Gene expression profiling in rheumatology.

Tineke C T M van der Pouw Kraan, Lisa G M van Baarsen, François Rustenburg, Belinda Baltus, Mike Fero, Cornelis L Verweij
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引用次数: 16

Abstract

In the last decade, the analysis of gene expression in tissues and cells has evolved from the analysis of a selected set of genes to an efficient high throughput whole-genome screening approach of potentially all genes expressed. Development of sophisticated methodologies such as microarray technology allows an open-ended survey to identify comprehensively the fraction of genes that are differentially expressed between samples and that define the samples' unique biology. By a global analysis of the genes that are expressed in cells and tissues of an individual under different conditions and during disease, we can build up "gene expression profiles (signatures)" which characterize the dynamic functioning of the genome under pathophysiological conditions. This strategy also provides the means to subdivide patients that suffer from a complex heterogeneous disease into more homogeneous subgroups. Such discovery-based research identifies biological processes that may include new genes with unknown function or genes not previously known to be involved in this process. The latter category may hold surprises that sometimes urge us to redirect our thinking. We have used microarrays to disclose the heterogeneity of rheumatoid arthritis (RA) patients at the level of gene expression of the affected synovial tissues. Analysis of the expression profiles of synovial tissues from different patients with RA revealed considerable variability, resulting in the identification of at least two molecularly distinct forms of RA tissues. One is characterized by genes that indicate an active inflammatory infiltrate with high immunoglobulin production, whereas the other type shows little immune activation and instead shows a higher stromal cell activity. These results confirm the heterogeneous nature of RA and suggest the existence of distinct pathogenic mechanisms that contribute to RA. The differences in expression profiles provide opportunities to stratify patients for intervention therapies based on molecular criteria.

风湿病学中的基因表达谱。
在过去的十年中,组织和细胞中基因表达的分析已经从分析一组选定的基因发展到一种高效的高通量全基因组筛选方法,可以潜在地表达所有基因。微阵列技术等复杂方法的发展使开放式调查能够全面确定样品之间差异表达的基因部分,并定义样品的独特生物学。通过对个体在不同条件下和疾病期间细胞和组织中表达的基因进行全局分析,我们可以建立“基因表达谱(特征)”,表征病理生理条件下基因组的动态功能。该策略还提供了将患有复杂异质性疾病的患者细分为更均匀的亚组的手段。这种基于发现的研究确定了可能包括具有未知功能的新基因或先前不知道参与该过程的基因的生物过程。后一类可能会有一些惊喜,有时会促使我们重新思考。我们使用微阵列来揭示类风湿关节炎(RA)患者在受影响滑膜组织基因表达水平上的异质性。对不同RA患者滑膜组织表达谱的分析揭示了相当大的变异性,从而确定了至少两种分子不同形式的RA组织。一种类型的特征是基因表明炎症浸润具有高免疫球蛋白的产生,而另一种类型显示很少的免疫激活,相反显示更高的基质细胞活性。这些结果证实了类风湿性关节炎的异质性,并表明存在不同的致病机制,有助于类风湿性关节炎。表达谱的差异为基于分子标准的干预治疗患者分层提供了机会。
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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