自身炎症性疾病中 Ruxolitinib 的变异体和反应。
Variant and Response to Ruxolitinib in an Autoinflammatory Syndrome.
机构信息
From the Bioinformatics and Systems Biology Program (H.B.), the Department of Pediatrics (H.B., O.S.C., V.K.H., N.E.L.), the Center for Computational Biology and Bioinformatics, Department of Medicine (A.M., R.S., K.M.F.), the Institute for Genomic Medicine (K.J.), the Department of Bioengineering (N.E.L.), the Division of Allergy, Immunology, and Rheumatology, Department of Pediatrics (J.C., L.B.), and the Department of Medicine (C.D.P.), University of California, San Diego, Sanford Burnham Prebys Medical Discovery Institute (R.M., Y.L.), and the San Diego Branch, Ludwig Institute for Cancer Research (C.D.P.), La Jolla, and the Department of Pathology (S.M.T.), Rady Children's Institute for Genomic Medicine (S.C., D.D.), and Rady Children's Hospital Foundation (J.C., L.B.), Rady Children's Hospital, San Diego - all in California; the Inflammatory Disease Section (S.A.B., B.M., M.N., S.R., P.P.C., N.H., E.F.R., D.L.K., H.O.), the Oncogenesis and Development Section (N.D.), and the Undiagnosed Diseases Program, Medical Genetics Branch (D.R.M., W.A.G.), National Human Genome Research Institute, the Molecular Immunology and Inflammation Branch (R.P., J.J.O.), the Light Imaging Section (D.R.) and the Translational Immunology Section (M.G.), Office of Science and Technology, and the Protein Expression Laboratory (E.E., N.R.W.), National Institute of Arthritis and Musculoskeletal and Skin Diseases, and the Genetics and Pathogenesis of Allergy Section, Laboratory of Allergic Diseases (C.A.M.), and the Translational Autoinflammatory Disease Section (R.G.-M.), National Institute of Allergy and Infectious Diseases, National Institutes of Health, Bethesda, and the Department of Cell Biology and Molecular Genetics, University of Maryland, College Park (B.M.) - all in Maryland; Sanford School of Medicine, University of South Dakota, Sioux Falls (S.A.B.); the Division of Rheumatology and Clinical Immunology, University of Pittsburgh (D.M.S.), University of Pittsburgh Medical Center, Children's Hospital of Pittsburgh (A.S., G.W., K.T.), and the University of Pittsburgh Scleroderma Center (A.S., G.W., K.T.) - all in Pittsburgh; the Division of Pediatric Allergy, Immunology, and Rheumatology, Columbia University, New York (J.D.M.); and Cologne Excellence Cluster on Cellular Stress Responses in Aging-Associated Diseases and the Faculty of Medicine and University Hospital Cologne, University of Cologne, Cologne, Germany (H.O.).
出版信息
N Engl J Med. 2023 Jun 15;388(24):2241-2252. doi: 10.1056/NEJMoa2202318. Epub 2023 May 31.
BACKGROUND
Disabling pansclerotic morphea (DPM) is a rare systemic inflammatory disorder, characterized by poor wound healing, fibrosis, cytopenias, hypogammaglobulinemia, and squamous-cell carcinoma. The cause is unknown, and mortality is high.
METHODS
We evaluated four patients from three unrelated families with an autosomal dominant pattern of inheritance of DPM. Genomic sequencing independently identified three heterozygous variants in a specific region of the gene that encodes signal transducer and activator of transcription 4 (). Primary skin fibroblast and cell-line assays were used to define the functional nature of the genetic defect. We also assayed gene expression using single-cell RNA sequencing of peripheral-blood mononuclear cells to identify inflammatory pathways that may be affected in DPM and that may respond to therapy.
RESULTS
Genome sequencing revealed three novel heterozygous missense gain-of-function variants in . In vitro, primary skin fibroblasts showed enhanced interleukin-6 secretion, with impaired wound healing, contraction of the collagen matrix, and matrix secretion. Inhibition of Janus kinase (JAK)-STAT signaling with ruxolitinib led to improvement in the hyperinflammatory fibroblast phenotype in vitro and resolution of inflammatory markers and clinical symptoms in treated patients, without adverse effects. Single-cell RNA sequencing revealed expression patterns consistent with an immunodysregulatory phenotype that were appropriately modified through JAK inhibition.
CONCLUSIONS
Gain-of-function variants in caused DPM in the families that we studied. The JAK inhibitor ruxolitinib attenuated the dermatologic and inflammatory phenotype in vitro and in the affected family members. (Funded by the American Academy of Allergy, Asthma, and Immunology Foundation and others.).
背景
致残性系统性硬斑病(DPM)是一种罕见的系统性炎症性疾病,其特征为伤口愈合不良、纤维化、细胞减少症、低丙种球蛋白血症和鳞状细胞癌。病因不明,死亡率高。
方法
我们评估了来自三个无关家庭的 4 名具有 DPM 常染色体显性遗传模式的患者。基因组测序独立鉴定了编码信号转导和转录激活因子 4 (STAT4)的基因特定区域中的三个杂合变异体。使用原代皮肤成纤维细胞和细胞系测定法来定义遗传缺陷的功能性质。我们还通过外周血单核细胞的单细胞 RNA 测序来检测基因表达,以鉴定可能受 DPM 影响并可能对治疗有反应的炎症途径。
结果
基因组测序显示 STAT4 中有三个新的杂合错义获得性功能变异体。在体外,原代皮肤成纤维细胞表现出增强的白细胞介素 6 分泌,伤口愈合不良,胶原蛋白基质收缩和基质分泌受损。用鲁索替尼抑制 Janus 激酶(JAK)-STAT 信号通路导致体外高炎症性成纤维细胞表型改善,并在治疗患者中减轻炎症标志物和临床症状,无不良反应。单细胞 RNA 测序显示表达模式与免疫失调表型一致,通过 JAK 抑制可适当修饰。
结论
我们研究的家族中 STAT4 的获得性功能变异导致了 DPM。JAK 抑制剂鲁索替尼可减轻体外和受影响家族成员的皮肤和炎症表型。(由美国过敏、哮喘和免疫学基金会等资助)。
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