Synovial Fibroblasts Assume Distinct Functional Identities and Secrete R-spondin 2 in Osteoarthritis

Overview

Journal Ann Rheum Dis

Specialty Rheumatology

Date 2022 Sep 29

PMID 36175067

Authors

Alexander J Knights

Easton C Farrell

Olivia M Ellis

Lindsey Lammlin

Lucas M Junginger

Phillip M Rzeczycki

Rachel F Bergman

Rida Pervez

Monique Cruz

Eleanor Knight

Dennis Farmer

Alexa A Samani

Chia-Lung Wu

Kurt D Hankenson

Tristan Maerz

Affiliations

Soon will be listed here.

Abstract

Objectives: Synovium is acutely affected following joint trauma and contributes to post-traumatic osteoarthritis (PTOA) progression. Little is known about discrete cell types and molecular mechanisms in PTOA synovium. We aimed to describe synovial cell populations and their dynamics in PTOA, with a focus on fibroblasts. We also sought to define mechanisms of synovial Wnt/β-catenin signalling, given its emerging importance in arthritis.

Methods: We subjected mice to non-invasive anterior cruciate ligament rupture as a model of human joint injury. We performed single-cell RNA-sequencing to assess synovial cell populations, subjected Wnt-GFP reporter mice to joint injury to study Wnt-active cells, and performed intra-articular injections of the Wnt agonist R-spondin 2 (Rspo2) to assess whether gain of function induced pathologies characteristic of PTOA. Lastly, we used cultured fibroblasts, macrophages and chondrocytes to study how Rspo2 orchestrates crosstalk between joint cell types.

Results: We uncovered seven distinct functional subsets of synovial fibroblasts in healthy and injured synovium, and defined their temporal dynamics in early and established PTOA. Wnt/β-catenin signalling was overactive in PTOA synovium, and Rspo2 was strongly induced after injury and secreted exclusively by Prg4 lining fibroblasts. Trajectory analyses predicted that Prg4 lining fibroblasts arise from a pool of Dpp4+ mesenchymal progenitors in synovium, with SOX5 identified as a potential regulator of this emergence. We also showed that Rspo2 orchestrated pathological crosstalk between synovial fibroblasts, macrophages and chondrocytes.

Conclusions: Synovial fibroblasts assume distinct functional identities during PTOA in mice, and Prg4 lining fibroblasts secrete Rspo2 that may drive pathological joint crosstalk after injury.

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