Cleft palate gene mutations now linked to spina bifida

  • Jan 25, 2019
  • birth defects, Human disease, Faculty, research
  • Homepage News, Faculty & Staff, Research, College of Natural Science, Microbiology
Image of Brian Schutte
MSU's Brian Schutte is part of a research team that, for the first time, has linked mutations in a gene known as interferon regulatory factor 6—which cause cleft palates—to spina bifida and other neural tube defects. Courtesy photo.

Michigan State University and Children's National Health System researchers are the first to link mutations in a gene known as “interferon regulatory factor 6,” or IRF6—which cause cleft palates—to spina bifida and other neural tube defects.

Spina bifida, which affects up to 2,000 infants per year, is one of the most common birth defects in the United States. It occurs when the neural tube, the area where the brain and spinal cord form, does not close in the embryo and leads to incomplete development.

“Despite its high frequency, spina bifida remains among the least understood structural birth defects,” said Brian Schutte, associate professor with joint appointments in the Department of Microbiology and Molecular Genetics in the MSU College of Natural Science and the Department of Pediatrics and Human Development in the MSU College of Human Medicine, and the study’s senior author. “There’s strong evidence that genetic factors are a leading cause of these defects, but in most cases, the cause is unknown. Our study is the first to demonstrate that DNA variants in the gene IRF6 can cause spina bifida.”

The study, funded by the National Institutes of Health, was recently published in Human Molecular Genetics.

The research also identified a mechanism that explains how altering IRF6 leads to neural tube defects and links the gene’s function to two other genes–FAP2A and GRHL3–that are also required for the development of the neural tube, defects.

"We’re all on the hunt for the reasons when, how and why birth defects happen,” said Youssef Kousa, lead author and a clinical fellow in the Division of Child Neurology at Children’s National Health System. “Our main goal is prevention, and now we’ve identified a group of genes that can potentially contribute to common types of birth defects including craniofacial, as well as neural tube defects.”lip and palate.

After testing multiple genetic pathways in preclinical models at MSU, Schutte enlisted the help of geneticists across the country to test for an association in patient populations. Their collaborators sequenced decades worth of genetic samples from people who had spina bifida, as well as anencephaly, a rare birth defect where a baby is born without parts of the brain and skull.

They discovered that IRF6, in conjunction with TFAP2A and GRHL3, were all components of a gene regulatory network required for neurulation, a process that results in the neural tube bending, then fusing to become the basis of the embryo’s nervous system, from brain to spinal cord.

According to Kousa and Schutte, this network also is key to the formation of the lip, palate, limbs and skin, which all develop at different times during an embryo’s formation and is a fundamental pathway during this critical stage.

Yet, when a gene such as IRF6 produces too much or too little of a protein, then things can start to go wrong, resulting in birth defects.

“As we get better at personalized medicine, we could use this information to one day help counsel families about their own risk and protective factors,” Kousa said. “If we know the genetic pathway, we might also be able to modify it to prevent these defects.”

Researchers from Stanford University, University of Texas at Austin, University of Texas Health Science Center at Houston, University of Texas School of Public Health, University of Iowa, University of Pittsburgh, Duke University, Massachusetts General Hospital, University of Southern California, University of Colorado Denver and Nagasaki University also collaborated on the study.

 

Banner image: Researchers are on the hunt for the reasons when, how and why birth defects happen. With a main goal of prevention, scientists have recently identified a group of genes that can potentially contribute to common types of birth defects including craniofacial, as well as neural tube defects. They hope that, one day, information such as this can be used to help counsel families about their own risk and protective factors and to modify genetic pathways to prevent the defects. Courtesy photo.