Purpose: To report a unique corneal dystrophy characterized by deposits at Bowman's layer and stromal lattice lines associated with the Gly623Asp missense mutation in the transforming growth factor beta-induced (TGFBI) gene.
Design: Experimental study.
Participants and controls: The proband, 3 affected siblings, 4 unaffected relatives, and 100 control individuals.
Methods: Slit-lamp examination, photographic documentation, and isolation of genomic DNA from buccal mucosal swabs obtained from each family member examined. Exons 4 and 11 to 14 of the TGFBI gene were amplified and sequenced in these family members and in control individuals.
Main outcome measures: Clinical characteristics of corneal opacification in affected patients and presence of coding region changes in the TGFBI gene.
Results: Significant phenotypic variability, including polymorphic Bowman's layer opacities and stromal lattice lines, was noted in the 4 affected siblings who were examined. Screening of TGFBI exon 14 in the proband, 3 affected siblings, and a 19-year-old unaffected relative revealed a missense change, Gly623Asp, that was absent in the other 3 unaffected relatives screened and in 200 control chromosomes.
Conclusions: We report a novel corneal dystrophy phenotype secondary to the Gly623Asp mutation in the TGFBI gene that is associated with clinical features of both lattice corneal dystrophy and a Bowman's layer dystrophy. The presence of clinical features considered atypical for a TGFBI-associated dystrophy in this pedigree, as well as the wide range of phenotypic expressions of the Gly623Asp mutation in affected members, underscore the clinical utility of molecular genetic analysis in the diagnosis of suspected corneal dystrophies.