软骨
骨关节炎
细胞生物学
弯月面
细胞外基质
转录因子
人口
基因表达
细胞
医学
生物
病理
基因
解剖
遗传学
物理
替代医学
光学
环境卫生
入射(几何)
作者
Hannah Swahn,Kun Li,Tomás Duffy,Merissa Olmer,Darryl D. D’Lima,Tony S. Mondala,Padmaja Natarajan,Steven R. Head,Martin Lotz
标识
DOI:10.1136/ard-2022-223227
摘要
Objectives Single-cell level analysis of articular cartilage and meniscus tissues from human healthy and osteoarthritis (OA) knees. Methods Single-cell RNA sequencing (scRNA-seq) analyses were performed on articular cartilage and meniscus tissues from healthy (n=6, n=7) and OA (n=6, n=6) knees. Expression of genes of interest was validated using immunohistochemistry and RNA-seq and function was analysed by gene overexpression and depletion. Results scRNA-seq analyses of human knee articular cartilage (70 972 cells) and meniscus (78 017 cells) identified a pathogenic subset that is shared between both tissues. This cell population is expanded in OA and has strong OA and senescence gene signatures. Further, this subset has critical roles in extracellular matrix (ECM) and tenascin signalling and is the dominant sender of signals to all other cartilage and meniscus clusters and a receiver of TGFβ signalling. Fibroblast activating protein (FAP) is also a dysregulated gene in this cluster and promotes ECM degradation. Regulons that are controlled by transcription factor ZEB1 are shared between the pathogenic subset in articular cartilage and meniscus. In meniscus and cartilage cells, FAP and ZEB1 promote expression of genes that contribute to OA pathogenesis, including senescence. Conclusions These single-cell studies identified a senescent pathogenic cell cluster that is present in cartilage and meniscus and has FAP and ZEB1 as main regulators which are novel and promising therapeutic targets for OA-associated pathways in both tissues.
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