Yujia Wei , Ting Zhou , Ronghua Pan , Xiaoqi Nie , Zhong Liu , Zeqi Shi , Ying Zeng , Ri Zhang , Yunhua Deng , Dong Li
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The effect of upregulated miR-1469 in NSV circulating exosomes on natural killer (NK) cells was further investigated using various molecular biological techniques.</p></div><div><h3>Results</h3><p>MiR-1469 was identified as a candidate biomarker whose expression was significantly increased in circulating exosomes of NSV patients. Circulating exosomes were internalized by NK cells and increased NK cell proliferation viability and IFN-γ secretion capacity delivering miR-1469. Further studies revealed that the upregulation of CD122, the predicted target of miR-1469, could partially reverse the effect of miR-1469 on natural killer cells.</p></div><div><h3>Conclusion</h3><p>Alterations in plasma exosomal cargo occur in NSV and appear to contribute to NK cell dysfunction. Exosomal miR-1469 may be a biomarker of disease activity and could be used as a therapeutic drug target against innate immunity in NSV patients. 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引用次数: 0
摘要
背景血浆外泌体microRNA(miRNA)已被用作各种疾病的潜在生物标记物,并已被研究是否可能参与了白癜风的发病机制。方法通过高通量测序确定非节段性白癜风(NSV)患者血浆外泌体miRNA的表达谱。结果MiR-1469被确定为候选生物标志物,它在NSV患者循环外泌体中的表达显著增加。循环外泌体可被NK细胞内化,并通过传递miR-1469提高NK细胞的增殖活力和IFN-γ分泌能力。进一步研究发现,miR-1469 的预测靶标 CD122 的上调可部分逆转 miR-1469 对自然杀伤细胞的影响。外泌体 miR-1469 可能是疾病活动性的生物标志物,可作为治疗药物靶点,对抗 NSV 患者的先天性免疫。本研究为了解外泌体miRNA在NSV中的作用提供了新的视角,并提出了NK细胞miR-1469-CD122-IFN-γ通路是NSV发病机制的基础。
Exosomes containing miR-1469 regulate natural killer cells by targeting CD122 in non-segmental vitiligo
Background
Plasma exosomal microRNAs (miRNAs) have been used as potential biomarkers for various diseases and have been investigated for their possible involvement in the pathogenesis of vitiligo. However, the miRNA expression profile of plasma exosomes in patients with non-segmental vitiligo (NSV) has not been determined yet.
Objective
To screen differentially expressed microRNAs in plasma exosomes derived from patients with NSV and explore their roles in the pathogenesis of NSV.
Methods
High-throughput sequencing was performed to determine the expression profiles of exosomal miRNAs in NSV. The effect of upregulated miR-1469 in NSV circulating exosomes on natural killer (NK) cells was further investigated using various molecular biological techniques.
Results
MiR-1469 was identified as a candidate biomarker whose expression was significantly increased in circulating exosomes of NSV patients. Circulating exosomes were internalized by NK cells and increased NK cell proliferation viability and IFN-γ secretion capacity delivering miR-1469. Further studies revealed that the upregulation of CD122, the predicted target of miR-1469, could partially reverse the effect of miR-1469 on natural killer cells.
Conclusion
Alterations in plasma exosomal cargo occur in NSV and appear to contribute to NK cell dysfunction. Exosomal miR-1469 may be a biomarker of disease activity and could be used as a therapeutic drug target against innate immunity in NSV patients. The present study provides new insights into the role of exosomal miRNAs in NSV and suggests a novel miR-1469-CD122-IFN-γ pathway of NK cell underlying pathogenesis of NSV.
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