Causal effects of dietary antioxidants on epigenetic age: A two-sample Mendelian randomization study.
Chunlan Huang, Gaofeng Zeng, Kebin Zhan, Jingsong Chen, Shao Ouyang, Qilin Ou, Bo Wang, Yang Liu
Abstract
Open AccessOxidative stress is one of the leading causes of aging and aging-related diseases. However, there is no conclusive evidence on whether dietary antioxidants can decelerate epigenetic age in human. A two-sample Mendelian randomization (MR) analysis was conducted to explore the causal associations between dietary antioxidants intake and epigenetic age. Summary-level data about 4 dietary antioxidants (vitamin A, vitamin C, vitamin E and carotene) and 4 epigenetic age measures (HannumAge, Intrinsic epigenetic age acceleration [IEAA], GrimAge and PhenoAge) were respectively got from FinnGen Project Database and a meta-analysis of 28 genome-wide association studies (GWAS) involving 34,710 European participants. Inverse variance weighted (IVW) was used as the main method to evaluate causal estimates complemented by other 4 methods (Weighted median, MR-Egger, Weighted mode and Simple mode). Genetically predicted dietary vitamin C was associated with decreased HannumAge (IVW: beta = -1.1988, P = .0014; weighted median: beta = -1.3342, P = .0112). IVW method found that dietary vitamin C was marginally associated with decreased GrimAge (beta = -0.768, P = .0504), other 4 methods did not find significant association between dietary vitamin C and GrimAge, but the effect direction was similar to that by IVW. There was no significant association of dietary vitamin C with IEAA and PhenoAge. MR analyses found no significant effects of vitamin A, vitamin E and carotene on 4 epigenetic age measures. In total, the study suggested that dietary vitamin C may potentially decrease epigenetic age measured by HannumAge. Further studies are needed to assess the effect of dietary antioxidants on aging and aging-related diseases, and explore related mechanisms.