Litcius/Paper detail

Distinct fibroblast progenitor subpopulation expedites regenerative mucosal healing by immunomodulation

Kang I. Ko, Brett P. DerGarabedian, Zhaoxu Chen, Rahul Debnath, Annette Ko, Brittany Noelle Link, Jonathan Korostoff, Dana T. Graves

2022The Journal of Experimental Medicine37 citationsDOIOpen Access PDF

Abstract

Injuries that heal by fibrosis can compromise organ function and increase patient morbidity. The oral mucosal barrier has a high regenerative capacity with minimal scarring, but the cellular mechanisms remain elusive. Here, we identify distinct postnatal paired-related homeobox-1+ (Prx1+) cells as a critical fibroblast subpopulation that expedites mucosal healing by facilitating early immune response. Using transplantation and genetic ablation model in mice, we show that oral mucosa enriched with Prx1+ cells heals faster than those that lack Prx1+ cells. Lineage tracing and scRNA-seq reveal that Prx1+ fibroblasts exhibit progenitor signatures in physiologic and injured conditions. Mechanistically, Prx1+ progenitors accelerate wound healing by differentiating into immunomodulatory SCA1+ fibroblasts, which prime macrophage recruitment through CCL2 as a key part of pro-wound healing response. Furthermore, human Prx1+ fibroblasts share similar gene and spatial profiles compared to their murine counterpart. Thus, our data suggest that Prx1+ fibroblasts may provide a valuable source in regenerative procedures for the treatment of corneal wounds and enteropathic fibrosis.

Topics & Concepts

Progenitor cellWound healingFibroblastBiologyImmune systemFibrosisImmunologyFibroblast growth factorCancer researchStem cellCell biologyMedicinePathologyCell cultureGeneticsReceptorTissue Engineering and Regenerative MedicineMesenchymal stem cell researchCorneal Surgery and Treatments