Mapping cell diversity and dynamics in inflammatory temporomandibular joint osteoarthritis with pain at single-cell resolution
Supawadee Jariyasakulroj, Yang Shu, Ziying Lin, Jingyi Chen, Qing Chang, Pao-Fen Ko, Jian-Fu Chen
Supawadee Jariyasakulroj, Yang Shu, Ziying Lin, Jingyi Chen, Qing Chang, Pao-Fen Ko, Jian-Fu Chen
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Research Article Cell biology Inflammation

Mapping cell diversity and dynamics in inflammatory temporomandibular joint osteoarthritis with pain at single-cell resolution

Abstract

Temporomandibular joint (TMJ) osteoarthritis with pain is a highly prevalent disorder affecting patients’ quality of life. A comprehensive understanding of cell type diversity and its dynamics in painful TMJ osteoarthritis (TMJOA) is lacking. Here, we utilized an inflammatory TMJOA mouse model via intra-articular injection of CFA. TMJOA mice exhibited cartilage remodeling, bone loss, synovitis, increased osteoarthritis (OA) score, and orofacial pain, recapitulating hallmark symptoms in patients. Single-cell transcriptomic profiling of the TMJ was performed in conjunction with mouse genetic labeling, tissue clearing, light sheet and confocal 3D imaging, multiplex RNAscope, and immunodetection. We visualized, reconstructed, and analyzed the distribution and density of nociceptive innervation of TMJ at single-axon levels. We systematically mapped the heterogeneity and anatomical position of blood endothelial cells, synovial fibroblasts, and immune cells, including Cx3cr1-positive barrier macrophages. Importantly, TMJOA mice exhibited enhanced neurovascular coupling, sublining fibroblast hyperplasia, inflammatory immune cell expansion, disrupted signaling-dependent cell-cell interaction, and a breakdown of the sandwich-like organization consisting of synovial barrier macrophages and fibroblasts. By utilizing a mouse model with combined TMJ pain history and OA, we reveal the cellular diversity, anatomical structure, and cell dynamics of the TMJ at single-cell resolution, which facilitate our understanding and potential targeting of TMJOA.

Authors

Supawadee Jariyasakulroj, Yang Shu, Ziying Lin, Jingyi Chen, Qing Chang, Pao-Fen Ko, Jian-Fu Chen

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Figure 3

Anatomical distribution of TMJ innervation and increased sensory innervation in CFA mice.

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Anatomical distribution of TMJ innervation and increased sensory innerva...
(A) Confocal imaging of the sagittal section (Z-stack of 100 μm) of TMJ from Nav1.8-Cre Ai14 mice. Scale bar: 200 μm. (A-1) Enlarged image represents the Ruffini-like encapsulated ending in the anterior synovial tissue region. Scale bar: 10 μm. (B) Enlarged imaging of the posterior region of TMJ section containing extensive innervation in subchondral bone, posterior part of the articular disc, retrodiscal tissue, and synovial tissues. (A-2 and C) Pacinian corpuscle-like structure found in the anterior part of the TMJ capsule. Scale bar: 20 μm. (D) Innervation of TMJ RDT enriched with fat pad (yellow arrowhead). Scale bar: 20 μm. (E) Nerve plexus containing free nerve endings is found in the posterior part of the TMJ capsule. Scale bar: 30 μm. (F) Immunofluorescence staining of the superior part of sagittal TMJ sections with antibodies against CGRP (green) and TUBB3 (red). DAPI stains nuclei (blue). Scale bar: 100 μm. (G) Quantification of CGRP+TUBB3+ area fraction surrounding TMJ. N = 5. (H) Schematic of nerve innervation surrounding TMJ showed an increased innervation in CFA mice, compared with control. All data are represented as mean ± SEM. Student’s t test. n = 5 mice, **P < 0.01. TUBB3, tubulin beta 3.