Assessing the risk of excess folic acid intake
It is well established that folic acid supplementation can significantly reduce the risk of birth defects, including neural tube defects like spina bifida, the most common birth defect of the central nervous system and the second most common of all structural birth defects. More than 80 nations, including the U.S. 25 years ago, have established mandated folic acid food fortification programs, which have been successful.
“However, there is a lack of research on whether excessive folic acid intake has the potential to harm human beings,” said co-corresponding author, , William T. Butler, M.D., Distinguished Chair Professor in the and the departments of , and at Baylor College of Medicine.
There are reports of adverse effects associated with high folate intake in humans. In this study published in the journal , Finnell and his colleagues investigated in an animal model the potential effect of folic acid supplementation on DNA mutation rates and other genetic modifications such as whole genome methylation, which can change how much of any given gene product gets expressed in cells.
The animals received one of three folic-acid-supplemented diets: folic acid low, folic acid control and folic acid high. “Compared to the mutation frequency of the folic acid-control diet group, that of the folic acid-low diet group increased two-fold and the folic acid-high diet group increased 1.8 fold,” Finnell said.
The researchers found that DNA repair genes were significantly hypermethylated in the folic acid-high diet, suggesting that excess folic acid supplementation may affect the mutation rate by reducing the expression of DNA repair genes and consequently impairing DNA repair activity. Understanding these mechanisms requires further investigation.
“The effects of high- or low-folic acid diets should be confirmed in human population in future studies,” Finnell said. “Our data supports that folic acid supplementation should be restricted to an ideal benefit range. What we have here is a “Goldilocks Effect”: Too little or too much of a good thing (folic acid) may not be such a good thing.”
This article first appeared on the Baylor College of Medicine news site.
Enjoy reading ASBMB Today?
Become a member to receive the print edition four times a year and the digital edition weekly.
Learn moreGet the latest from ASBMB Today
Enter your email address, and we’ll send you a weekly email with recent articles, interviews and more.
Latest in Science
Science highlights or most popular articles
Transforming learning through innovation and collaboration
Neena Grover will receive the William C. Rose Award for Exemplary Contributions to Education at the 2025 ASBMB Annual Meeting, April 12–15 in Chicago.
Guiding grocery carts to shape healthy habits
Robert “Nate” Helsley will receive the Walter A. Shaw Young Investigator in Lipid Research Award at the 2025 ASBMB Annual Meeting, April 12–15 in Chicago.
Quantifying how proteins in microbe and host interact
“To develop better vaccines, we need new methods and a better understanding of the antibody responses that develop in immune individuals,” author Johan Malmström said.
Leading the charge for gender equity
Nicole Woitowich will receive the ASBMB Emerging Leadership Award at the 2025 ASBMB Annual meeting, April 12–15 in Chicago.
CRISPR gene editing: Moving closer to home
With the first medical therapy approved, there’s a lot going on in the genome editing field, including the discovery of CRISPR-like DNA-snippers called Fanzors in an odd menagerie of eukaryotic critters.
Finding a missing piece for neurodegenerative disease research
Ursula Jakob and a team at the University of Michigan have found that the molecule polyphosphate could be what scientists call the “mystery density” inside fibrils associated with Alzheimer’s, Parkinson’s and related conditions.