Mesencxchymal vs. epithelial extracellular vesicles in corneal epithelial repair, apoptosis, and immunomodulation: An in vitro study.

Corneal injuries often lead to epithelial damage, apoptosis, and inflammation which impact visual function. Effective epithelial healing is critical for optimal vision and functioning of the cornea. Mesenchymal stem/stromal cells (MSCs)-derived extracellular vesicles (EVs) present promising avenues for cell-free therapy, however, evaluation of their specific roles in corneal epithelial injury requires further investigations with due consideration to the endogenous human corneal epithelial cell-derived EVs (HCEC-EVs). This study aims to isolate and characterize the EVs from a commonly available human corneal epithelial cell line (HCE-2 [50. B1], ATCC) and evaluate their corneal epithelial repair, anti-apoptotic, and immunomodulatory potential in comparison with human bone marrow mesenchymal stem cell-derived EVs (BM-MSC-EVs) in vitro. Both the BM-MSC- and HCEC-EVs exhibited similar morphology with a diameter <150 nm. However, the yield of EVs from HCECs was higher than that of BM-MSCs. Nanoparticle tracking analysis revealed an average EV size of ∼120 nm, while western blotting confirmed the presence of CD63, CD81, and TSG101, whereas Calnexin could not be detected in the BM-MSC- and HCEC-EVs. The corneal epithelial repair was monitored through in vitro wound healing assay, whereas apoptosis was studied through flow cytometry-based Propidium iodide staining in H 2 O 2 -treated cells. IL-1β-stimulated HCECs were treated with BM-MSC- and HCEC-EVs for 24 h and expression of pro- (IL-6 and TNF-α) and anti-inflammatory (IL-10 and TGF-β) cytokines was evaluated through ELISA. Our results, limited to in vitro investigations, suggest that compared with HCEC-EVs, BM-MSC-EVs showed: i) accelerated corneal epithelial healing, ii) enhanced anti-apoptotic potential, and iii) improved anti-inflammatory properties, in cultured HCECs.