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Multimodal analyses of immune cells during bone repair identify macrophages as a therapeutic target in musculoskeletal trauma

Yasmine Hachemi, Simon Perrin, Maria Ethel, Anaïs Julien, Julia Vettese, Blandine Geisler, Christian Göritz, Céline Colnot

2024Bone Research31 citationsDOIOpen Access PDF

Abstract

Musculoskeletal traumatic injuries (MTI) involve soft tissue lesions adjacent to a bone fracture leading to fibrous nonunion. The impact of MTI on the inflammatory response to fracture and on the immunomodulation of skeletal stem/progenitor cells (SSPCs) remains unknown. Here, we used single-nucleus transcriptomic analyses to describe the immune cell dynamics after bone fracture and identified distinct macrophage subsets with successive pro-inflammatory, pro-repair and anti-inflammatory profiles. Concurrently, SSPCs transition via a pro- and anti-inflammatory fibrogenic phase of differentiation prior to osteochondrogenic differentiation. In a preclinical MTI mouse model, the injury response of immune cells and SSPCs is disrupted leading to a prolonged pro-inflammatory phase and delayed resolution of inflammation. Macrophage depletion improves bone regeneration in MTI demonstrating macrophage involvement in fibrous nonunion. Finally, pharmacological inhibition of macrophages using the CSF1R inhibitor Pexidartinib ameliorates healing. These findings reveal the coordinated immune response of macrophages and skeletal stem/progenitor cells as a driver of bone healing and as a primary target for the treatment of trauma-associated fibrosis.

Topics & Concepts

NonunionProgenitor cellBone healingInflammationImmune systemMacrophageRegeneration (biology)MedicineStem cellImmunologyCell biologyCancer researchBiologyAnatomyIn vitroBiochemistryImmune cells in cancerNeonatal Respiratory Health ResearchMesenchymal stem cell research
Multimodal analyses of immune cells during bone repair identify macrophages as a therapeutic target in musculoskeletal trauma | Litcius