Dual TYK2/JAK1 Inhibition by Brepocitinib Reprograms Synoviocyte Pathobiology: Mechanistic Insights Into Targeted Therapy for Rheumatoid Arthritis.

IF 1.8 4区医学 Q3 PHARMACOLOGY & PHARMACY

Iranian Journal of Pharmaceutical Research Pub Date : 2026-02-01 eCollection Date: 2026-01-01 DOI:10.5812/ijpr-166019

Umar Saeed, Zahra Zahid Piracha, Andromeda M Nauli, Surya M Nauli

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引用次数: 0

Abstract

Background: Rheumatoid arthritis (RA) is a chronic autoimmune disorder characterized by synovial hyperplasia, persistent inflammation, and joint destruction. Targeted inhibition of intracellular signaling pathways, such as JAK-STAT, has improved RA treatment outcomes, though safety and selectivity remain as concerns. Brepocitinib, a dual TYK2/JAK1 inhibitor, has shown clinical efficacy in the management of autoimmune diseases, yet its mechanistic impact on synoviocytes remains underexplored.

Objectives: To investigate the molecular and functional effects of brepocitinib on MH7A and RA-FLS synoviocytes, a key effector cell type in RA pathogenesis.

Methods: MH7A and RA-FLS cells were treated with brepocitinib (0.5 µM, 1 µM, and 5 µM) for 24 hours. Cell viability was assessed. Western blotting was used to examine phosphorylation of TYK2, JAK1, STAT1/3, and apoptotic markers (BAX, BCL-2, caspase-3). Quantitative PCR and ELISA were performed to evaluate mRNA and protein levels, respectively, of IL-6, TNF-α, and IFN-γ. Wound healing assays measured synoviocyte migration.

Results: Brepocitinib maintained ≥ 85% cell viability across all doses, compared with ~20% viability in doxorubicin-treated controls. At 5 µM, phosphorylation of JAK1 and STAT3 was suppressed by > 80%, while TYK2 and STAT1 inhibition reached ~70%. IL-6 and TNF-α transcripts were reduced by > 80% and IFN-γ by ~70%, with corresponding decreases in secreted cytokines (IL-6: 100 pg/mL to 20 pg/mL; TNF-α: 150 pg/mL to 15 pg/mL; IFN-γ: 41 pg/mL to 11 pg/mL). Brepocitinib shifted the BAX/BCL-2 ratio fourfold in favor of apoptosis and increased cleaved caspase-3 levels to ~80% of maximal response. Functionally, it reduced wound closure from ~75% in controls to ~20% at 5 µM, confirming potent inhibition of synoviocyte migration.

Conclusions: Brepocitinib exerts multi-faceted effects on RA synoviocytes by simultaneously inhibiting inflammatory signaling, suppressing cytokine expression, restoring apoptotic sensitivity, and reducing migratory potential. These findings provide mechanistic support for brepocitinib as a targeted therapeutic agent in RA.

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Brepocitinib对滑膜细胞病理生物学的双重抑制：类风湿关节炎靶向治疗的机制见解

背景：类风湿性关节炎（RA）是一种以滑膜增生、持续炎症和关节破坏为特征的慢性自身免疫性疾病。靶向抑制细胞内信号通路，如JAK-STAT，改善了RA的治疗效果，尽管安全性和选择性仍然值得关注。Brepocitinib是一种双重TYK2/JAK1抑制剂，已在自身免疫性疾病的治疗中显示出临床疗效，但其对滑膜细胞的机制影响尚不清楚。目的：探讨布雷波替尼对类风湿关节炎发病关键效应细胞MH7A和RA- fls滑膜细胞的分子和功能影响。方法：用布雷波西替尼（0.5µM, 1µM, 5µM）处理MH7A和RA-FLS细胞24h。评估细胞活力。Western blotting检测TYK2、JAK1、STAT1/3和凋亡标志物（BAX、BCL-2、caspase-3）的磷酸化水平。采用定量PCR和ELISA法分别检测大鼠IL-6、TNF-α和IFN-γ mRNA和蛋白水平。伤口愈合试验测量滑膜细胞迁移。结果：brepositinib在所有剂量下维持≥85%的细胞活力，而阿霉素治疗的对照组只有~20%的细胞活力。在5µM时，JAK1和STAT3的磷酸化被抑制约80%，TYK2和STAT1的抑制约70%。IL-6和TNF-α转录物减少约80%，IFN-γ减少约70%，分泌的细胞因子相应减少（IL-6: 100 pg/mL至20 pg/mL； TNF-α: 150 pg/mL至15 pg/mL； IFN-γ: 41 pg/mL至11 pg/mL）。brepositinib将BAX/BCL-2比值提高了4倍，有利于细胞凋亡，并将cleaved caspase-3水平提高到最大反应的80%左右。在功能上，在5µM下，它能将创面闭合从对照组的~75%降低到~20%，证实了滑膜细胞迁移的有效抑制。结论：Brepocitinib对RA滑膜细胞具有多重作用，可同时抑制炎症信号、抑制细胞因子表达、恢复凋亡敏感性和降低迁移潜能。这些发现为brepositinib作为RA靶向治疗剂提供了机制支持。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Iranian Journal of Pharmaceutical Research 医学-药学

CiteScore

3.40

自引率

6.20%

发文量

审稿时长

2 months

期刊介绍： The Iranian Journal of Pharmaceutical Research (IJPR) is a peer-reviewed multi-disciplinary pharmaceutical publication, scheduled to appear quarterly and serve as a means for scientific information exchange in the international pharmaceutical forum. Specific scientific topics of interest to the journal include, but are not limited to: pharmaceutics, industrial pharmacy, pharmacognosy, toxicology, medicinal chemistry, novel analytical methods for drug characterization, computational and modeling approaches to drug design, bio-medical experience, clinical investigation, rational drug prescribing, pharmacoeconomics, biotechnology, nanotechnology, biopharmaceutics and physical pharmacy.