An Activatable Phototheranostic Probe for Anti‐hypoxic Type I Photodynamic‐ and Immuno‐Therapy of Cancer

An Activatable Phototheranostic Probe for Anti‐hypoxic Type I Photodynamic‐ and Immuno‐Therapy of Cancer

Photodynamic therapy (PDT), which utilizes type I photoreactions, has great potential as an effective cancer treatment because of its hypoxia‐tolerant superiority over the commonly used type II pathway. A few type I photosensitizers are exploited; however, they majorly induce cytotoxicity and posses...

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Veröffentlicht in:Advanced materials (Weinheim) 2024-01, Vol.36 (4), p.e2305243-n/a
Hauptverfasser: Zhao, Min, Zhang, Yuyang, Miao, Jia, Zhou, Hui, Jiang, Yue, Zhang, Yuan, Miao, Minqian, Chen, Wan, Xing, Wei, Li, Qing, Miao, Qingqing
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Sprache:eng
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activatable theranostics
aminopeptidase N
Animals
Cancer
Cancer therapies
Cell Line, Tumor
Hypoxia
Immunotherapy
Mice
Neoplasms - diagnostic imaging
Neoplasms - drug therapy
Photochemotherapy - methods
Photosensitizing Agents - pharmacology
Photosensitizing Agents - therapeutic use
Substrates
type I photosensitizer
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container_issue 4
container_start_page e2305243
container_title Advanced materials (Weinheim)
container_volume 36
creator Zhao, Min
Zhang, Yuyang
Miao, Jia
Zhou, Hui
Jiang, Yue
Zhang, Yuan
Miao, Minqian
Chen, Wan
Xing, Wei
Li, Qing
Miao, Qingqing
description Photodynamic therapy (PDT), which utilizes type I photoreactions, has great potential as an effective cancer treatment because of its hypoxia‐tolerant superiority over the commonly used type II pathway. A few type I photosensitizers are exploited; however, they majorly induce cytotoxicity and possess poor tumor specificity and low‐efficient theranostics. To resolve this issue, herein an aminopeptidase N (APN)‐activated type I phototheranostic probe (CyA) is reported for anti‐hypoxic PDT in conjunction with immunotherapy for effective cancer treatment. CyA can specifically activate near‐infrared fluorescence, photoacoustic signals, and phototoxicity following APN‐induced substrate cleavage and the subsequent generation of active phototheranostic molecules (such as CyBr). CyA endows specific imaging capabilities and effective phototoxicity toward tumor cells overexpressing APN under both normoxia and hypoxia. In addition, the locally activatable PDT induces systemic antitumor immune responses. More importantly, the integration of localized activated PDT and systemic immunotherapy evokes enhanced therapeutic effects with improved tumor inhibition efficiency in live mice compared with individual treatments. This study aims to present an activatable phototheranostic probe for effective hypoxia‐tolerant PDT and combination therapy. A phototheranostic probe (CyA) is designed with APN‐activated fluorophotoacoustic signal‐guided type‐I PDT immunotherapy for effective tumor treatment. CyA not only shows potent anti‐hypoxic phototoxicity against tumor cells but also elicits an apparent antitumor immune response. A stronger antitumor effect is achieved using CyA‐mediated type I PDT in combination with immunotherapy.
doi_str_mv 10.1002/adma.202305243
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More importantly, the integration of localized activated PDT and systemic immunotherapy evokes enhanced therapeutic effects with improved tumor inhibition efficiency in live mice compared with individual treatments. This study aims to present an activatable phototheranostic probe for effective hypoxia‐tolerant PDT and combination therapy. A phototheranostic probe (CyA) is designed with APN‐activated fluorophotoacoustic signal‐guided type‐I PDT immunotherapy for effective tumor treatment. CyA not only shows potent anti‐hypoxic phototoxicity against tumor cells but also elicits an apparent antitumor immune response. 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A few type I photosensitizers are exploited; however, they majorly induce cytotoxicity and possess poor tumor specificity and low‐efficient theranostics. To resolve this issue, herein an aminopeptidase N (APN)‐activated type I phototheranostic probe (CyA) is reported for anti‐hypoxic PDT in conjunction with immunotherapy for effective cancer treatment. CyA can specifically activate near‐infrared fluorescence, photoacoustic signals, and phototoxicity following APN‐induced substrate cleavage and the subsequent generation of active phototheranostic molecules (such as CyBr). CyA endows specific imaging capabilities and effective phototoxicity toward tumor cells overexpressing APN under both normoxia and hypoxia. In addition, the locally activatable PDT induces systemic antitumor immune responses. 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subjects activatable theranostics
aminopeptidase N
Animals
Cancer
Cancer therapies
Cell Line, Tumor
Hypoxia
Immunotherapy
Mice
Neoplasms - diagnostic imaging
Neoplasms - drug therapy
Photochemotherapy - methods
Photosensitizing Agents - pharmacology
Photosensitizing Agents - therapeutic use
Substrates
type I photosensitizer
title An Activatable Phototheranostic Probe for Anti‐hypoxic Type I Photodynamic‐ and Immuno‐Therapy of Cancer
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