The effect of FOXO gene family variants and global DNA metylation on RRMS disease

Abstract

Multiple sclerosis is a chronic disease that usually occurs with exacerbations and remissions in young adults, affects the central nervous system white matter in multiple localization, and is thought to be the result of complex interactions of genetic and environmental factors, the most common form is relapsing-remitting MS. Forkhead transcription factors O class (FOXO) are responsible for the regulation of various cellular processes including cell cycle, apoptosis, DNA repair, cellular resistance and metabolism. DNA methylation is such an epigenetic change and has been shown to be associated with almost any biological process. The aim of our study to show the relation between the genetic variants of FOXO3a (rs2253310 rs4966936) and FOXO1 (rs3900833, rs4581585) and global DNA methylation in RRMS. We analyzed DNA obtained from 79 RRMS patients and 104 healthy individuals by PCR-RFLP method for the detection of genetic variants. For the determination of global DNA methylation, results were obtained using ELISA method. The data were evaluated statistically. As a result of our analysis; global DNA methylation is higher in RRMS patients compared to control individuals and it can be effective on the disease. In addition, it has been determined that variants of FOXO3a (rs2253310, rs4966936) and FOXO1 (rs3900833), which have been genotyped, may be effective in disease pathogenesis. These results suggest that DNAmethylation and FOXO gene variants may be effective in neuronal loss in RRMS.