色氨酸代谢失调和AhR通路导致稳定期非节段性白癜风患者CXCL10上调。

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引用次数: 0

摘要

背景:在白癜风中观察到色氨酸代谢紊乱。然而,将这种代谢紊乱与白癜风发病机制联系起来仍具有挑战性:旨在揭示白癜风患者色氨酸代谢的特征,并研究色氨酸代谢物在白癜风病理生理学中的作用:采用LC-MS/MS、双荧光素酶报告实验、ELISA、qRT-PCR、小干扰RNA、Western印迹和免疫组化等方法:结果:测定了稳定期非节段性白癜风患者血浆中犬尿氨酸通路的活化和KYAT酶相关的犬尿氨酸(KYNA)偏离。利用公开的微阵列数据集,我们进一步验证了犬尿氨酸通路的激活与白癜风患者皮肤中炎症相关基因的表达有关。此外,我们还发现 KYNA 通过 AhR 激活诱导角质形成细胞中 CXCL10 的上调。此外,在白癜风患者血浆中,AhR 激动剂的总活性增加,而 AhR 本身的浓度降低。最后,通过免疫组化染色观察到白癜风皮损皮肤中 KYAT、CXCL10、CYP1A1 表达较高,而 AhR 表达较低:本研究描述了白癜风患者色氨酸代谢和遗传特征,并提出色氨酸衍生的AhR配体KYNA可增强角朊细胞中CXCL10的表达。
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Dysregulated tryptophan metabolism and AhR pathway contributed to CXCL10 upregulation in stable non-segmental vitiligo

Background

Tryptophan metabolism dysregulation has been observed in vitiligo. However, drawing a mechanistic linkage between this metabolic disturbance and vitiligo pathogenesis remains challenging.

Objective

Aim to reveal the characterization of tryptophan metabolism in vitiligo and investigate the role of tryptophan metabolites in vitiligo pathophysiology.

Methods

LC-MS/MS, dual-luciferase reporter assay, ELISA, qRT-PCR, small interfering RNA, western blotting, and immunohistochemistry were employed.

Results

Kynurenine pathway activation and KYAT enzyme-associated deviation to kynurenic acid (KYNA) in the plasma of stable non-segmental vitiligo were determined. Using a public microarray dataset, we next validated the activation of kynurenine pathway was related with inflammatory-related genes expression in skin of vitiligo patients. Furthermore, we found that KYNA induced CXCL10 upregulation in keratinocytes via AhR activation. Moreover, the total activity of AhR agonist was increased while the AhR concentration per se was decreased in the plasma of vitiligo patients. Finally, higher KYAT, CXCL10, CYP1A1 and lower AhR expression in vitiligo lesional skin were observed by immunohistochemistry staining.

Conclusion

This study depicts the metabolic and genetic characterizations of tryptophan metabolism in vitiligo and proposes that KYNA, a tryptophan-derived AhR ligand, can enhance CXCL10 expression in keratinocytes.

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7.60
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