First evidence of epigenetic modulation of human gene methylation by microalga Aphanizomenonflos-aquae (AFA) in inflammation-related pathways in intestinal cells

The microalga Aphanizomenon flos-aquae (AFA) has garnered attention for its potential therapeutic benefits in various health conditions, primarily through its use in nutraceutical formulations. While biological effects of AFA have been extensively studied in preclinical models, including murine systems, its nutrigenomic and epigenetic impacts remain underexplored. This study investigates the potential epigenetic mechanisms of AFA, focusing on its ability to modulate DNA methylation, a key regulatory process in gene expression. Specifically, we examined the influence of AFA on the methylation status of genes encoding pro-inflammatory interleukins, as these cytokines play a crucial role in immune response modulation and inflammation. Given the known impact of AFA on inflammatory markers, we aimed to determine whether the effects of AFA involve direct or indirect modulation of DNA methylation patterns in genes associated with inflammation. Our findings, presented here for the first time, reveal the capacity of AFA to influence DNA methylation, with implications for its role in cellular regulatory processes. These results warrant further investigation into precise mechanisms of action of AFA and its potential in clinical applications targeting inflammation-related pathways.