鉴定软骨微生物 DNA 特征及其与膝和髋关节骨关节炎的关联。
Identification of Cartilage Microbial DNA Signatures and Associations With Knee and Hip Osteoarthritis.
机构信息
University of Oklahoma Health Sciences Center and Oklahoma Medical Research Foundation, Oklahoma City.
University of Arkansas for Medical Sciences, Little Rock.
出版信息
Arthritis Rheumatol. 2020 Jul;72(7):1111-1122. doi: 10.1002/art.41210. Epub 2020 May 12.
OBJECTIVE
Alterations of the gut microbiota have been implicated in many forms of arthritis, but an examination of cartilage microbial patterns has not been performed. This study was undertaken to characterize the microbial DNA profile of articular cartilage and determine changes associated with osteoarthritis (OA).
METHODS
We performed 16S ribosomal RNA gene deep sequencing on eroded and intact cartilage samples from knee OA patients (n = 21 eroded and 21 intact samples) and hip OA patients (n = 34 eroded and 33 intact samples) and cadaver controls (n = 10 knee samples and 10 hip samples). Microbial DNA diversity was assessed, groups were compared, and metagenomic profiles were reconstructed. Confirmation was performed in an independent cohort by clade-specific quantitative polymerase chain reaction. Findings in human cartilage were compared to those in cartilage from OA-susceptible C57BL/6 (B6) mice and OA-resistant MRL/MpJ (MRL) mice. Germ-free B6 mouse cartilage was analyzed as a methodologic control.
RESULTS
Alpha diversity was reduced in human OA versus control samples (P < 0.0001), and in hip versus knee samples (P < 0.0001). Numerous clades were different in human OA versus control samples, and similar findings were noted in comparisons of murine B6 versus MRL mice. Hip samples were microbiologically distinct from knee samples. OA microbial DNA demonstrated increased gram-negative constituents (P = 0.02). Functional analysis demonstrated increases in lipopolysaccharide production (P = 9.9 × 10 ), phosphatidylinositol signaling (P = 4.2 × 10 ), and nitrogen metabolism (P = 8 × 10 ) and decreases in sphingolipid metabolism (P = 7.7 × 10 ) associated with OA.
CONCLUSION
Our study reveals a microbial DNA signature in human and mouse cartilage. Alterations in this signature, including increases in gram-negative constituents, occur during the development and progression of human OA. Furthermore, our findings indicate that strain-specific signatures exist within mouse cartilage that mirror human patterns. Further study of the establishment and potential pathogenic role of these DNA signatures is needed.
目的
肠道微生物群的改变与许多形式的关节炎有关,但尚未对软骨微生物模式进行检查。本研究旨在描述关节软骨的微生物 DNA 图谱,并确定与骨关节炎 (OA) 相关的变化。
方法
我们对膝骨关节炎患者(侵蚀性和非侵蚀性样本各 21 例)、髋骨关节炎患者(侵蚀性和非侵蚀性样本各 34 例)和尸体对照者(膝部样本 10 例,髋部样本 10 例)的侵蚀性和非侵蚀性软骨样本进行了 16S 核糖体 RNA 基因深度测序。评估了微生物 DNA 多样性,对各组进行了比较,并重建了宏基因组图谱。通过种特异性定量聚合酶链反应在独立队列中进行了验证。将人类软骨中的发现与 OA 易感 C57BL/6 (B6) 小鼠和 OA 抵抗 MRL/MpJ (MRL) 小鼠的软骨中的发现进行了比较。无菌 B6 小鼠软骨被分析为一种方法学对照。
结果
与对照组相比,人类 OA 样本的 α 多样性降低(P < 0.0001),髋部样本的 α 多样性降低(P < 0.0001)。与对照组相比,人类 OA 样本中有许多类群不同,B6 小鼠与 MRL 小鼠的比较也有类似的发现。髋部样本与膝部样本在微生物学上有区别。OA 微生物 DNA 表现出革兰氏阴性成分增加(P = 0.02)。功能分析表明,脂多糖产生(P = 9.9×10)、磷脂酰肌醇信号(P = 4.2×10)和氮代谢(P = 8×10)增加,鞘脂代谢(P = 7.7×10)减少与 OA 有关。
结论
我们的研究揭示了人类和小鼠软骨中的微生物 DNA 特征。这种特征的改变,包括革兰氏阴性成分的增加,发生在人类 OA 的发展和进展过程中。此外,我们的发现表明,小鼠软骨中存在与人类模式相似的菌株特异性特征。需要进一步研究这些 DNA 特征的建立和潜在的致病作用。
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