Transcriptomic changes during the replicative senescence of human articular chondrocytes
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Objective Aging is a major risk factor for OA, but the specific mechanisms underlying this connection remain unclear. Although chondrocytes rarely divide in adult articular cartilage, they undergo replicative senescence in vitro which provides an opportunity to study changes related to aging under controlled laboratory conditions. Methods Cartilage was recovered from two knees with OA and one normal knee. Chondrocyte cultures were established and sub-cultured until their Hayflick limit. Bulk RNA sequencing on early- and late-passage human articular chondrocytes allowed identification of transcriptomic changes associated with cellular aging. Results One male (80 years old) and one female (72 years old) patient provided OA cartilage. The donor of normal chondrocytes was a 26-year old male. Early passage chondrocytes from the two OA samples already had the phenotype of senescing cells, unlike normal chondrocytes. Nevertheless, all three chondrocyte cultures underwent 30 population doublings before replicative exhaustion, by which point all cells displayed a senescent phenotype. During this process, the cells lost their ability to form cartilaginous pellets. Differentially expressed genes (DEGs) analysis confirmed distinct transcriptomic profiles between early- and late-passage chondrocytes, as well as between cells isolated from normal and OA cartilage. Various changes in expression of genes related to cartilage matrix synthesis, degradation, inflammation and the senescence-associated secretory phenotype (SASP) were noted. Conclusions Although only a small pilot study, its data suggest that a larger and deeper study of the molecular and metabolic events accompanying the senescence of chondrocytes could provide important insights into the pathobiology of OA.