Rossner Pavel, Javorkova Eliska, Sima Michal, Simova Zuzana, Hermankova Barbora, Palacka Katerina, Novakova Zuzana, Chvojkova Irena, Cervena Tereza, Vrbova Kristyna, Vimrova Anezka, Klema Jiri, Rossnerova Andrea, Holan Vladimir
Department of Toxicology and Molecular Epidemiology, Institute of Experimental Medicine CAS, 14220 Prague, Czech Republic.
Department of Cell Biology, Faculty of Science, Charles University, 12843 Prague, Czech Republic.
J Xenobiot. 2025 Jul 18;15(4):119. doi: 10.3390/jox15040119.
An investigation into the biological mechanisms initiated in wounded skin following the application of mesenchymal stem cells (MSCs) and nanoparticles (NPs) (Ag, ZnO), either alone or combined, was performed in mice, with the aim of determining the optimal approach to accelerate the healing process. This combined treatment was hypothesized to be beneficial, as it is associated with the production of molecules supporting the healing process and antimicrobial activity. The samples were collected seven days after injury. When compared with untreated wounded animals (controls), the combined (MSCs+NPs) treatment induced the expression of , encoding small proline-rich protein 2B, which is involved in keratinocyte differentiation, the response to tissue injury, and inflammation. Pathways associated with keratinocyte differentiation were also affected. Ag NP treatment (alone or combined) modulated DNA methylation changes in genes involved in desmosome organization. The percentage of activated regulatory macrophages at the wound site was increased by MSC-alone and Ag-alone treatments, while the production of nitric oxide, an inflammatory marker, by stimulated macrophages was decreased by both MSC/Ag-alone and MSCs+Ag treatments. Ag induced the expression of , encoding collagen-1, at the injury site. The results of the MSC and NP treatment of skin wounds (alone or combined) suggest an induction of processes accelerating the proliferative phase of healing. Thus, MSC-NP interactions are a key factor affecting global mRNA expression changes in the wound.
在小鼠身上进行了一项研究,旨在确定加速伤口愈合过程的最佳方法,该研究调查了在受伤皮肤中单独或联合应用间充质干细胞(MSCs)和纳米颗粒(NPs)(银、氧化锌)后启动的生物学机制。这种联合治疗被认为是有益的,因为它与支持愈合过程的分子产生和抗菌活性有关。在受伤七天后收集样本。与未治疗的受伤动物(对照组)相比,联合(MSCs+NPs)治疗诱导了富含脯氨酸的小分子蛋白2B编码基因的表达,该蛋白参与角质形成细胞分化、对组织损伤的反应和炎症。与角质形成细胞分化相关的途径也受到影响。银纳米颗粒治疗(单独或联合)调节了参与桥粒组织的基因中的DNA甲基化变化。单独使用MSCs和单独使用银的治疗增加了伤口部位活化调节性巨噬细胞的百分比,而单独使用MSCs/银和MSCs+银的治疗均降低了刺激巨噬细胞产生的炎症标志物一氧化氮。银诱导了损伤部位胶原蛋白-1编码基因的表达。皮肤伤口的MSCs和NP治疗(单独或联合)结果表明诱导了加速愈合增殖期的过程。因此,MSCs-NP相互作用是影响伤口中整体mRNA表达变化的关键因素。
