生物相容性
体内
光热治疗
细胞毒性
药物输送
癌症研究
透皮
化学
吲哚青绿
体外
赫拉
光动力疗法
毒品携带者
药品
细胞
小泡
生物医学工程
联合疗法
人体皮肤
癌细胞
纳米医学
体内分布
皮肤癌
材料科学
药理学
细胞疗法
肽
表阿霉素
癌症治疗
作者
Jun Wang,Yunfeng Dai,Yidan Xu,Chenxi Fang,Ai‐Hua Li,Junfang Ke,Yinshu Han,Meitao Duan,Jungang Ren,Chen Wang
标识
DOI:10.1002/adhm.202504711
摘要
Cutaneous squamous cell carcinoma (CSCC) presents significant treatment challenges due to chemotherapy-associated toxicity, drug resistance, and poor tumor permeability. Here, we developed a synergistic chemo-photothermal therapy (PTT) platform using octa-arginine (O-Arg) modified Pueraria lobata-derived vesicles (Arg-PDVs) co-loaded with palbociclib (Pab) and indocyanine green (ICG), integrated into dissolving microneedles (MNs) for localized CSCC treatment. Arg-PDVs were prepared via differential centrifugation, functionalized with a cell-penetrating peptide O-Arg, and characterized for physicochemical properties, demonstrating enhanced tissue penetration. Pab and ICG were efficiently encapsulated into Arg-PDVs (APPI) and loaded into optimized MNs with sufficient mechanical strength for transdermal delivery. In vitro studies revealed superior cellular uptake, photothermal conversion efficiency, and cytotoxicity against CSCC cells. In vivo evaluation in a CSCC tumor model showed that APPI-MNs achieved synergistic tumor inhibition (92.96% ± 3.84%), significantly surpassing chemotherapy-alone (54.17% ± 4.57%) or PTT-alone (75.18% ± 3.87%) groups (p < 0.001). The MN system facilitated localized drug release, minimized systemic toxicity, and exhibited excellent biocompatibility without skin damage. This study highlights a plant vesicle-based MN platform for chemo-PTT synergy, offering a promising strategy for enhancing CSCC treatment efficacy while reducing off-target effects.
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