John Denu |
In a new study, the John Denu lab at the University of Wisconsin–Madison’s Wisconsin Institute for Discovery has learned that the fatty acids butyrate and propionate also activate p300, a crucial human enzyme that promotes the unspooling of DNA. This unwound DNA allows more genes to become active and expressed, which ultimately affects human health.
Previous research had suggested that SCFAs might instead contribute to this process by inhibiting a different set of enzymes.
This new understanding opens the possibility of activating p300 in a diet-dependent way or even independently of the microbiome. Knowing how to target p300 is vital because it is implicated in a wide variety of physiological processes and diseases, such as propionic acidemia, autism spectrum disorder, and Alzheimer’s disease.
Sydney Thomas |
Thomas and Denu, a professor of biomolecular chemistry, published their findings in the journal eLife.
Earlier work in mice had shown that SCFAs are a crucial link between the microbiome and epigenetic states — the modifications to DNA that affect how active any given gene is. These epigenetic modifications allow different cells to use the same DNA instructions to perform different tasks and can affect health.