Birth history is associated with whole-blood and T-cell methylation patterns in relapse onset multiple sclerosis

BackgroundPregnancy in women with multiple sclerosis (MS) is associated with a reduction of long-term disability progression. The mechanism that drives this effect is unknown, but converging evidence suggests a role for epigenetic mechanisms altering immune and/or central nervous system function. ObjectivesWe aimed to identify whole blood and immune cell-specific DNA methylation patterns associated with parity in relapse-onset multiple sclerosis. MethodsWe compared whole-blood methylation patterns between 96 matched pairs of nulligravida and parous females with MS (n=192). Parity was defined as at least one term or pre-term birth, and nulligravida was defined as no prior pregnancies. Methylation was measured with Illumina EPIC arrays, and data was pre-processed and statistically analysed using the ChAMP package. Cell-type proportions were estimated using the EpiDISH package, and cell-specific analysis conducted using linear regression. Gene-set enrichment analysis (GSEA) was performed with ToppGene API and GOmeth. Methylation age was calculated with the methyAge package. Methylation age acceleration (MAA) was calculated by regressing methylation age on chronological age. FDR<0.05 was used to assess significance. ResultsThe median time from last pregnancy to blood collection was 16.66 years (range = 1.45 - 44.42 years). We identified 903 differentially methylated positions (DMPs) in whole blood; 365 were hypomethylated and 528 were hypermethylated in parous women. We further identified two differentially methylated regions (DMRs) in CRYGN on Chromosome 7 and an intergenic region on Chromosome 15. There were four and eight cell type specific DMPs in CD4+ and CD8+ cells, respectively. Differentially methylated genes were enriched in neuronal plasticity pathways. Parity was associated with reduced MAA by a mean of 1.44 to 2.27 years using the PhenoAge (p = 0.002) and GrimAge (p = 0.005) algorithms. ConclusionWhole-blood methylation patterns are associated with birth history in females with relapse-onset multiple sclerosis. We found enrichment of differentially methylated genes encoding neuronal processes and reduced MAA in parous women. These methylation changes could mediate the long-term benefit of pregnancy for disease progression in multiple sclerosis.