TNFRSF1A 多发性硬化症相关基因座的临床意义和功能后果。
Clinical relevance and functional consequences of the TNFRSF1A multiple sclerosis locus.
机构信息
From the Program in Translational NeuroPsychiatric Genomics, Institute for the Neurosciences, Departments of Neurology and Psychiatry (L.O., I.Y.F., M.L., B.T.K., Z.X., P.L.D.), Department of Neurology, Partners MS Center, Center for Neurologic Diseases (B.C.H., T.C., S.J.K., H.L.W., P.L.D.), and Center for Neurological Imaging, Department of Radiology (C.R.G.), Brigham and Women's Hospital and Harvard Medical School, Boston, MA; Program in Medical & Population Genetics (L.O., I.Y.F., M.L., B.T.K., Z.X., P.L.D.), Broad Institute of Harvard University and the Massachusetts Institute of Technology, Cambridge; and the Department of Neurology and Immunobiology (D.A.H.), Yale School of Medicine, New Haven, CT.
出版信息
Neurology. 2013 Nov 26;81(22):1891-9. doi: 10.1212/01.wnl.0000436612.66328.8a. Epub 2013 Oct 30.
OBJECTIVE
We set out to characterize the clinical impact and functional consequences of rs1800693(G), the multiple sclerosis (MS) susceptibility allele found in the TNFRSF1A locus.
METHODS
We analyzed prospectively collected data on patients with MS to assess the role of the TNFRSF1A locus on disease course and treatment response. Using archival serum samples and freshly isolated monocytes from patients with MS and healthy subjects, we evaluated the effects of rs1800693(G) and a second risk allele, R92Q, on immune function.
RESULTS
In 772 patients with MS, we see no evidence that rs1800693(G) strongly influences clinical or radiographic indices of disease course and treatment response; thus, rs1800693(G) appears to be primarily involved in the onset of MS. At the molecular level, this validated susceptibility allele generates an RNA isoform, TNFRSF1A Δ6, that lacks the transmembrane and cytoplasmic domains. While there was no measurable effect on serum levels of soluble TNFRSF1A, rs1800693(G) appears to alter the state of monocytes, which demonstrate a more robust transcriptional response of CXCL10 and other genes in response to tumor necrosis factor (TNF)-α. We also report that activation of the TNF-α pathway results in altered expression of 6 other MS susceptibility genes, including T-cell activation rho GTPase activating protein (TAGAP) and regulator of G-protein signaling 1 (RGS1), which are not previously known to be responsive to TNF-α.
CONCLUSIONS
The MS rs1800693(G) susceptibility allele affects the magnitude of monocyte responses to TNF-α stimulation, and the TNF pathway may be one network in which the effect of multiple MS genes becomes integrated.
目的
我们旨在描述 TNFRSF1A 基因座中多发性硬化症(MS)易感等位基因 rs1800693(G) 的临床影响和功能后果。
方法
我们分析了前瞻性收集的 MS 患者数据,以评估 TNFRSF1A 基因座在疾病进程和治疗反应中的作用。使用 MS 患者和健康受试者的存档血清样本和新分离的单核细胞,我们评估了 rs1800693(G) 和第二个风险等位基因 R92Q 对免疫功能的影响。
结果
在 772 名 MS 患者中,我们没有证据表明 rs1800693(G) 强烈影响疾病进程和治疗反应的临床或影像学指标;因此,rs1800693(G) 似乎主要参与 MS 的发病。在分子水平上,这个经过验证的易感等位基因产生一种缺乏跨膜和细胞质结构域的 RNA 同工型 TNFRSF1A Δ6。虽然可溶性 TNFRSF1A 的血清水平没有可测量的影响,但 rs1800693(G) 似乎改变了单核细胞的状态,这些细胞对肿瘤坏死因子 (TNF)-α 的反应表现出 CXCL10 和其他基因更强的转录反应。我们还报告称,TNF-α 通路的激活导致其他 6 个 MS 易感基因的表达发生改变,包括 T 细胞激活 rho GTP 酶激活蛋白 (TAGAP) 和 G 蛋白信号调节因子 1 (RGS1),这些基因以前不知道对 TNF-α 有反应。
结论
MS 的 rs1800693(G) 易感等位基因影响单核细胞对 TNF-α 刺激的反应幅度,TNF 通路可能是多个 MS 基因的作用整合的一个网络。
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