The Jackson Laboratory, Farmington, CT 06032, USA; The University of Connecticut Health Center, Farmington, CT 06030, USA.
The Jackson Laboratory, Farmington, CT 06032, USA.
Cell Host Microbe. 2023 Feb 8;31(2):273-287.e5. doi: 10.1016/j.chom.2023.01.001.
Myalgic encephalomyelitis/chronic fatigue syndrome (ME/CFS) is a complex, debilitating disorder manifesting as severe fatigue and post-exertional malaise. The etiology of ME/CFS remains elusive. Here, we present a deep metagenomic analysis of stool combined with plasma metabolomics and clinical phenotyping of two ME/CFS cohorts with short-term (<4 years, n = 75) or long-term disease (>10 years, n = 79) compared with healthy controls (n = 79). First, we describe microbial and metabolomic dysbiosis in ME/CFS patients. Short-term patients showed significant microbial dysbiosis, while long-term patients had largely resolved microbial dysbiosis but had metabolic and clinical aberrations. Second, we identified phenotypic, microbial, and metabolic biomarkers specific to patient cohorts. These revealed potential functional mechanisms underlying disease onset and duration, including reduced microbial butyrate biosynthesis and a reduction in plasma butyrate, bile acids, and benzoate. In addition to the insights derived, our data represent an important resource to facilitate mechanistic hypotheses of host-microbiome interactions in ME/CFS.
肌痛性脑脊髓炎/慢性疲劳综合征(ME/CFS)是一种复杂的、使人虚弱的疾病,表现为严重疲劳和运动后不适。ME/CFS 的病因仍然难以捉摸。在这里,我们对粪便进行了深度宏基因组分析,并结合了两个 ME/CFS 队列的血浆代谢组学和临床表型分析,这两个队列的疾病持续时间较短(<4 年,n=75)或较长(>10 年,n=79),与健康对照组(n=79)进行了比较。首先,我们描述了 ME/CFS 患者的微生物和代谢组失调。短期患者表现出明显的微生物失调,而长期患者的微生物失调基本得到解决,但存在代谢和临床异常。其次,我们确定了针对患者队列的表型、微生物和代谢生物标志物。这些标志物揭示了疾病发作和持续时间的潜在功能机制,包括微生物丁酸生物合成减少以及血浆丁酸、胆汁酸和苯甲酸减少。除了得出的见解外,我们的数据还代表了一个重要的资源,有助于促进 ME/CFS 中宿主-微生物组相互作用的机制假设。