R125H, W240S, C386R, and V507ISLC4A11 mutations associated with corneal endothelial dystrophy affect the transporter function but not trafficking in PS120 cells.
In conclusion, our data suggests a possible role of SLC4A11 in regulating oxidative stress, and might be responsible for both the etiology and treatment of corneal endothelial dystrophy.
Mutations in SLC4A11 have been associated with 2 different forms of corneal endothelial dystrophy that lead to degeneration of the corneal endothelium, causing opacity of the cornea and gradual vision loss.
However, linkage, association and familial segregation analyses support a role of only one gene in each corneal endothelial dystrophy: ZEB1 in PPCD3, SLC4A11 in CHED2 and COL8A2 in FECD (early onset).
Inversely related HCEnC expression levels of ZEB1 and COL4A3 in PPCD3 indicate that ZEB1-mediated alterations in COL4A3 expression are most likely associated with the pathogenesis of this corneal endothelial dystrophy.
Inversely related HCEnC expression levels of ZEB1 and COL4A3 in PPCD3 indicate that ZEB1-mediated alterations in COL4A3 expression are most likely associated with the pathogenesis of this corneal endothelial dystrophy.