Novel peripheral blood mononuclear cell mRNA signature for IFN-beta therapy responsiveness prediction in multiple sclerosis.

IF 3.3 4区 医学 Q3 IMMUNOLOGY Autoimmunity Pub Date : 2024-12-01 Epub Date: 2024-03-28 DOI:10.1080/08916934.2024.2332340
Yang Xue, Pengqi Yin, Hongping Chen, Guozhong Li, Di Zhong
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Abstract

Interferon-beta (IFN-β) is one of the classical drugs for immunomodulatory therapy in relapsing-remitting multiple sclerosis (RRMS) patients, but the drug responsiveness of different patients varies. Currently, there is no valid model to predict IFN-β responsiveness. This research attempted to develop an IFN-β responsiveness prediction model based on mRNA expression in RRMS patient peripheral blood mononuclear cells. Peripheral blood mononuclear cell mRNA expression datasets including 50 RRMS patients receiving IFN-β treatment were obtained from GEO. Among the datasets, 24 cases from GSE24427 were included in a training set, and 18 and 9 cases from GSE19285 and GSE33464, respectively, were adopted as two independent test sets. In the training set, blood samples were collected immediately before first, second, month 1, 12, and 24 IFN-β injection, and the mRNA expression data at four time points, namely, two days, one month, one year and two years after the onset of IFN-β treatment, were compared with pre-treatment data to identify IFN-stimulated genes (ISGs). The ISGs at the one-month time point were used to construct the drug responsiveness prediction model. Next, the drug responsiveness model was verified in the two independent test sets to examine the performance of the model in predicting drug responsiveness. Finally, we used CIBERSORTx to estimate the content of cell subtypes in samples and evaluated whether differences in the proportions of cell subtypes were related to differences in IFN-β responsiveness. Among the four time points, one month was the time point when the training set GSE24427 and test set GSE33464 had the highest number of ISGs. Functional analysis showed that these one-month ISGs were enriched in biological functions such as the innate immune response, type-I interferon signalling pathway, and other IFN-β-associated functions. Based on these ISGs, we obtained a four-factor prediction model for IFN-β responsiveness including MX1, MX2, XAF1, and LAMP3. In addition, the model demonstrated favourable predictive performance within the training set and two external test sets. A higher proportion of activated NK cells and lower naive CD4/total CD4 ratio might indicate better drug responsiveness. This research developed a polygene-based biomarker model that could predict RRMS patient IFN-β responsiveness in the early treatment period. This model could probably help doctors screen out patients who would not benefit from IFN-β treatment early and determine whether a current treatment plan should be continued.

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用于预测多发性硬化症 IFN-beta 治疗反应性的新型外周血单核细胞 mRNA 标志。
干扰素-β(IFN-β)是复发性多发性硬化症(RRMS)患者免疫调节治疗的经典药物之一,但不同患者对药物的反应性各不相同。目前,还没有有效的模型来预测 IFN-β 的反应性。本研究试图根据 RRMS 患者外周血单核细胞的 mRNA 表达建立一个 IFN-β 反应性预测模型。研究人员从 GEO 获得了包括 50 名接受 IFN-β 治疗的 RRMS 患者的外周血单核细胞 mRNA 表达数据集。其中,GSE24427的24个病例被纳入训练集,GSE19285和GSE33464的18个和9个病例分别被作为两个独立的测试集。在训练集中,采集了注射 IFN-β 第一、第二、第 1、12 和 24 个月前的血液样本,并将 IFN-β 治疗开始后两天、一个月、一年和两年四个时间点的 mRNA 表达数据与治疗前的数据进行比较,以确定 IFN 刺激基因(ISGs)。一个月时间点的 ISGs 用于构建药物反应性预测模型。接下来,药物反应性模型在两个独立的测试集中进行了验证,以检验模型在预测药物反应性方面的性能。最后,我们使用 CIBERSORTx 估算样本中细胞亚型的含量,并评估细胞亚型比例的差异是否与 IFN-β 反应性的差异有关。在四个时间点中,一个月是训练集 GSE24427 和测试集 GSE33464 中 ISGs 数量最多的时间点。功能分析显示,这些一个月的 ISGs 在先天性免疫反应、Ⅰ型干扰素信号通路和其他 IFN-β 相关功能等生物功能中富集。基于这些 ISGs,我们得到了一个 IFN-β 反应性的四因子预测模型,包括 MX1、MX2、XAF1 和 LAMP3。此外,该模型在训练集和两个外部测试集中都表现出了良好的预测性能。活化的 NK 细胞比例越高,幼稚 CD4/总 CD4 比率越低,表明对药物的反应性越好。这项研究建立了一个基于多基因的生物标志物模型,可以预测RRMS患者在早期治疗阶段对IFN-β的反应性。该模型或许能帮助医生及早筛查出无法从 IFN-β 治疗中获益的患者,并确定是否应继续当前的治疗方案。
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
Autoimmunity
Autoimmunity 医学-免疫学
CiteScore
5.70
自引率
8.60%
发文量
59
审稿时长
6-12 weeks
期刊介绍: Autoimmunity is an international, peer reviewed journal that publishes articles on cell and molecular immunology, immunogenetics, molecular biology and autoimmunity. Current understanding of immunity and autoimmunity is being furthered by the progress in new molecular sciences that has recently been little short of spectacular. In addition to the basic elements and mechanisms of the immune system, Autoimmunity is interested in the cellular and molecular processes associated with systemic lupus erythematosus, rheumatoid arthritis, Sjogren syndrome, type I diabetes, multiple sclerosis and other systemic and organ-specific autoimmune disorders. The journal reflects the immunology areas where scientific progress is most rapid. It is a valuable tool to basic and translational researchers in cell biology, genetics and molecular biology of immunity and autoimmunity.
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