Therapeutic efficacy of mesenchymal stem cells for the treatment of congenital and acquired corneal opacity.

Purpose: Maintenance of a transparent corneal stroma is imperative for proper vision. The corneal stroma is composed of primarily collagen fibrils, small leucine-rich proteoglycans (SLRPs), as well as sparsely distributed cells called keratocytes. The lattice arrangement and spacing of the collagen fibrils that allows for transparency may be disrupted due to genetic mutations and injuries. The purpose of this study is to examine the therapeutic efficacy of human umbilical cord mesenchymal stem/stromal cells (UMSCs) in treating congenital and acquired corneal opacity associated with the loss of collagen V. Methods: Experimental mice, i.e., wild-type, Col5a1f/f and Kera-Cre/Col5a1f/f (Col5a1∆st/∆st , collagen V null in the corneal stroma) mice in a C57BL/6J genetic background, were subjected to a lamellar keratectomy, and treated with or without UMSC (104 cells/cornea) transplantation via an intrastromal injection or a fibrin plug. In vivo Heidelberg retinal tomograph (HRT II) confocal microscopy, second harmonic generated (SHG) confocal microscopy, histology, and immunofluorescence microscopy were used to assess the corneal transparency of the regenerated corneas. Results: Col5a1∆st/∆st mice display a cloudy cornea phenotype that is ameliorated following intrastromal transplantation of UMSCs. Loss of collagen V in Col5a1∆st/∆st corneas augments the formation of cornea scarring following the keratectomy. UMSC transplantation with a fibrin plug improves the healing of injured corneas and regeneration of transparent corneas, as determined with in vivo HRT II confocal microscopy. Second harmonic confocal microscopy revealed the improved collagen fibril lamellar architecture in the UMSC-transplanted cornea in comparison to the control keratectomized corneas. Conclusions: UMSC transplantation was successful in recovering some corneal transparency in injured corneas of wild-type, Col5a1f/f and Col5a1∆st/∆st mice. The production of collagen V by transplanted UMSCs may account for the regeneration of corneal transparency, as exemplified by better collagen fiber organization, as revealed with SHG signals.