Isoliquiritigenin alleviates SLC7A11-mediated efferocytosis inhibition to promote wounds healing in diabetes.

Xiaokang Gong, Jinhong Cai, Wenbiao Zheng, Jiehe Huang, Tao Chen, Weijie Chen, Xin Zheng
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Abstract

The healing process of chronic wounds often progresses slowly and is fraught with challenges, imposing increasing economic burdens and physical suffering on patients. Managing persistent wound inflammation and stimulating angiogenesis are crucial elements in promoting wound healing. Plants have been playing a key role in traditional medicine, and their abundant bioactive components continually inspire the development and innovation of new drugs. Isoliquiritigenin (ISL), a flavonoid compound derived from licorice roots known as chalcone, has demonstrated multifaceted pharmacological potential. However, its effects on diabetic wounds and the detailed mechanisms remain to be investigated. Through in-depth exploration using network pharmacology, we successfully predicted potential therapeutic targets of ISL for ischemic diseases. The revealed mechanisms primarily focused on the critical pathway of efferocytosis. Subsequent in vivo experiments demonstrated that ISL significantly enhanced the efferocytosis of dendritic cells (DC), improving the functional behaviors of endothelial cells. Further research indicated that ISL promoted DC efferocytosis by regulating SLC7A11-mediated glycolysis. Notably, the overexpression of SLC7A11 diminished the positive effects of ISL, suggesting a potential antagonistic role of SLC7A11 in the regulatory process. In the wounds of diabetic mice, we observed that ISL accelerated DC efferocytosis and angiogenesis, resulting in faster wound closure and better tissue repair. In summary, this study not only demonstrates the broad potential of ISL in managing diabetic wounds but also delves deeply into its mechanisms, laying a solid theoretical foundation for future clinical applications.

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异桔梗皂苷缓解 SLC7A11 介导的渗出抑制,促进糖尿病患者的伤口愈合。
慢性伤口的愈合过程往往进展缓慢,充满挑战,给患者带来越来越多的经济负担和身体痛苦。控制伤口持续发炎和刺激血管生成是促进伤口愈合的关键因素。植物在传统医学中一直扮演着重要角色,其丰富的生物活性成分不断激发着新药的开发和创新。Isoliquiritigenin (ISL)是一种从甘草根中提取的黄酮类化合物,被称为查尔酮,具有多方面的药理潜力。然而,它对糖尿病伤口的作用及其详细机制仍有待研究。通过利用网络药理学进行深入探索,我们成功预测了 ISL 对缺血性疾病的潜在治疗靶点。所揭示的机理主要集中在流出细胞的关键途径上。随后的体内实验表明,ISL能显著增强树突状细胞(DC)的胞吐功能,改善内皮细胞的功能行为。进一步的研究表明,ISL 通过调节 SLC7A11 介导的糖酵解促进了 DC 的排出。值得注意的是,SLC7A11的过表达削弱了ISL的积极作用,这表明SLC7A11在调节过程中可能起着拮抗作用。在糖尿病小鼠的伤口中,我们观察到 ISL 加速了 DC 的渗出和血管生成,使伤口愈合更快,组织修复更好。总之,这项研究不仅证明了 ISL 在管理糖尿病伤口方面的广泛潜力,而且深入探讨了其机制,为未来的临床应用奠定了坚实的理论基础。
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