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Epigenome-wide association study of fluoride exposure during early adolescence and DNA methylation among U.S. children.Abstract
Highlights
- Fluoride has been linked to several neurodevelopmental conditions among children, yet the mechanisms involved are unclear.
- Fluoride may elicit its neurotoxic effects by altering the epigenome.
- Recent childhood fluoride exposure is associated with differential blood DNA methylation in a sex-specific manner.
- DNA methylation changes may impact the expression of genes involved in neurodevelopment and other biological functions.
Exposure to fluoride in early childhood has been associated with altered cognition, intelligence, attention, and neurobehavior. Fluoride-related neurodevelopment effects have been shown to vary by sex and very little is known about the mechanistic processes involved. There is limited research on how fluoride exposure impacts the epigenome, potentially leading to changes in DNA methylation of specific genes regulating key developmental processes. In the Cincinnati Childhood Allergy and Air Pollution Study (CCAAPS), urine samples were analyzed using a microdiffusion method to determine childhood urinary fluoride adjusted for specific gravity (CUFsg) concentrations. Whole blood DNA methylation was assessed using the Infinium MethylationEPIC BeadChip 850 k Array. In a cross-sectional analysis, we interrogated epigenome-wide DNA methylation at 775,141 CpG loci across the methylome in relation to CUFsg concentrations in 272 early adolescents at age 12 years. Among all participants, higher concentrations of CUF were associated with differential methylation of one CpG (p < 6 × 10?8) located in the gene body of GBF1 (cg25435255). Among females, higher concentrations of CUFsg were associated with differential methylation of 7 CpGs; only three CpGs were differentially methylated among males with no overlap of significant CpGs observed among females. Secondary analyses revealed several differentially methylated regions (DMRs) and CpG loci mapping to genes with key roles in psychiatric outcomes, social interaction, and cognition, as well as immunologic and metabolic phenotypes. While fluoride exposure may impact the epigenome during early adolescence, the functional consequences of these changes are unclear warranting further investigation.
Graphical abstract
Original abstract online at https://www.sciencedirect.com/science/article/abs/pii/S0048969724050666?via%3Dihub
Excerpts:
Section snippets
Study population
Participants were enrolled in the Cincinnati Children’s Allergy and Air Pollution Study (CCAAPS), a prospective birth cohort of children born between 2001 and 2003 in the Greater Cincinnati Region (Ryan et al., 2005; LeMasters et al., 2006). Enrollment into the CCAAPS study was based on residence at the time of birth and distance to a major highway due to the primary interest in the impact of air pollution on child health. All children reside in communities with water fluoridation. Children and…
Participant characteristics
Participant characteristics are described in Table 1. EWAS analyses were completed for three separate analytic groups (see Methods for additional details on analytic groups): total cohort (n = 272), females only (n = 124), and males only (n = 148). The average age of participants was 12.15 ± 0.77 years with most of the participants identifying as white (76 %). Specific gravity adjusted CUF levels (CUFsg) were similar among males (median 0.81 ?g/mL; IQR 0.11) and females (median 0.81 ?g/mL; IQR…
Discussion
This study examined the relationship between fluoride exposure, estimated through the fluoride concentration of a spot urine sample, and DNA methylation in whole blood among adolescents at age 12 years. Among all participants, higher CUFsg concentrations were associated with differential methylation at one CpG loci (cg25435255) which annotates to GBF1. Sex-specific effects were evident with females exhibiting a larger number of differentially methylated loci (n = 7) compared to their male…