A photosensitive sustainable lignin nanoplatform for multimodal image-guided mitochondria-targeted photodynamic and photothermal therapy

A photosensitive sustainable lignin nanoplatform for multimodal image-guided mitochondria-targeted photodynamic and photothermal therapy

Photoactivated nanocarriers exhibit significant potential for anticancer therapy, but complex design strategies, unsustainable substrates, and short wavelengths limit their practical application. Here, we designed a new lignin-derived photoactivated nanomaterial that exploits the sensitivity of the...

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Veröffentlicht in:Materials today chemistry 2022-12, Vol.26 (1), p.101000, Article 101000
Hauptverfasser: Liu, X., Li, M., Li, X., Ge, M., Liu, S., Li, S., Li, J., Ding, J., Ragauskas, A.J., Sun, W., James, T.D., Chen, Z.
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INORGANIC, ORGANIC, PHYSICAL, AND ANALYTICAL CHEMISTRY
Multimodal imaging
Photodynamic and photothermal synergistic therapy
Photosensitive lignin nanoplatform
Reactive oxygen species
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container_issue 1
container_start_page 101000
container_title Materials today chemistry
container_volume 26
creator Liu, X.
Li, M.
Li, X.
Ge, M.
Liu, S.
Li, S.
Li, J.
Ding, J.
Ragauskas, A.J.
Sun, W.
James, T.D.
Chen, Z.
description Photoactivated nanocarriers exhibit significant potential for anticancer therapy, but complex design strategies, unsustainable substrates, and short wavelengths limit their practical application. Here, we designed a new lignin-derived photoactivated nanomaterial that exploits the sensitivity of the β-O-4 bond of lignin to singlet oxygen. This sustainable product was loaded with mitochondria-targeting chlorin e6 and black phosphorus quantum dots (BPQDs) to produce BPQDs@N-LgC NPs, which were used for mitochondria-targeted fluorescence/photoacoustic-guided photothermal and photodynamic therapy. When irradiated at 808 nm, the BPQDs in BPQDs@N-LgC NPs exhibited good photothermal conversion, which allowed photoacoustic imaging and inhibited tumor growth. When irradiated at 660 nm, the BPQDs@N-LgC NPs generated fluorescence and reactive oxygen species, which allowed photoluminescence imaging and further inhibited tumor growth. Cleavage of the β-O-4 bond of lignin by photo-triggered reactive oxygen species degraded the NPs and released the BPQDs, facilitating rapid excretion of the therapeutic nanomaterials. Our rationally designed BPQDs@N-LgC NPs exhibited good therapeutic efficacy, both in vitro and invivo. [Display omitted] •N-LgC was established as a light-sensitive lignin platform for phototherapy.•N-LgC capable of mitochondria-targeting multi-modal imaging.•N-LgC facilitates multifunctional photodynamic and photothermal therapy.
doi_str_mv 10.1016/j.mtchem.2022.101000
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When irradiated at 660 nm, the BPQDs@N-LgC NPs generated fluorescence and reactive oxygen species, which allowed photoluminescence imaging and further inhibited tumor growth. Cleavage of the β-O-4 bond of lignin by photo-triggered reactive oxygen species degraded the NPs and released the BPQDs, facilitating rapid excretion of the therapeutic nanomaterials. Our rationally designed BPQDs@N-LgC NPs exhibited good therapeutic efficacy, both in vitro and invivo. 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subjects INORGANIC, ORGANIC, PHYSICAL, AND ANALYTICAL CHEMISTRY
Multimodal imaging
Photodynamic and photothermal synergistic therapy
Photosensitive lignin nanoplatform
Reactive oxygen species
title A photosensitive sustainable lignin nanoplatform for multimodal image-guided mitochondria-targeted photodynamic and photothermal therapy
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