用于肿瘤/感染受损皮肤多模态治疗的可生物降解导电多功能支化聚（甘油-氨基酸）基支架

Biodegradable conductive multifunctional branched poly(glycerol-amino acid)-based scaffolds for tumor/infection-impaired skin multimodal therapy.

作者信息

Zhou Li, Zheng Hua, Wang Shenqiang, Zhou Fengtao, Lei Bo, Zhang Qiuyu

机构信息

Key Laboratory of Special Functional and Smart Polymer Materials of Ministry of Industry and Information Technology, School of Chemistry and Chemical Engineering, Northwestern Polytechnical University, Xi'an, 710129, China.

Frontier Institute of Science and Technology, Xi'an Jiaotong University, Xi'an, 710049, China; National and Local Joint Engineering Research Center of Biodiagnosis and Biotherapy, The Second Affiliated Hospital of Xi'an Jiaotong University, Xi'an, 710000, China.

出版信息

Biomaterials. 2020 Dec;262:120300. doi: 10.1016/j.biomaterials.2020.120300. Epub 2020 Aug 7.

DOI:10.1016/j.biomaterials.2020.120300

PMID:32891908

Abstract

The tumor/infection-impaired skin regeneration is still a challenge and the single modal therapy strategy is usually inefficient. Herein, a multimodal tumor therapy and antiinfection method based on the conductive multifunctional poly(glycerol-amino acid)-based scaffolds is reported. The multifunctional conductive scaffolds were formed through the crosslinking between branched poly(glycerol-amino acid), polypyrrole@polydopamine (PPy@PDA) nanoparticles and aldehyde F127 (PGFP scaffolds). PGFP scaffolds possessed controlled electrical conductivity, skin-adhesive behavior, broad-spectrum antibacterial activity, photothermal-responsive drug release and good cytocompatibility. Thus, PGFP scaffolds demonstrated the significant photothermo-chemo tumor and multidrug resistant infection therapy in vitro and in vivo, while promoting granulation tissue formation, collagen deposition, vascular endothelial differentiation and accelerated skin regeneration. This work also firstly demonstrated the important role of multifunctional conductive PPy@PDA nanoparticles in tumor/infection-impaired skin multimodal therapy. This study suggests that efficient multimodal therapy on diseased-impaired skin could be achieved through optimizing the structure and multifunctional properties of biomaterials.

摘要

肿瘤/感染导致的皮肤再生受损仍是一项挑战，单一模式的治疗策略通常效率低下。在此，我们报道了一种基于导电多功能聚（甘油-氨基酸）支架的多模式肿瘤治疗和抗感染方法。多功能导电支架通过支化聚（甘油-氨基酸）、聚吡咯@聚多巴胺（PPy@PDA）纳米颗粒和醛基F127交联形成（PGFP支架）。PGFP支架具有可控的电导率、皮肤粘附行为、广谱抗菌活性、光热响应药物释放和良好的细胞相容性。因此，PGFP支架在体外和体内均表现出显著的光热-化学肿瘤和多重耐药感染治疗效果，同时促进肉芽组织形成、胶原蛋白沉积、血管内皮分化并加速皮肤再生。这项工作还首次证明了多功能导电PPy@PDA纳米颗粒在肿瘤/感染受损皮肤多模式治疗中的重要作用。该研究表明，通过优化生物材料的结构和多功能特性，可以实现对病变受损皮肤的高效多模式治疗。

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用于肿瘤/感染受损皮肤多模态治疗的可生物降解导电多功能支化聚（甘油-氨基酸）基支架

Biodegradable conductive multifunctional branched poly(glycerol-amino acid)-based scaffolds for tumor/infection-impaired skin multimodal therapy.

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