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PEG-PPS聚合物与LL-37肽纳米胶束的自组装改善氧化微环境并促进血管生成以促进慢性伤口愈合。

Self-assembly of PEG-PPS polymers and LL-37 peptide nanomicelles improves the oxidative microenvironment and promotes angiogenesis to facilitate chronic wound healing.

作者信息

Shi Rong, Qiao Jianxiong, Sun Quanwu, Hou Biao, Li Bo, Zheng Ji, Zhang Zhenzhen, Peng Zhenxue, Zhou Jing, Shen Bingbing, Deng Jun, Zhang Xuanfen

机构信息

Department of Plastic Surgery Lanzhou University Second Hospital Lanzhou Gansu China.

Department of Breast Surgery Gansu Provincial Hospital Lanzhou Gansu China.

出版信息

Bioeng Transl Med. 2023 Nov 8;9(2):e10619. doi: 10.1002/btm2.10619. eCollection 2024 Mar.

DOI:10.1002/btm2.10619
PMID:38435813
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10905545/
Abstract

Refractory diabetic wounds are associated with high incidence, mortality, and recurrence rates and are a devastating and rapidly growing clinical problem. However, treating these wounds is difficult owing to uncontrolled inflammatory microenvironments and defective angiogenesis in the affected areas, with no established effective treatment to the best of our knowledge. Herein, we optimized a dual functional therapeutic agent based on the assembly of LL-37 peptides and diblock copolymer poly(ethylene glycol)-poly(propylene sulfide) (PEG-PPS). The incorporation of PEG-PPS enabled responsive or controlled LL-37 peptide release in the presence of reactive oxygen species (ROS). LL-37@PEG-PPS nanomicelles not only scavenged excessive ROS to improve the microenvironment for angiogenesis but also released LL-37 peptides and protected them from degradation, thereby robustly increasing angiogenesis. Diabetic wounds treated with LL-37@PEG-PPS exhibited accelerated and high-quality wound healing in vivo. This study shows that LL-37@PEG-PPS can restore beneficial angiogenesis in the wound microenvironment by continuously providing angiogenesis-promoting signals. Thus, it may be a promising drug for improving chronic refractory wound healing.

摘要

难治性糖尿病伤口的发病率、死亡率和复发率都很高,是一个极具破坏性且迅速增长的临床问题。然而,由于受影响区域的炎症微环境失控和血管生成缺陷,治疗这些伤口很困难,据我们所知,目前尚无成熟有效的治疗方法。在此,我们基于LL-37肽和双嵌段共聚物聚(乙二醇)-聚(硫化丙烯)(PEG-PPS)的组装优化了一种双功能治疗剂。PEG-PPS的加入使得LL-37肽在活性氧(ROS)存在的情况下能够实现响应性或可控释放。LL-37@PEG-PPS纳米胶束不仅能清除过量的ROS以改善血管生成的微环境,还能释放LL-37肽并保护其不被降解,从而有力地促进血管生成。用LL-37@PEG-PPS治疗的糖尿病伤口在体内表现出加速且高质量的伤口愈合。这项研究表明,LL-37@PEG-PPS可以通过持续提供促血管生成信号来恢复伤口微环境中有益的血管生成。因此,它可能是一种改善慢性难治性伤口愈合的有前景的药物。

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