect

Jianhua Zou; Zhihui Yin; Kaikai Ding; Qianyun Tang; Jiewei Li; Weili Si; Jinjun Shao; Qi Zhang; Wei Huang; Xiaochen Dong

doi:10.1021/acsami.7b07569

BODIPY Derivatives for Photodynamic Therapy: Influence of Configuration versus Heavy Atom Effect

Jianhua Zou, Zhihui Yin, Kaikai Ding, Qianyun Tang, Jiewei Li, Weili Si, Jinjun Shao, Qi Zhang, Wei Huang, Xiaochen Dong

Nanjing Tech University

科研成果: 期刊稿件 › 文章 › 同行评审

220 引用（Scopus）

摘要

Heavy atom effect and configuration are important for BODIPY derivatives to generate singlet oxygen (¹O₂) for photodynamic therapy. Herein, a series of BODIPY derivatives with different halogens were synthesized. ¹O₂ quantum yields (QYs) and MTT assay confirm that incorporation of more heavy atoms onto dimeric BODIPY cannot effectively enhance the ¹O₂ QYs. Rather, the dark toxicity increases. This phenomenon can be attributed to the competition of heavy atom effect and configuration of dimeric BODIPY. In addition the BODIPY derivative with two iodine atoms (BDPI) owns the highest ¹O₂ QYs (73%) and the lowest phototoxicity IC₅₀ (1 μM). Furthermore, an in vivo study demonstrates that BDPI NPs can effectively inhibit tumor growth and can be used as a promising threanostic agent for photodynamic therapy in clinic.

源语言	英语
页（从-至）	32475-32481
页数	7
期刊	ACS Applied Materials and Interfaces
卷	9
期	38
DOI	https://doi.org/10.1021/acsami.7b07569
出版状态	已出版 - 27 9月 2017

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title = "BODIPY Derivatives for Photodynamic Therapy: Influence of Configuration versus Heavy Atom Effect",

abstract = "Heavy atom effect and configuration are important for BODIPY derivatives to generate singlet oxygen (1O2) for photodynamic therapy. Herein, a series of BODIPY derivatives with different halogens were synthesized. 1O2 quantum yields (QYs) and MTT assay confirm that incorporation of more heavy atoms onto dimeric BODIPY cannot effectively enhance the 1O2 QYs. Rather, the dark toxicity increases. This phenomenon can be attributed to the competition of heavy atom effect and configuration of dimeric BODIPY. In addition the BODIPY derivative with two iodine atoms (BDPI) owns the highest 1O2 QYs (73%) and the lowest phototoxicity IC50 (1 μM). Furthermore, an in vivo study demonstrates that BDPI NPs can effectively inhibit tumor growth and can be used as a promising threanostic agent for photodynamic therapy in clinic.",

keywords = "BODIPY, Hela, configuration, heavy atom effect, photodynamic therapy",

author = "Jianhua Zou and Zhihui Yin and Kaikai Ding and Qianyun Tang and Jiewei Li and Weili Si and Jinjun Shao and Qi Zhang and Wei Huang and Xiaochen Dong",

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doi = "10.1021/acsami.7b07569",

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T1 - BODIPY Derivatives for Photodynamic Therapy

T2 - Influence of Configuration versus Heavy Atom Effect

AU - Zou, Jianhua

AU - Yin, Zhihui

AU - Ding, Kaikai

AU - Tang, Qianyun

AU - Li, Jiewei

AU - Si, Weili

AU - Shao, Jinjun

AU - Zhang, Qi

AU - Huang, Wei

AU - Dong, Xiaochen

PY - 2017/9/27

Y1 - 2017/9/27

N2 - Heavy atom effect and configuration are important for BODIPY derivatives to generate singlet oxygen (1O2) for photodynamic therapy. Herein, a series of BODIPY derivatives with different halogens were synthesized. 1O2 quantum yields (QYs) and MTT assay confirm that incorporation of more heavy atoms onto dimeric BODIPY cannot effectively enhance the 1O2 QYs. Rather, the dark toxicity increases. This phenomenon can be attributed to the competition of heavy atom effect and configuration of dimeric BODIPY. In addition the BODIPY derivative with two iodine atoms (BDPI) owns the highest 1O2 QYs (73%) and the lowest phototoxicity IC50 (1 μM). Furthermore, an in vivo study demonstrates that BDPI NPs can effectively inhibit tumor growth and can be used as a promising threanostic agent for photodynamic therapy in clinic.

AB - Heavy atom effect and configuration are important for BODIPY derivatives to generate singlet oxygen (1O2) for photodynamic therapy. Herein, a series of BODIPY derivatives with different halogens were synthesized. 1O2 quantum yields (QYs) and MTT assay confirm that incorporation of more heavy atoms onto dimeric BODIPY cannot effectively enhance the 1O2 QYs. Rather, the dark toxicity increases. This phenomenon can be attributed to the competition of heavy atom effect and configuration of dimeric BODIPY. In addition the BODIPY derivative with two iodine atoms (BDPI) owns the highest 1O2 QYs (73%) and the lowest phototoxicity IC50 (1 μM). Furthermore, an in vivo study demonstrates that BDPI NPs can effectively inhibit tumor growth and can be used as a promising threanostic agent for photodynamic therapy in clinic.

KW - BODIPY

KW - Hela

KW - configuration

KW - heavy atom effect

KW - photodynamic therapy

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SN - 1944-8244

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JO - ACS Applied Materials and Interfaces

JF - ACS Applied Materials and Interfaces

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ER -

BODIPY Derivatives for Photodynamic Therapy: Influence of Configuration versus Heavy Atom Effect

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