Ruxolitinib Targets JAK-STAT Signaling to Modulate Neutrophil Activation in Refractory Macrophage Activation Syndrome.

IF 21 1区医学 Q1 HEMATOLOGY

Blood Pub Date : 2025-05-19 DOI:10.1182/blood.2024024362

Yuning Ma,Xia Chen,Mengyan Wang,Jianfen Meng,Dehao Zhu,Longfang Chen,Yu Xiao,Da Yi,Hui Shi,Honglei Liu,Xiaobing Cheng,Yutong Su,Junna Ye,Huihui Chi,Zhuochao Zhou,Tingting Liu,Chengde Yang,Jialin Teng,Yue Sun,Jinchao Jia,Qiongyi Hu

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Abstract

Macrophage activation syndrome (MAS) is believed to be the result of inappropriate proliferation and activation of the mononuclear phagocytic system. Adult-onset Still's disease (AOSD) is characterized by neutrophil activation and a cytokine storm, which can lead to its severe and potentially life-threatening complication MAS. RNA sequencing revealed that neutrophils may play a distinct and enhanced role in innate immunity in AOSD patients with MAS (AOSD-MAS). In the CpG-induced secondary hemophagocytic lymphohistiocytosis (HLH) model, depletion of neutrophils significantly reduced cytokine levels, with effects comparable to monocyte depletion. Significant enrichment was observed in the type I/II interferon and JAK-STAT pathways in neutrophils from AOSD-MAS patients. Treatment of 10 refractory AOSD-MAS patients with ruxolitinib led to the resolution of inflammatory parameters and clinical symptoms. RNA sequencing and ex vivo assays confirmed that ruxolitinib suppressed aberrant NETosis and STAT3/STAT5 signaling. In vivo, PAD4 knockout further confirmed the pathogenic role of NETosis in secondary HLH model. Moreover, selective inhibition of STAT3 or STAT5 alleviated systemic inflammation. Ten functional variants were identified in genes related to the JAK-STAT pathway, although their clinical relevance requires further validation. These findings suggest the potential of ruxolitinib in achieving disease remission in refractory AOSD-MAS patients by broadly inhibiting JAK-STAT signaling and modulation of neutrophil activation and NETosis.

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Ruxolitinib靶向JAK-STAT信号调节难治性巨噬细胞激活综合征中性粒细胞激活。

巨噬细胞激活综合征（MAS）被认为是单核吞噬系统不适当的增殖和激活的结果。成人发病的Still病（AOSD）以中性粒细胞活化和细胞因子风暴为特征，可导致严重且可能危及生命的并发症MAS。RNA测序显示，中性粒细胞可能在AOSD合并MAS患者的先天免疫中发挥独特且增强的作用（AOSD-MAS）。在cpg诱导的继发性噬血细胞淋巴组织细胞病（HLH）模型中，中性粒细胞的消耗显著降低了细胞因子水平，其效果与单核细胞的消耗相当。AOSD-MAS患者中性粒细胞中I/II型干扰素和JAK-STAT通路显著富集。ruxolitinib治疗10例难治性AOSD-MAS患者，使炎症参数和临床症状得到缓解。RNA测序和离体实验证实，ruxolitinib抑制异常NETosis和STAT3/STAT5信号传导。在体内，PAD4敲除进一步证实了NETosis在继发性HLH模型中的致病作用。此外，选择性抑制STAT3或STAT5可减轻全身性炎症。在与JAK-STAT通路相关的基因中发现了10个功能变异，尽管它们的临床相关性需要进一步验证。这些发现表明ruxolitinib可能通过广泛抑制JAK-STAT信号和中性粒细胞活化和NETosis的调节来实现难治性AOSD-MAS患者的疾病缓解。

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

Blood 医学-血液学

CiteScore

23.60

自引率

3.90%

发文量

955

审稿时长

1 months

期刊介绍： Blood, the official journal of the American Society of Hematology, published online and in print, provides an international forum for the publication of original articles describing basic laboratory, translational, and clinical investigations in hematology. Primary research articles will be published under the following scientific categories: Clinical Trials and Observations; Gene Therapy; Hematopoiesis and Stem Cells; Immunobiology and Immunotherapy scope; Myeloid Neoplasia; Lymphoid Neoplasia; Phagocytes, Granulocytes and Myelopoiesis; Platelets and Thrombopoiesis; Red Cells, Iron and Erythropoiesis; Thrombosis and Hemostasis; Transfusion Medicine; Transplantation; and Vascular Biology. Papers can be listed under more than one category as appropriate.