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Dynamic cell fate plasticity and tissue reintegration drive functional adult synovial joint regeneration after complete resection.


ABSTRACT: Adult mammalian synovial joints have limited regenerative capacity, where injuries heal with mechanically inferior fibrotic tissues. Here we developed a unilateral whole-joint resection model in adult zebrafish to advance our understanding of how to stimulate regrowth of native synovial joint tissues. Using a combination of microCT, histological, live imaging, and single-cell RNA sequencing (scRNAseq) approaches after complete removal of all joint tissues, we find de novo regeneration of articular cartilage, ligament, and synovium into a functional joint. Clonal lineage tracing and scRNAseq implicate a multipotent, neural crest-derived population in the adult skeleton as a cell source for these regenerating tissues. Together, our findings reveal latent molecular and cellular programs within the adult skeleton that are deployed to regenerate a complex joint with lubricated articular cartilage.

SUBMITTER: Blumenkrantz M 

PROVIDER: S-EPMC12480486 | biostudies-literature | 2025 Sep

REPOSITORIES: biostudies-literature

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Dynamic cell fate plasticity and tissue reintegration drive functional adult synovial joint regeneration after complete resection.

Blumenkrantz Maria M   Woron Felicia F   Gagarin Ernesto E   Weinstein Everett E   Kamel Maryam H MH   Campos Leonardo L   Geras Agnieszka A   Anderson Troy T   Mo Julia J   Sherwood Desmarie D   Gwin Maya M   Dumitrascu Bianca B   Chahine Nadeen O NO   Smeeton Joanna J  

Nature communications 20250929 1


Adult mammalian synovial joints have limited regenerative capacity, where injuries heal with mechanically inferior fibrotic tissues. Here we developed a unilateral whole-joint resection model in adult zebrafish to advance our understanding of how to stimulate regrowth of native synovial joint tissues. Using a combination of microCT, histological, live imaging, and single-cell RNA sequencing (scRNAseq) approaches after complete removal of all joint tissues, we find de novo regeneration of articul  ...[more]

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