Abstract

Cutaneous wound healing, especially diabetic wound healing, is a common clinical problem. Reactive oxygen species (ROS) and bacterial infection are two major factors in the induction of oxidative stress and inflammation, leading to impeded angiogenesis and wound healing. However, it is still very difficult to reverse the harsh microenvironment of chronic inflammation and excessive oxidative stress on diabetic wound. Itaconate, an endogenous metabolite, has recently attracted extensive attention as a critical immune-regulator. In this study, we used 4-octyl itaconate (4OI), a cell-permeable itaconate derivative, to have antioxidative and anti-inflammatory functions for diabetic wound regeneration. Simultaneously, an injectable, self-healing, and antibacterial dynamic coordinative hydrogel was manufactured by binding the 4-arm polyethylene glycol (PEG) with silver nitrate to deliver the bioactive molecule. In vitro experiments confirmed that 4OI@PEG hydrogel could inhibit bacterial growth, protect human umbilical vein endothelial cells from ROS damage and enhance neovascularization. In addition, the hydrogel increased mitochondrial polarization and reduced mitochondrial fragmentation by activating the Keap1-Nrf2 antioxidant defense system. In vivo experiments proved that this multifunctional hydrogel facilitated diabetic wound healing by inhibiting local inflammation and promoting angiogenesis. Collectively, 4OI-loaded multifunctional materials could reverse various unfavorable microenvironments, such as excessive oxidative stress, inflammation, and infection, and can promote neovascularization; thus, such materials show great promise for the treatment of diabetic ulcers.

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