Océane Blaise, Constance Duchesne, Elena Capuzzo, Marie-Anne Nahori, Julien Fernandes, Michael G Connor, Mélanie A Hamon, Javier Pizarro-Cerda, Jean-Jacques Lataillade, Colin McGuckin, Antoine Rousseau, Sébastien Banzet, Olivier Dussurget, Nadira Frescaline
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引用次数: 0
摘要
冷大气等离子体(CAP)是对组织修复和再生医学方法的一种很有前途的补充。CAP 对受感染的皮肤伤口具有治疗潜力,但其作用机制仍是个谜。在这里,CAP 能激活吞噬细胞的 NADPH 氧化酶复合体 NOX2。CAP 可诱导细胞内活性氧的增加,NOX2 抑制剂可减轻其作用。在感染了金黄色葡萄球菌并用 CAP 处理过的巨噬细胞和生物工程皮肤中,对 NOX2 的基因和药理抑制可减少细胞内氧化剂并提高细菌存活率。CAP 触发了 Rac 激活以及 NOX2 组装和活性所需的 p40phox 和 p47phox 的磷酸化。此外,CAP 还能诱导成纤维细胞表达胶原蛋白 I。感染和愈合动力学表明,小鼠皮肤伤口感染金黄色葡萄球菌并接受 CAP 治疗后,细菌负荷减少,新表皮长度增加,细胞外基质形成。总之,我们的研究结果确定了 CAP 可抑制感染并增强皮肤损伤后修复的机制。
Infected wound repair correlates with collagen I induction and NOX2 activation by cold atmospheric plasma.
Cold atmospheric plasma (CAP) is a promising complement to tissue repair and regenerative medicine approaches. CAP has therapeutic potential in infected cutaneous wounds by mechanisms which remain enigmatic. Here, CAP is shown to activate phagocyte NADPH oxidase complex NOX2. CAP induced increased intracellular reactive oxygen species, alleviated by NOX2 inhibitors. Genetic and pharmacological inhibitions of NOX2 in macrophages and bioengineered skin infected with Staphylococcus aureus and treated with CAP reduced intracellular oxidants and increased bacterial survival. CAP triggered Rac activation and phosphorylation of p40phox and p47phox required for NOX2 assembly and activity. Furthermore, CAP induced collagen I expression by fibroblasts. Infection and healing kinetics showed that murine skin wounds infected with S. aureus and treated with CAP are characterized by decreased bacterial burden, increased length of neoepidermis and extracellular matrix formation. Collectively, our findings identify mechanisms triggered by CAP that subdue infection and result in enhanced repair following skin injury.
期刊介绍:
Regenerative Medicine, an innovative online-only journal, aims to advance research in the field of repairing and regenerating damaged tissues and organs within the human body. As a part of the prestigious Nature Partner Journals series and in partnership with ARMI, this high-quality, open access journal serves as a platform for scientists to explore effective therapies that harness the body's natural regenerative capabilities. With a focus on understanding the fundamental mechanisms of tissue damage and regeneration, npj Regenerative Medicine actively encourages studies that bridge the gap between basic research and clinical tissue repair strategies.
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