Division of Immunology, Boston Children's Hospital, Harvard Medical School, Boston, Mass.
Federal State Autonomous Institution "National Medical Research Center for Children's Health" of the Ministry of Health of the Russian Federation, Moscow, Russia.
J Allergy Clin Immunol. 2023 Sep;152(3):771-782. doi: 10.1016/j.jaci.2023.04.014. Epub 2023 May 5.
Deficiency of adenosine deaminase 2 (DADA2) results in heterogeneous manifestations including systemic vasculitis and red cell aplasia. The basis of different disease phenotypes remains incompletely defined.
We sought to further delineate disease phenotypes in DADA2 and define the mechanistic basis of ADA2 variants.
We analyzed the clinical features and ADA2 variants in 33 patients with DADA2. We compared the transcriptomic profile of 14 patients by bulk RNA sequencing. ADA2 variants were expressed experimentally to determine impact on protein production, trafficking, release, and enzymatic function.
Transcriptomic analysis of PBMCs from DADA2 patients with the vasculitis phenotype or pure red cell aplasia phenotype exhibited similar upregulation of TNF, type I interferon, and type II interferon signaling pathways compared with healthy controls. These pathways were also activated in 3 asymptomatic individuals with DADA2. Analysis of ADA2 variants, including 7 novel variants, showed different mechanisms of functional disruption including (1) unstable transcript leading to RNA degradation; (2) impairment of ADA2 secretion because of retention in the endoplasmic reticulum; (3) normal expression and secretion of ADA2 that lacks enzymatic function; and (4) disruption of the N-terminal signal peptide leading to cytoplasmic localization of unglycosylated protein.
Transcriptomic signatures of inflammation are observed in patients with different disease phenotypes, including some asymptomatic individuals. Disease-associated ADA2 variants affect protein function by multiple mechanisms, which may contribute to the clinical heterogeneity of DADA2.
腺苷脱氨酶 2 (DADA2) 的缺乏导致多种表现,包括系统性血管炎和红细胞再生障碍。不同疾病表型的基础仍不完全明确。
我们旨在进一步阐明 DADA2 中的疾病表型,并确定 ADA2 变体的机制基础。
我们分析了 33 例 DADA2 患者的临床特征和 ADA2 变体。我们通过 bulk RNA 测序比较了 14 例患者的转录组谱。实验表达 ADA2 变体,以确定其对蛋白质产生、运输、释放和酶功能的影响。
与健康对照组相比,具有血管炎表型或纯红细胞再生障碍表型的 DADA2 患者的 PBMCs 转录组分析显示 TNF、I 型干扰素和 II 型干扰素信号通路相似上调。这些通路在 3 例无症状的 DADA2 个体中也被激活。ADA2 变体的分析,包括 7 种新变体,显示了不同的功能破坏机制,包括 (1) 不稳定的转录导致 RNA 降解;(2) 由于内质网滞留而导致 ADA2 分泌受损;(3) 正常表达和分泌缺乏酶活性的 ADA2;以及 (4) 破坏 N 端信号肽导致未糖基化蛋白的细胞质定位。
不同疾病表型的患者,包括一些无症状个体,均观察到炎症的转录组特征。与疾病相关的 ADA2 变体通过多种机制影响蛋白质功能,这可能导致 DADA2 的临床异质性。
