Association of Saitohin gene rs62063857 polymorphism with dry type age-related macular degeneration.

PURPOSE: Age-related macular degeneration (AMD) as the leading cause of central visual loss in the developed countries has extensive pathologic similarities with Alzheimer's disease (AD). Saitohin rs62063857 Q7 R polymorphism is associated with increased risk of AD though we decided to evaluate the possible association of this polymorphism with advanced AMD. MATERIALS AND METHODS: 152 advanced AMD patients (134 wet AMD and 18 geographic atrophy) and 75 healthy controls included in this study. Cases and controls went through a standard ophthalmologic examination by a retinal specialist. Saitohin gene rs62063857 polymorphism determined by using PCR technique and restriction enzyme HinFI. To evaluate the differences between groups we used t-test, Chi-Squared and one-tailed Fisher exact test. RESULTS: Distribution of genotypes was not significantly different between total AMD or wet AMD patients compared to that of controls (total AMD RR+QR: OR = 1.51, CI = 0.82-2.79, P = .12; wet AMD RR+QR: OR = 1.39, CI = 0.74-2.59, P = .19). The RR+QR genotypes were significantly higher in dry AMD group compared to that of controls (RR+QR: OR = 2.75, CI = 0.96-7.9, P = .05). CONCLUSION: Our results showed that although STH Q7 R polymorphism was not associated with wet AMD susceptibility it was significantly associated with geographic atrophy.

The effects of electromagnetic fields on cultured human retinal pigment epithelial cells.

A great deal of evidence has confirmed that electromagnetic fields (EMFs) can affect the central nervous system. In this study, cultured neonatal human retinal pigment epithelial (hRPE) cells were exposed to pulsed EMF of 1 mT intensity and 50 Hz frequency 8 h daily for 3 days. In addition to cell proliferation and cell death assays, immunocytochemistry for RPE65, PAX6, nestin, and cytokeratin 8/18 proteins were performed. Real-time reverse transcriptase polymerase chain reaction (RT-PCR) was performed for NES, PAX6, RPE65, and ACTA2 gene expression. Exposed hRPE cells did not demonstrate significant change in terms of cytomorphology, cell proliferation, or cell death. Protein expression of PAX6 was decreased in treated cells compared to controls and remained unchanged for RPE65, cytokeratin 8/18, and nestin. Gene expressions of NES, RPE65, and PAX6 were decreased in treated cells as compared to controls. Gene expression of ACTA2 did not significantly change. In conclusion, viability of cultivated neonatal hRPE cells did not change after short exposure to a safe dose of pulsed EMF albeit that both gene and protein expressions of retinal progenitor cell markers were reduced. Whether longer exposure durations that are being constantly produced by widely-used electronic devices may induce significant changes in these cells, needs further investigation. Bioelectromagnetics. 39:585-594, 2018. © 2018 Wiley Periodicals, Inc.