Purpose: To study retinal function and morphology in ABCA4 carriers to investigate if ABCA4 carriership is associated with any functional or morphological changes and, if so, to explore whether certain mutations may be associated with particularly severe alterations.
Methods: Eighteen subjects were recruited by means of being the parents of 10 teenagers/young adults with genetically confirmed ABCA4-associated retinal degenerations. The teenagers/young adults are well-known patients and have been followed in our clinic for many years. The eighteen subjects underwent careful ophthalmological examinations, including fundus photography and autofluorescence imaging, Goldmann perimetry, optical coherence tomography (OCT), full-field electroretinography (ffERG), multifocal electroretinography (mERG), and ABCA4 gene sequencing. The ffERG and mERG results were compared with those of healthy controls.
Results: All subjects carried at least one ABCA4 mutation. Two subjects were compound heterozygous and therefore were excluded from the group-wise statistical analysis. Thirteen different ABCA4 mutations were found. C.2894 A>G (5/18) and c.768 G>T (4/18) were most common. Fourteen of 16 ABCA4 carriers demonstrated significantly altered mERG parameters (reduced amplitudes and/or delayed implicit times (ITs)) compared to normal values. In addition, the two subjects with compound heterozygous ABCA4 mutations had altered mERG parameters. A statistical comparison to the control group showed significantly reduced amplitudes and delayed ITs; p≤0.003 for all mERG parameters. FfERG parameters were altered in two ABCA4 carriers and one of the subjects with compound heterozygous ABCA4 mutations (reduced amplitude and delayed IT for the 30 Hz flicker ERG). No significant alterations were found for the whole group of ABCA4 carriers compared to the ffERG control group. Fundus photographs showed subtle to extensive pigmentary changes in several ABCA4 carriers.
Conclusions: In this study, ABCA4 carriers demonstrated reduced macular function measured by mERG along with none to subtle and even extensive morphological retinal changes. The c.768 G>T, c.5461-10T>C, and c.319 C>T mutations were associated with the most deviant ERGs, including both significant reduction of mERG amplitudes and prolongation of mERG ITs, as well as with reduced amplitude or delayed IT for the 30 Hz flicker ffERG in a few cases. They may therefore be considered serious mutations. The c.5917delG and c.4469 G>A mutations were associated with milder or no macular alteration. Long-term follow-up of these and other ABCA4 carriers may be of importance to elucidate the role of ABCA4 mutations in age-related macular degeneration. Moreover, improved knowledge of separate ABCA4 mutations may help us to better understand their role in ABCA4-associated retinal degenerations.