Scientists Identify New Gene Involved In Autism Spectrum Disorder

DALLAS – Dec. 22, 2020 – UT Southwestern scientists have adapted a classic research technique called forward genetics to identify new genes involved in autism spectrum disorder (ASD). In a study published this week in eLife, the researchers used this approach in mice to find one such gene called KDM5A.

Approximately 1 in 54 children in the U.S. is diagnosed with ASD, a neurodevelopmental disorder that causes disrupted communication, difficulties with social skills, and repetitive behaviors. As a disease with a strong genetic component, it is hypothesized that thousands of genetic mutations may contribute to ASD. But to date, only about 30 percent of cases can be explained by known genetic mutations.

For decades, forward genetics has been used to find mutations that cause disease. It involves inducing genetic mutations in mice, screening for certain phenotypes, and then identifying the causative mutation through sequencing of all genetic material of an organism, or its genome.

“The difficult part in the beginning was finding the mutations. It had to be done by laborious cloning,” says Nobel Laureate Bruce Beutler, M.D., director of the Center for the Genetics of Host Defense at UTSW and study co-author. “We developed a platform wherein when you see a phenotype you know the mutational cause at the same time.” So, when a mouse displays a certain phenotype or trait of interest, the researchers would know almost instantly what genetic mutation was causing it. This technique, combined with a screen developed to ascertain ASD-like behaviors in mice, made it possible to use forward genetics for the first time to identify new genetic mutations in ASD.

Beutler won the 2011 Nobel Prize in Physiology or Medicine for his discovery of a family of receptors that allow mammals to sense infections when they occur, triggering a powerful inflammatory response.

In this study, the research team documented the quality and number of vocalizations in young mice carrying induced genetic mutations. Given that one of the common characteristics seen in autism is disrupted communication, the researchers were on the lookout for mice that had changes in these vocalizations.

“Initially we found that the quality of these vocalizations was different in mice with KDM5A mutations. Looking more closely, we found that mice completely lacking KDM5A have a severe deficit in the number of these vocalizations,” says Maria Chahrour, Ph.D., who led the study. Chahrour is assistant professor of neuroscience, psychiatry, and in both the Eugene McDermott Center for Human Growth and Development and Center for the Genetics of Host Defense.

In addition to loss of vocalizations, mice lacking KDM5A also displayed repetitive behaviors and deficits in social interaction, learning, and memory – all hallmarks of ASD.

Because this was the first time that KDM5A had been implicated in ASD, the researchers looked into whether KDM5A mutations could be found in patients with autism as well. Through international collaborative efforts, the group was able to identify nine patients with ASD and causative KDM5A mutations. Strikingly, eight out of nine patients also had a complete lack of speech.

Though one broad term is used for ASD, Chahrour likens autism to cancer in that it is a collection of individually rare forms of autism with hundreds of different genetic causes. Mutations in KDM5A appear to be one of those forms.

“We’ve identified a new genetic subtype of autism, and we’re going to look for more patients with mutations in KDM5A,” explains Chahrour. “This has a direct impact on diagnosis too. When a clinician gets a clinical sequencing result that reports a KDM5A mutation, it’s now a known autism gene.”

Aside from the impact on diagnosis, the researchers are interested in further characterizing this gene’s role in the brain. With a better understanding of what KDM5A is doing in the brain, scientists might be able to find a target to aid in future studies investigating possible treatments.

This work will expand beyond KDM5A as researchers search for more genes involved in ASD, a subject of research for which the simplicity and efficiency of forward genetics comes in handy.

“The wonderful thing about forward genetics is that we can grind away at the genome. We know progressively how much of the genome we’ve saturated,” says Beutler, who estimates that his group has already mutated about half of the mouse genome with this approach.

Chahrour, also a member of UT Southwestern’s Peter O’Donnell Jr. Brain Institute, looks forward to continuing to screen these animals for ASD genes, adding, “At some point we’ll get to a stage where we can saturate the genome with mutations and theoretically find every gene that functions in social behavior and cognition. That’s the ultimate goal.”

Other UTSW researchers involved in the study are Lauretta El Hayek, Islam Oguz Tuncay, Jamie Russell, Sara Ludwig, Kiran Kaur, Xiaohong Li, and Miao Tang.

The study was supported by The Welch Foundation and the Walter and Lillian Cantor Foundation.

Beutler, also professor of immunology and a Regental professor, holds the Raymond and Ellen Willie Distinguished Chair in Cancer Research, in Honor of Laverne and Raymond Willie, Sr.

 

 

About UT Southwestern Medical Center

UT Southwestern, one of the premier academic medical centers in the nation, integrates pioneering biomedical research with exceptional clinical care and education. The institution’s faculty has received six Nobel Prizes, and includes 23 members of the National Academy of Sciences, 17 members of the National Academy of Medicine, and 13 Howard Hughes Medical Institute Investigators. The full-time faculty of more than 2,500 is responsible for groundbreaking medical advances and is committed to translating science-driven research quickly to new clinical treatments. UT Southwestern physicians provide care in about 80 specialties to more than 105,000 hospitalized patients, nearly 370,000 emergency room cases, and oversee approximately 3 million outpatient visits a year.

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