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Ligament injury in adult zebrafish triggers ECM remodeling and cell dedifferentiation for scar-free regeneration

Troy Anderson, Julia Mo, Ernesto Gagarin, Desmarie Sherwood, Maria Blumenkrantz, Eric Mao, Gianna Leon, Hailey Levitz, Hung-Jhen Chen, Kuo-Chang Tseng, Péter Fábián, J. Gage Crump, Joanna Smeeton

2023npj Regenerative Medicine13 citationsDOIOpen Access PDF

Abstract

After traumatic injury, healing of mammalian ligaments is typically associated with fibrotic scarring as opposed to scar-free regeneration. In contrast, here we show that the ligament supporting the jaw joint of adult zebrafish is capable of rapid and complete scar-free healing. Following surgical transection of the jaw joint ligament, we observe breakdown of ligament tissue adjacent to the cut sites, expansion of mesenchymal tissue within the wound site, and then remodeling of extracellular matrix (ECM) to a normal ligament morphology. Lineage tracing of mature ligamentocytes following transection shows that they dedifferentiate, undergo cell cycle re-entry, and contribute to the regenerated ligament. Single-cell RNA sequencing of the regenerating ligament reveals dynamic expression of ECM genes in neural-crest-derived mesenchymal cells, as well as diverse immune cells expressing the endopeptidase-encoding gene legumain. Analysis of legumain mutant zebrafish shows a requirement for early ECM remodeling and efficient ligament regeneration. Our study establishes a new model of adult scar-free ligament regeneration and highlights roles of immune-mesenchyme cross-talk in ECM remodeling that initiates regeneration.

Topics & Concepts

Regeneration (biology)Cell biologyLigamentBiologyMesenchymal stem cellExtracellular matrixWound healingZebrafishAnatomyMesenchymeCranial neural crestPeriodontal fiberPathologyNeural crestMedicineImmunologyEmbryoGeneDentistryBiochemistryDevelopmental Biology and Gene RegulationProteoglycans and glycosaminoglycans researchConnective tissue disorders research
Ligament injury in adult zebrafish triggers ECM remodeling and cell dedifferentiation for scar-free regeneration | Litcius