%P 2071 %K folic acid intake; ventricular septal defects; congenital heart disease; methylation status; AXIN1; MTHFR; TBX1; TBX20 %T Maternal Folic Acid Intake and Methylation Status of Genes Associated with Ventricular Septal Defects in Children: Case–Control Study %N 6 %A Sandra M. González-Peña %A Geovana Calvo-Anguiano %A Laura E. Martínez-de-Villarreal %A Patricia R. Ancer-Rodríguez %A José J. Lugo-Trampe %A Donato Saldivar-Rodríguez %A María D. Hernández-Almaguer %A Melissa Calzada-Dávila %A Ligia S. Guerrero-Orjuela %A Luis D. Campos-Acevedo %J Nutrients %L uninimx2918 %V 13 %D 2021 %X Background: DNA methylation is the best epigenetic mechanism for explaining the interactions between nutrients and genes involved in intrauterine growth and development programming. A possible contributor of methylation abnormalities to congenital heart disease is the folate methylation regulatory pathway; however, the mechanisms and methylation patterns of VSD-associated genes are not fully understood. Objective: To determine if maternal dietary intake of folic acid (FA) is related to the methylation status (MS) of VSD-associated genes (AXIN1, MTHFR, TBX1, and TBX20). Methods: Prospective case–control study; 48 mothers and their children were evaluated. The mothers’ dietary variables were collected through a food frequency questionnaire focusing on FA and the consumption of supplements with FA. The MS of promoters of genes was determined in the children. Results: The intake of FA supplements was significantly higher in the control mothers. In terms of maternal folic acid consumption, significant differences were found in the first trimester of pregnancy. Significant differences were observed in the MS of MTHFR and AXIN1 genes in VSD and control children. A correlation between maternal FA supplementation and MS of AXIN1 and TBX20 genes was found in control and VSD children, respectively. Conclusions: A lower MS of AXIN1 genes and a higher MS of TBX20 genes is associated with FA maternal supplementation. %R doi:10.3390/nu13062071