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Distinct mural cells and fibroblasts drive fibrochondrogenesis in retrodiscal tissue following temporomandibular joint disc displacement
Wenlin Yuan, Yilin Chen, Ruojin Yan, Wei Liu, Chenyu Wang, Ying Wang, Qiaoli Dai, Wen Li, Mengqi Zhu, Xiao Chen, Jiejun Shi
Wenlin Yuan, Yilin Chen, Ruojin Yan, Wei Liu, Chenyu Wang, Ying Wang, Qiaoli Dai, Wen Li, Mengqi Zhu, Xiao Chen, Jiejun Shi
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Research Article Bone biology Cell biology

Distinct mural cells and fibroblasts drive fibrochondrogenesis in retrodiscal tissue following temporomandibular joint disc displacement

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Abstract

Adaptive remodeling of retrodiscal tissue following anterior disc displacement (ADD) of the temporomandibular joint (TMJ) has been recognized for decades, yet the underlying cellular dynamics and molecular mechanisms remain unclear. Using a porcine ADD model, this study investigated the cellular and molecular basis driving retrodiscal tissue adaptation. Histological staining revealed adaptive remodeling of retrodiscal tissue after ADD induction, with dense connective tissue and cartilaginous masses replacing loose connective tissue. Single-cell RNA-Seq captured pronounced fibroblast expansion during tissue remodeling, notably the FB2 subcluster with high developmental potential, and the emergence of a mural cell subcluster, MC4, associated with extracellular matrix (ECM) remodeling. CellChat analysis highlighted MC4-FB2 crosstalk via FGF2 and BMP5 signaling. The combination of pathway-aware multilayered hierarchical network (P-NET) and Seurat with drug database screening identified 5 promising compounds. Among them, zaprinast demonstrated the most robust effects by enhancing the remodeling capability of fibroblasts in vitro and alleviated TMJ deformation in vivo. Collectively, fibroblast activation is pivotal for early retrodiscal tissue adaptation after ADD, which is driven by MC4-derived FGF2/BMP5 signaling. Zaprinast treatment potentiates this remodeling process. These findings provide potentially new insights into the cellular basis of TMJ adaptation and identify potential therapeutic targets for ADD management.

Authors

Wenlin Yuan, Yilin Chen, Ruojin Yan, Wei Liu, Chenyu Wang, Ying Wang, Qiaoli Dai, Wen Li, Mengqi Zhu, Xiao Chen, Jiejun Shi

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Figure 1

The cellular landscape and histological features of porcine TMJ discs and RTs from the sham, ADD, and CADD groups.

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The cellular landscape and histological features of porcine TMJ discs an...
(A) A schematic workflow illustrating the generation of the UADD pig model and subsequent dissection of pig TMJ discs and RTs for single-cell transcriptomic analysis. (B) Dimension reduction presentation of combined single-cell transcriptome data from TMJ discs and RTs of all groups. Each dot represents a single-cell and is labeled with corresponding cell categories and colored according to its cell-type identity. Five cell clusters are visualized by a uniform manifold approximation and projection (UMAP) plot: endothelial cells (ECs); fibroblasts (FBs); immune cells (ICs); mural cells (MCs); cells in cell cycle (Cycle). (C) Dimension reduction presentation of single-cell transcriptome data of TMJ discs (Ds) and retrodiscal tissues (RTs) from sham, ADD, and CADD groups via UMAP, displayed separately by tissue origins and groups. (D) Bar graph shows the fraction of cell clusters by tissue origins and groups. (E) Expression patterns of selected markers projected on the UMAP plot. (F) Heatmap revealing the top 5 differentially expressed genes (DEGs) of each cell cluster. Representative H&E staining (G) and Alcian blue staining (H) of the TMJ discs and RTs from the sham, ADD, and CADD groups. Scale bars: 100 μm.

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ISSN 2379-3708

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