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Light modulates plant-derived extracellular vesicle properties: a photosensitive-responsive nanodelivery system.

作者信息

Lu Yu, Zhang Wenyu, Zeng Peiyuan, He Yuqian, Hua Xiaolu, Liu Yan, Wu Jianbo

机构信息

Basic Medicine Research Innovation Center for Cardiometabolic Diseases, Ministry of Education, Southwest Medical University, Luzhou, 646000, Sichuan, People's Republic of China.

Laboratory for Cardiovascular Pharmacology, Department of Pharmacology, School of Pharmacy, Southwest Medical University, Luzhou, 646000, People's Republic of China.

出版信息

Discov Nano. 2025 May 21;20(1):86. doi: 10.1186/s11671-025-04266-y.

DOI:10.1186/s11671-025-04266-y
PMID:40397325
Abstract

Plant-derived extracellular vesicles (PDEVs) have emerged as innovative nanocarriers for drug delivery, offering advantages such as biocompatibility, stability, and cost-effectiveness. This study explores light-mediated strategies to optimize cargo encapsulation into PDEVs while preserving structural integrity. Leveraging the intrinsic photosensitizing properties of PDEVs, light irradiation (LED) triggered reactive oxygen species (ROS) generation, including superoxide anions and singlet oxygen, which transiently enhanced membrane permeability for controlled drug loading. Using FITC-dextran (70 kDa) as a model cargo, we optimized light-induced loading efficiency, achieving a peak (~ 80%) at 10 min of irradiation. Prolonged exposure (15 min) reduced efficiency (~ 50%), likely due to excessive ROS-induced membrane destabilization. The optimal PDEVs-to-cargo ratio (1:30) ensured maximal loading while maintaining stability over 30 days. Lipid peroxidation analysis further confirmed ROS-induced membrane modifications through malondialdehyde (MDA) accumulation. These findings demonstrate that PLDENs (Pueraria lobate-derived exosomes-like nanovesicles) function as light-responsive nanocarriers, balancing ROS-mediated permeability enhancement with structural integrity. This light-triggered strategy balances permeability modulation and structural integrity, advancing PDEVs as scalable, non-invasive platforms for precision drug delivery and photodynamic applications.

摘要

相似文献

[1]
Light modulates plant-derived extracellular vesicle properties: a photosensitive-responsive nanodelivery system.

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本文引用的文献

[1]
Synergistic effect of ROS-generating polydopamine on drug-induced bone tissue regeneration.

Nanoscale. 2024-11-7

[2]
Emerging Drug Delivery Vectors: Engineering of Plant-Derived Nanovesicles and Their Applications in Biomedicine.

Int J Nanomedicine. 2024

[3]
Edible pueraria lobata-derived exosome-like nanovesicles ameliorate dextran sulfate sodium-induced colitis associated lung inflammation through modulating macrophage polarization.

Biomed Pharmacother. 2024-1

[4]
Plant-Derived Vesicles: A New Era for Anti-Cancer Drug Delivery and Cancer Treatment.

Int J Nanomedicine. 2023

[5]
Plant exosome nanovesicles (PENs): green delivery platforms.

Mater Horiz. 2023-10-2

[6]
Nanostructured chitosan-polyphenolic patch for remote NIR-photothermal controlled dermal drug delivery.

Int J Biol Macromol. 2023-6-30

[7]
Edible -Derived Exosomes Promote M2 Macrophage Polarization.

Molecules. 2022-11-24

[8]
Extracellular vesicles as a next-generation drug delivery platform.

Nat Nanotechnol. 2021-7

[9]
Engineering exosomes for targeted drug delivery.

Theranostics. 2021

[10]
Extracellular vesicles-based drug delivery systems for cancer immunotherapy.

J Control Release. 2020-12-10

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