在角质形成细胞中缺乏 Notch 配体 Jag1 的小鼠体内,菌群失调激活的产生 IL-17 的 T 细胞会促进皮肤免疫病理学的发展。

IF 4.6
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引用次数: 0

摘要

背景:Notch 信号通路是一种进化保守的调控级联,对皮肤发育和稳态至关重要。缺乏 Notch 信号分子的小鼠皮肤和毛囊发育受损,并伴有局部组织炎症。然而,Notch 信号缺陷导致的皮肤炎症和病理机制尚不十分清楚:目的:研究 Notch 配体 Jagged-1 (Jag1) 缺陷小鼠皮肤免疫病理学发展的分子和细胞机制:我们评估了Foxn1CreJag1fl/fl小鼠皮肤致病症状中微生物群和免疫细胞亚群的参与情况,这些小鼠的角质形成细胞中缺乏Jag1。我们还利用RNA-seq和16S rRNA基因-seq分析确定了导致Foxn1CreJag1fl/fl小鼠皮肤病理症状的分子因素和细菌种类:结果:与Jag1不足的同窝对照小鼠相比,Foxn1CreJag1fl/fl小鼠产生IL-17a的T细胞特异性扩增,并伴有滤泡和表皮角化过度和囊肿形成,而抗体阻断IL-17a可减轻皮肤病理变化。RNA 序列和 16S rRNA 基因序列分析表明,Foxn1CreJag1fl/fl 小鼠皮肤的免疫反应失调,微生物群组成发生改变。抗生素治疗可完全阻止产生 IL-17a 的 T 细胞过度激活,并减轻 Foxn1CreJag1fl/fl 小鼠的皮肤病理变化:Foxn1CreJag1fl/fl小鼠皮肤病理学的发展关键在于菌群失调诱导的产生IL-17a的T细胞过度激活,因此Foxn1CreJag1fl/fl小鼠是研究微生物-IL-17介导的皮肤炎症性疾病(如化脓性扁桃体炎(HS)和银屑病)的发病机制和治疗靶点的有用模型。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Dysbiosis-activated IL-17-producing T cells promote skin immunopathological progression in mice deficient of the Notch ligand Jag1 in keratinocytes

Background

The Notch signaling pathway is an evolutionarily conserved regulatory cascade critical in skin development and homeostasis. Mice deficient of Notch signaling molecules have impaired skin and hair follicle development associated with local tissue inflammation. However, mechanisms underlying skin inflammation and pathology resulting from defective Notch signals are not well understood.

Objective

To dissect molecular and cellular mechanisms underlying development of skin immunopathology in mice defective of the Notch ligand Jagged-1 (Jag1).

Methods

We assessed involvement of microbiota and immune cell subsets in skin pathogenic symptoms in Foxn1CreJag1fl/fl mice that were deficient of Jag1 in keratinocytes. We also used RNA-seq and 16S rRNA gene-seq analyses to identify molecular factors and bacterial species contributing to skin pathologic symptoms in Foxn1CreJag1fl/fl mice.

Results

Compared to Jag1-sufficient littermate control mice, Foxn1CreJag1fl/fl mice had specific expansion of IL-17a-producing T cells accompanying follicular and epidermal hyperkeratosis and cyst formation while antibody blockage of IL-17a reduced the skin pathology. RNA-sequencing and 16S rRNA gene-sequencing analyses revealed dysregulated immune responses and altered microbiota compositions in the skin of Foxn1CreJag1fl/fl mice. Antibiotic treatment completely prevented over-activation of IL-17a-producing T cells and alleviated skin pathology in Foxn1CreJag1fl/fl mice.

Conclusion

Dysbiosis-induced over-activation of IL-17a-producing T cells is critically involved in development of skin pathology in Foxn1CreJag1fl/fl mice, establishing Foxn1CreJag1fl/fl mice as a useful model to study pathogenesis and therapeutic targets in microbiota-IL-17-mediated skin inflammatory diseases such as hidradenitis suppurativa (HS) and psoriasis.
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