Type 2 cytokine-JAK1 signaling is involved in the development of dry skin-induced mechanical alloknesis

IF 4.6 Journal of dermatological science Pub Date : 2025-03-01 DOI:10.1016/j.jdermsci.2024.10.002

Yui Toyosawa , Eriko Komiya , Takahide Kaneko , Yasushi Suga , Mitsutoshi Tominaga , Kenji Takamori

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Abstract

Background

Mechanical alloknesis (m-alloknesis) is itch hypersensitivity induced by normally innocuous stimuli. It is sometimes observed in dry skin based itch-related diseases such as atopic dermatitis (AD), and often triggers the vicious itch-scratch cycle. The acetone-ether and water (AEW) mouse model mimics dry skin-induced m-alloknesis, yet its underlying mechanism remains unclear. Janus kinase (JAK) inhibitors are used to treat AD, but their effects on m-alloknesis are not fully known.

Objective

To reveal the effects of various oral JAK inhibitors on m-alloknesis and their action points, using AEW model.

Methods

AEW model was prepared by treatment with a mixture of acetone-ether, and they were orally administrated a JAK1/2 inhibitor baricitinib, a selective JAK1 inhibitor abrocitinib, or a JAK2 selective inhibitor AZ960, and evaluated m-alloknesis score as the total number of scratching responses in 30 mechanical stimulations. To further elucidate the mechanism of action, IL-4, IL-13 or thymic stromal lymphopoietin (TSLP) or their neutralizing antibodies were also applied to mice. In addition, the levels of these cytokines in mouse skin were measured using multiple immunoassays.

Results

All of JAK inhibitors effectively reduced m-alloknesis, with abrocitinib demonstrating the most significant inhibition. The neutralizing antibodies against IL-4, IL-13, and TSLP inhibited m-alloknesis in AEW mice. Intradermal administration of IL-4, IL-13, or TSLP induced m-alloknesis, and abrocitinib effectively mitigated each cytokine-induced response. Highly sensitive assays detected IL-4, IL-13, IL-31 and TSLP in AEW-treated skin, with TSLP levels significantly increased.

Conclusion

Type 2 cytokine-JAK1 signaling is involved in the development of m-alloknesis in dry skin.

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2型细胞因子- jak1信号通路参与干性皮肤机械异位的发生。

背景：机械异位是由通常无害的刺激引起的瘙痒过敏。它有时见于皮肤干燥性瘙痒相关疾病，如特应性皮炎（AD），并经常引发恶性瘙痒-抓伤循环。丙酮醚和水（AEW）小鼠模型模拟干皮肤诱导的m-异变，但其潜在机制尚不清楚。Janus kinase （JAK）抑制剂用于治疗AD，但其对m- allokesis的影响尚不完全清楚。目的：采用AEW模型，观察各种口服JAK抑制剂对m-异位化及其作用点的影响。方法：采用丙酮醚混合物治疗AEW模型，分别口服JAK1/2抑制剂baricitinib、JAK1选择性抑制剂abrocitinib或JAK2选择性抑制剂AZ960，并以30次机械刺激下挠性反应的总次数作为m-alloknesis评分。为了进一步阐明其作用机制，还将IL-4、IL-13或胸腺基质淋巴生成素（TSLP）或其中和抗体应用于小鼠。此外，这些细胞因子的水平在小鼠皮肤测量使用多种免疫分析。结果：所有JAK抑制剂均能有效降低m-异变，其中阿布替尼的抑制作用最显著。抗IL-4、IL-13和TSLP的中和抗体抑制AEW小鼠的m-异变。皮内给予IL-4、IL-13或TSLP诱导的m-异位，以及阿布昔替尼有效地减轻了每种细胞因子诱导的反应。高灵敏度检测方法检测了aew处理皮肤中IL-4、IL-13、IL-31和TSLP， TSLP水平显著升高。结论：2型细胞因子- jak1信号通路参与干性皮肤m-异位的发生。

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来源期刊

Journal of dermatological science Dermatology

CiteScore

7.60

自引率

0.00%

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