基于流式细胞术综合诊断XIAP缺乏症。

IF 3.4 3区医学 Q3 IMMUNOLOGY

Clinical and experimental immunology Pub Date : 2025-03-25 DOI:10.1093/cei/uxaf020

Dan Tomomasa, Madoka Nishimura, Ayami Ohya, Kay Tanita, Ryosuke Wakatsuki, Ryohei Watanabe, Satoshi Miyamoto, Akihiro Hoshino, Takahiro Kamiya, Takeshi Isoda, Shuya Kaneko, Masaki Shimizu, Atsushi Hijikata, Katsuhide Eguchi, Masataka Ishimura, Yukako Maeda, Kazushi Izawa, Takaaki Meguro, Kosuke Fujimoto, Etsuko Ishikita-Murayama, Kyogo Suzuki, Eri Okura, Tomoko Uehara, Tomotada Takayama, Satoshi Okada, Masatoshi Takagi, Tomohiro Morio, Rebecca A Marsh, Hirokazu Kanegane

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The median percentage of TNFα-producing monocytes in controls with MDP flow was 29.1% (95% CI, 19.6 to 53.7), while in patients it was 0.34% (95% CI, 0.18 to 0.82) (p = 0.0008).Results: The receiver operating characteristic curves demonstrated that both XIAP flow and MDP flow exhibited 100% sensitivity and specificity. Taken together, combining XIAP flow and MDP flow analyses allows for a highly accurate diagnosis. 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引用次数: 0

摘要

X-linked inhibitor of apoptosis protein （XIAP）缺乏症是一种X-linked隐性先天免疫错误，其特征是免疫反应异常，导致炎症性肠病和噬血细胞性淋巴组织细胞增多症。虽然通过流式细胞术（XIAP flow）分析XIAP蛋白表达通常用于诊断XIAP缺乏症，但某些变异可能不影响蛋白表达，从而使诊断过程复杂化。XIAP对于核苷酸结合和寡聚结构域2 （NOD2）信号通路至关重要。方法：在本研究中，我们旨在对9例通过基因检测诊断为XIAP缺乏症的患者进行综合分析。除了XIAP流外，我们还采用了先前报道的方法，利用NOD2的特异性激动剂muramyl dipeptide （MDP）刺激，通过流式细胞术定量评估患者单核细胞（MDP流）下游肿瘤坏死因子- α (tnf - α)的产生。结果：XIAP流动的健康对照的中位平均荧光强度为711(95%可信区间（CI） 653 ~ 815)，而XIAP缺乏患者的中位平均荧光强度为195 (95% CI, 161 ~ 386) （p < 0.0001）。在MDP流动的对照组中，产生tnf α的单核细胞的中位数百分比为29.1% (95% CI, 19.6 ~ 53.7)，而在患者中，这一比例为0.34% (95% CI, 0.18 ~ 0.82) （p = 0.0008）。结果：受体工作特性曲线显示，XIAP流和MDP流均具有100%的敏感性和特异性。结合XIAP流和MDP流分析，可以实现高度准确的诊断。(230/250)。

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Comprehensive flow cytometry-based diagnosis of XIAP deficiency.

Introduction: Deficiency of X-linked inhibitor of apoptosis protein (XIAP) is an X-linked recessive inborn error of immunity characterized by abnormal immune responses leading to inflammatory bowel disease and hemophagocytic lymphohistiocytosis. Although XIAP protein expression analysis by flow cytometry (XIAP flow) is commonly used to diagnose XIAP deficiency, certain variants may not affect the protein expression, thereby complicating the diagnostic process. XIAP is crucial for the nucleotide-binding and oligomerization domain 2 (NOD2) signaling pathway.

Methods: In this study, we aimed to perform a comprehensive analysis of nine patients diagnosed with XIAP deficiency through genetic testing. In addition to XIAP flow, we employed a previously reported method utilizing muramyl dipeptide (MDP) stimulation, a specific agonist of NOD2, to quantitatively evaluate the downstream tumor necrosis factor-alpha (TNFα) production by flow cytometry in patient monocytes (MDP flow).

Results: The median mean fluorescence intensity in healthy controls with XIAP flow was 711 (95% confidence interval (CI), 653 to 815) compared to 195 (95% CI, 161-386) in patients with XIAP deficiency (p < 0.0001). The median percentage of TNFα-producing monocytes in controls with MDP flow was 29.1% (95% CI, 19.6 to 53.7), while in patients it was 0.34% (95% CI, 0.18 to 0.82) (p = 0.0008).

Results: The receiver operating characteristic curves demonstrated that both XIAP flow and MDP flow exhibited 100% sensitivity and specificity. Taken together, combining XIAP flow and MDP flow analyses allows for a highly accurate diagnosis. (230/250).

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来源期刊

Clinical and experimental immunology 医学-免疫学

CiteScore

8.40

自引率

2.20%

发文量

101

审稿时长

3-8 weeks

期刊介绍： Clinical & Experimental Immunology (established in 1966) is an authoritative international journal publishing high-quality research studies in translational and clinical immunology that have the potential to transform our understanding of the immunopathology of human disease and/or change clinical practice. The journal is focused on translational and clinical immunology and is among the foremost journals in this field, attracting high-quality papers from across the world. Translation is viewed as a process of applying ideas, insights and discoveries generated through scientific studies to the treatment, prevention or diagnosis of human disease. Clinical immunology has evolved as a field to encompass the application of state-of-the-art technologies such as next-generation sequencing, metagenomics and high-dimensional phenotyping to understand mechanisms that govern the outcomes of clinical trials.