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Defining the spatial-molecular map of fibrotic tendon healing and the drivers of Scleraxis-lineage cell fate and function

Jessica E. Ackerman, Katherine T. Best, Samantha Muscat, Elizabeth M. Pritchett, Anne E. C. Nichols, Chia‐Lung Wu, Alayna E. Loiselle

2022Cell Reports55 citationsDOIOpen Access PDF

Abstract

Tendon injuries heal via a scar-mediated response, and there are no biological approaches to promote more regenerative healing. Mouse flexor tendons heal through the formation of spatially distinct tissue areas: a highly aligned tissue bridge between the native tendon stubs that is enriched for adult Scleraxis-lineage cells and a disorganized outer shell associated with peri-tendinous scar formation. However, the specific molecular programs that underpin these spatially distinct tissue profiles are poorly defined. In the present study, we combine lineage tracing of adult Scleraxis-lineage cells with spatial transcriptomic profiling to define the overarching molecular programs that govern tendon healing and cell-fate decisions. Pseudotime analysis identified three fibroblast trajectories (synthetic, fibrotic, and reactive) and key transcription factors regulating these fate-switching decisions, including the progression of adult Scleraxis-lineage cells through the reactive trajectory. Collectively, this resource defines the molecular mechanisms that coordinate the temporo-spatial healing phenotype, which can be leveraged to inform therapeutic candidate selection.

Topics & Concepts

BiologyRegeneration (biology)Lineage (genetic)Cell biologyCell fate determinationTranscriptomeTranscription factorPhenotypeWound healingTendonAnatomyGeneticsGeneGene expressionTendon Structure and TreatmentCellular Mechanics and InteractionsViral Infectious Diseases and Gene Expression in Insects