While essential trace minerals are known to influence DNA methylation (DNAm), molybdenum's (Mo) role in epigenetic regulation remains largely unexplored. This study examined associations between Mo st Show more
While essential trace minerals are known to influence DNA methylation (DNAm), molybdenum's (Mo) role in epigenetic regulation remains largely unexplored. This study examined associations between Mo status and DNAm of the brain-derived neurotrophic factor (BDNF) gene, a critical regulator of neurogenesis, in children aged 9-11 years, focusing on 107 CpG sites across BDNF and its antisense transcript (BDNF-AS).BDNF and BDNF-AS methylation was analyzed in blood samples from 72 children randomly selected from a cohort of 292 participants. Dietary Mo intake was estimated from food records, and creatinine-adjusted urinary Mo levels were quantified. Higher urinary molybdenum was significantly associated with decreased methylation at five BDNF 5'UTR sites (p<.05) and increased methylation of BDNF-AS (p = ย .0001), consistent with enhanced BDNF transcriptional activity. African American children exhibited lower urinary Mo excretion than European American children, suggesting greater retention, and showed cortisol-associated increases in BDNF methylation not observed in European American children.These findings demonstrate associations between molybdenum status and DNA methylation patterns at the BDNF locus in children. While functional validation through BDNF protein measurement is needed, results suggest molybdenum may influence neurotrophin gene regulation through epigenetic mechanisms, highlighting the importance of trace mineral nutrition during neurodevelopment. Show less