News — Researchers at Tufts University and the (GSBS) have identified a small molecule that, in mouse and human cell models, rectifies the underlying molecular cause of a rare genetic developmental disorder linked with motor and intellectual disabilities and some types of autism spectrum disorder.

Their most recent research, , provides the first evidence that an efficacious drug treatment can be developed for this disorder, called CTNNB1 syndrome, potentially mitigating and reversing the cognitive and motor problems it causes, which can require lifelong assistance and care.

First identified in 2012, CTNNB1 syndrome affects an estimated 1 in 50,000 people worldwide. It is not inherited from parents, but instead is caused in utero or after birth by a sporadic mutation in a single gene. Children at birth look normal, but over time they don’t hit expected cognitive and physical milestones. Their heads stop growing, and language delays, learning disabilities, and problems with vision, balance, sitting up, crawling, and walking occur. Some also have autism.

For many years, , professor of neuroscience at the School of Medicine and GSBS, and colleagues , which encodes for production of beta-catenin protein, which is critical for proper cell development and function. 

“Aberrant levels of beta-catenin have been linked to a high risk of intellectual disability, autism spectrum disorder, and other conditions,” says Jacob.

In the most recent research, the scientists developed a mouse model of CTNNB1 syndrome that displays key features of CTNNB1 syndrome in patients and identified a corrective treatment. They show that a small molecule inhibitor of an endogenous enzyme that negatively regulates beta-catenin is effective at bringing the levels up to normal, but not too high. Young adult mice treated with the inhibitor exhibited significantly improved muscle strength and their cognitive abilities returned to levels of healthy mice.

“Seeing these results in young adult mice that are symptomatic suggests that this small molecule could offer important hope to reverse the disease in children with the condition,” says Jacob, who has been working regularly with the non-profit patient advocacy group for this disorder, CTNNB1 Connect and Cure, to learn more about the disease. The group partially funds this research.

“We have been testing the small molecule in human cell models of the disease, and recently in patient-derived cells, and it works to increase beta-catenin levels,” Jacob says. Tufts and the Broad Institute have jointly filed a patent related to this research, as the effective small molecule was developed at the Broad. The Tufts scientists now are collaborating with the National Institutes of Health, scientists at the Broad Institute, and colleagues at Boston Children’s Hospital to transform the small molecule into a safe and effective drug and develop a pilot clinical trial with patients. 

Jacob notes that while 500 children have been definitively confirmed through genetic testing as having CTNNB1 syndrome, the condition may be more widespread than originally thought. Scientists and clinicians are now looking back at cases characterized as cerebral palsy attributed to a lack of oxygen to the brain and are finding that a subset is actually CTNNB1 syndrome.

Lead author of this most recent study is , research assistant professor of neuroscience at Tufts School of Medicine. Jacob is the corresponding author. Other authors of the study include , the Kenneth and JoAnn G. Wellner Professor of neuroscience; and Leeanne Vazquez-Ramirez, , and , all from the Department of Neuroscience at Tufts; and Florence Wagner from the Broad Institute of MIT and Harvard. Vazquez-Ramirez was a and (PREP) student trainee working in the lab. Lin was a BDBS student trainee who also did a senior honors thesis in the lab. Antonoudiou is a scientist II in . 

Citation: Complete information on authors, funders, methodology, and conflicts of interest is available in the published paper.

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