微泡
透明质酸
甲基丙烯酰胺
伤口愈合
化学
药理学
细胞生物学
外体
免疫系统
巨噬细胞
活性氧
癌症研究
炎症
自愈水凝胶
运动性
氧化应激
细胞保护
皮肤修复
细胞迁移
全身给药
再生医学
HEK 293细胞
组织工程
细胞疗法
细胞
细胞外
作者
Baowen Zhang,Li Yu,Lindong Tang
标识
DOI:10.1021/acsbiomaterials.5c01606
摘要
The repair of diabetic wounds is constrained by persistent inflammatory responses, excessive reactive oxygen species, and compromised angiogenesis, necessitating novel therapeutic strategies to modulate the immune microenvironment and promote tissue repair. Exosomes isolated from human embryonic kidney 293 cells (293-Exo) possess a high content of bioactive cargo and have been shown to markedly enhance the repair of diabetic wounds. In addition, extracellular vesicles originating from plants are increasingly recognized as a promising new class of therapeutic agents. Tomato fruit juice-derived exosomes (TM-Exo) can significantly reduce oxidative stress, regulate macrophage polarization, and protect islet function, holding significant promise for treating diabetic wounds. Nevertheless, topical administration of exosomes at wound sites is hampered by intrinsic instability and rapid clearance, which markedly constrains their translational and clinical potential. This study developed a multifunctional bioactive dressing (TE/293E-Gel) based on a photo-cross-linked methacrylamide hyaluronic acid/tannic acid (HAMA/TA) hydrogel, coencapsulating 293-Exo and TM-Exo to synergistically promote diabetic wound healing. This hydrogel possesses excellent mechanical properties, tissue adhesion, controllable degradability, and good biocompatibility. This bioactive agent vigorously enhances cell motility and angiogenic processes, repolarizes macrophages from an inflammatory M1 profile toward a reparative M2 program, and concurrently affords antioxidative and anti-inflammatory benefits. In conclusion, the designed photo-cross-linked hydrogel encapsulating exosomes from two distinct sources significantly accelerates diabetic wound repair through multiple mechanisms, demonstrating significant translational potential.
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