转录因子和microrna在伤口愈合过程中调节成纤维细胞重编程中的作用。

Vikrant Rai, Devendra K Agrawal
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引用次数: 0

摘要

不愈合的糖尿病足溃疡是一种慢性炎症性疾病,是世界各地卫生保健系统的一个相当大的临床和经济负担。慢性炎症在非愈合模式中起着关键作用,因为在炎症期伤口愈合过程中细胞反应被阻止,而没有进展到增殖和重塑阶段。成纤维细胞在伤口愈合的所有三个阶段都起着关键作用。在细胞因子存在的情况下,成纤维细胞的激活导致肌成纤维细胞的形成,肌成纤维细胞有助于细胞外基质的形成。此外,很少有研究记录伤口愈合过程中炎症、血管生成和血管抑制成纤维细胞亚群的存在。各种研究已经讨论了转录因子和microRNA在调节成纤维细胞向肌成纤维细胞转分化中的作用,然而,哪些因素调节成纤维细胞向炎症、血管生成和血管抑制表型的重编程,在文献中尚未得到明确的解决。这篇重要的综述文章阐述了转录因子和microrna在调节成纤维细胞向肌成纤维细胞转分化中的作用,以及基于生物信息学分析的转录因子和microrna在调节成纤维细胞向炎症、血管生成和血管抑制亚型的转分化中的作用。计算机网络的结果揭示了多种新的转录因子和microrna,以及它们与其他成纤维细胞上的特定标记物的相互作用,表明它们在成纤维细胞重编程的调节中起作用。
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Role of Transcription Factors and MicroRNAs in Regulating Fibroblast Reprogramming in Wound Healing.

Non-healing diabetic foot ulcer, a chronic inflammatory disease, is a sizable clinical and economic burden to healthcare systems around the world. Chronic inflammation plays a critical role in the nonhealing pattern due to the arrest of the cellular response during wound healing in the inflammatory phase without progressing to the proliferative and remodeling phase. Fibroblasts play a critical role in all three phases of wound healing. Activation of fibroblasts in the presence of cytokines results in the formation of myofibroblast that contributes to extracellular matrix formation. Additionally, few studies documented the presence of inflammatory, angiogenic, and angiostatic fibroblast subpopulation during wound healing. Various studies have discussed the role of transcription factors and microRNA in regulating the transdifferentiation of fibroblast to myofibroblast, however, what factors regulate the reprogramming of fibroblast to inflammatory, angiogenic, and angiostatic phenotypes have not been clearly addressed in the literature. This critical review article addresses the role of transcription factors and microRNAs in regulating fibroblast to myofibroblast transdifferentiation followed by the prediction of transcription factors and microRNAs, based on the bioinformatics analysis, in regulating transdifferentiation of fibroblasts to inflammatory, angiogenic, and angiostatic subtypes. The results of in-silico networking revealed multiple new transcription factors and microRNAs and their interaction with specific markers on other fibroblasts suggesting their role in the regulation of fibroblast reprogramming.

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