Formate prevents most folic acid-resistant neural tube defects in mice

May 01, 2018

Maternal folic acid supplementation has reduced the prevalence of neural tube defects, one of the most common structural malformations in people, by up to 80 percent. However, many infants are still born with a neural tube defect that appears to be resistant to folic acid supplementation. In this study, a multi-institutional research team has developed a novel folic acid-resistant neural tube defect mouse model of the human condition by silencing the Slc25a32 gene, and, in most of the mutant mice, neural tube defects can be prevented by formate supplementation. A parallel genetic study of individuals with neural tube defects found a patient carrying a non-functional mutation of the SLC25A32 gene. Together, these findings support the search for supplements that might prevent folic acid-resistant human neural tube defects in the future. The study appears in the Proceedings of the National Academy of Sciences.

"Folic acid supplementation is considered one of the most significant public health breakthroughs in recent years. By providing mandatory folic acid fortification, as 87 countries, including the U.S. since 1998, now do, we can prevent the vast majority of neural tube defect cases. But in about 30 percent of the cases, folic acid is not protecting," said corresponding author Dr. Richard Finnell, professor in the Center for Precision Environmental Health at Baylor College of Medicine.

The success obtained with folic acid supplementation suggested that there might be other nutrients that could prevent neural tube defect cases that do not respond to folic acid. To find these nutrients, Finnell and his colleagues studied the metabolic pathway involving folic acid. The body requires folic acid to accomplish a number of cellular processes, including the synthesis of the building blocks of DNA, which is essential for proliferating cells.

"Lacking enough folic acid inhibits DNA synthesis and cell proliferation and can have serious consequences, especially in the growing embryo which is engaged in active cell proliferation to develop a complete baby," Finnell said. "Folic acid deficiency in the embryo, together with genetic and environmental factors, can result in failed closure of the neural tube and lead to defects."

As the researchers studied the metabolic pathway involving folic acid, called one carbon metabolism, they focused on formate, a compound derived from folic acid in a cellular organelle called the mitochondria that also contributes to DNA synthesis. Previous laboratory studies by collaborators at the University of Texas at Austin had identified the Mthfd1l gene, which encodes for an enzyme that is involved in the synthesis mitochondrial formate. Mice lacking this gene had neural tube defects that were partially rescued when the mother was given formate supplementation.

"In our study, we asked whether disrupting formate synthesis by silencing the Slc25a32 gene that transports the precursors of formate into the mitochondria would also result in neural tube defects in mice," said first author Dr. Yunping Lei, assistant professor in the Center for Precision Environmental Health at Baylor College of Medicine. "When we genetically engineered mice to lack the formate transport protein produced by the Slc25a32 gene, all of the mutant mice had neural tube defects. When we provided pregnant mice with extra formate, we were able to prevent neural tube defects in 78 percent of the offspring carrying a defective Slc25a32 gene."

The human connection

To determine whether the findings in mice could be connected to human neural tube defects, the researchers conducted genomic studies in a cohort of patients with this condition and found one individual carrying a non-functional variant of the SLC25A32 gene.

"We know that the patient has a neural tube defect, but we would need further studies to determine how involved the SLC25A32 gene is in the condition," Finnell said. "Neural tube defects can be caused by variants in over 300 genes in the mouse, so we anticipate that many genes also are likely to be involved in the human condition."

"I am most excited about the connection we have made between the mouse model and the human condition through the SLC25A32 gene," Lei said. "We now have a novel mouse model of human neural tube defects in which we can study the complex interactions between genetics and the environment that lead to this condition, and explore strategies to prevent the defects from happening."

"My lab is all about preventing preventable birth defects," Finnell said. "Even though we do fortify foods with folic acid, there are still babies born with neural tube defects. Folic acid has been a major public health advance, but the problem has not disappeared. We cannot lose sight of the fact that babies can still be born with neural tube defects even when the mothers take folic acid supplements."
Other contributors to this work include Jimi Kim, Jin Guo, Sung-Eun Kim, Bogdan Wlodarczyk, Robert Cabrera, Ying Linda Lin, Torbjorn K. Nilsson, Ting Zhang, Aiguo Ren, Linlin Wang, Zhengwei Yuan, Yufang Zheng, and Hongyan Wang. The authors are affiliated with one or more of the following institutions: Baylor College of Medicine; the University of Texas at Austin Dell Medical School; Capital Institute of Pediatrics, Beijing; Umea University, Umea; Peking University, Beijing; China Medical University, Shenyang and Fudan University, Shanghai. Financial support for this project was provided by grants from NIH (HD081216, HD083809, and HD067244), CAMS Initiative for Innovative Medicine (2016-I2M-1-008), the Program of China (2013CB945400), the National Key Research and Development Program, Ministry of Science and Technology, P.R. China (2016YFC1000501) and the National Natural Science Foundation of China (81472987).

Baylor College of Medicine

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