Reduced cartilage matrix stiffness in temporomandibular joint osteoarthritis impairs the functions of superficial zone chondrocytes via downregulation of CREB5-PLPP3 signaling
Yeke Yu, Dongsheng Wen, Luxiang Zou, Huimin Zhu, Xiaoyu Zhang, Chuandong Wang, Chuan Lu, Jieyun Zhao, Yifan Zhang, Dongmei He, Zhiyuan Zhang

TL;DR
This study shows how reduced cartilage stiffness in TMJ osteoarthritis impairs chondrocyte function through disrupted signaling pathways.
Contribution
The study identifies a novel CREB5-PLPP3 signaling pathway linking ECM stiffness to chondrocyte function in TMJOA.
Findings
Reduced ECM stiffness in TMJOA decreases Plpp3 expression and impairs SZC function.
Decreased PLPP3 disrupts mitochondrial function and limits ECM regeneration.
Overexpression of PLPP3 improves SZC function and reduces cartilage degradation.
Abstract
Temporomandibular joint (TMJ) plays critical roles in the movement of mandible. TMJ osteoarthritis (TMJOA) leads to pain and limited jaw function. Histologically, TMJOA causes cartilage degradation and a reduction in extracellular matrix (ECM) stiffness. The superficial zone chondrocytes (SZC) contribute in the regeneration of the condylar fibrocartilage in TMJ, while their responses to the softened ECM remains unclear. Here, we showed that the ECM stiffness was decreased in the superficial zone cartilage of TMJOA patients and rat models. Single-cell RNA sequencing demonstrated the diminished phospholipid phosphatase 3 (Plpp3) expression, impaired migration, and ECM secretion, as well as the down-regulated PI3K-AKT pathway of SZC in rat TMJOA. Such alternations were also revealed by mRNA sequencing of SZC cultured on the softened ECM. Further studies disclosed that reduced ECM stiffness…
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Taxonomy
TopicsTemporomandibular Joint Disorders · Osteoarthritis Treatment and Mechanisms · Fibroblast Growth Factor Research
