蝾螈细胞和组织促进小鼠皮肤伤口愈合

T. Demircan, I. Keskin, Y. Gunal, Ayşe Elif İlhan, B. Kolbaşı, G. Öztürk
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摘要

成年哺乳动物皮肤创伤修复由于失去了平衡上皮细胞完整再生和过度结缔组织生成的调节机制而存在缺陷,这种修复过程通常导致瘢痕组织的形成。然而,与哺乳动物不同,成年蝾螈通过再生来修复伤口,而不是留下疤痕。为了阐明蝾螈(Axolotl)在不同物种中的愈合能力,我们通过用蝾螈细胞或组织治疗小鼠的伤口来解决这个问题。在每只小鼠上制造切除病变,不同组的动物用;a-)蝾螈囊胚组织,b-)蝾螈尾组织,c-)蝾螈囊胚细胞,d-)蝾螈尾细胞,e-)血清生理,e-)人造皮肤;分别。治疗10天后,通过伤口愈合率、组织病理学分析、血管形成和细胞因子基因表达谱来比较伤口愈合成功率。结果表明,蝾螈细胞或组织传递动物表现出更好的伤口修复能力。用美西螈样品治疗的动物有更好的再上皮、颗粒组织形成、血管形成甚至毛囊的存在。基因表达谱数据显示,这些动物的促炎细胞因子水平较低,这可能表明蝾螈样本在伤口愈合中具有免疫调节作用。
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Axolotl cells and tissues enhances cutaneous wound healing in mice
Adult mammalian skin wound repair is defective due to loss of the regulation in balancing the complete epithelial regeneration and excessive connective tissue production, and this repair process commonly results in scar tissue formation. However, unlike mammals, adult salamanders repair the wounds by regeneration compared to scarring. To elucidate the healing capability of a salamander, Axolotl, in a different species, here we addressed this question by treating the wounds in mice with Axolotl cells or tissues. Excisional lesions were created on each mouse, and animals in different groups treated by; a-) Axolotl blastema tissue, b-) Axolotl tail tissue, c-) Axolotl blastema cells, d-) Axolotl tail cells, e-) Serum physiologic, e-) Madecassol; respectively. 10 days after the treatments, wound healing success was compared by considering the wound closure rate, histopathological analysis, vascularization and gene expression profiling of cytokines. The results reveal that Axolotl cells or tissues delivered animals demonstrate an improved wound repair capacity. A better reepithelization, granule tissue formation, vascularization and even presence of hair follicles are observed in animals treated with Axolotl samples. Gene expression profiling data discloses the lower levels of pro-inflammatory cytokines in these animals which may indicate the immune-modulating role of Axolotl samples in wound healing.
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