This study sheds lights on why some children with rare developmental disorders are more severely affected than others.

Rare genetic disorders more complex than thought

Researchers have found that the genetic causes of rare neurodevelopmental disorders vary more than previously thought.

The study from Wellcome Sanger Institute scientists and their collaborators, including the University of Exeter, discovered that serious rare disorders can be affected by combinations of common genetic variants, rather than solely individual rare variants that damage single genes.

The study published today (26 September) in Nature will help researchers understand how an individual’s whole genetic make-up can modify the effect of rare damaging variants typically thought to cause these developmental disorders. They also revealed that common genetic variants known to increase the risk of conditions such as schizophrenia also increased the risk of rare developmental disorders.

Thousands of babies are born each year who do not develop normally because of their particular genetic makeup. Those with neurodevelopmental disorders can have difficulties in learning or language, or conditions such as autism. The Deciphering Developmental Disorders (DDD) study aims to find diagnoses* for these children with as yet unknown developmental disorders, and to understand the causes of these conditions.

Previously it was thought that common genetic variants contribute to common disorders only, such as diabetes or heart disease, but that rare disorders were caused solely by highly damaging mutations in single genes.

However, it is well known that different patients who have damaging mutations in the same gene often have some different symptoms. The DDD researchers have tried to understand why.

The researchers studied the genomes of nearly 7,000 children in the DDD study who had a variety of neurodevelopmental disorders and compared them with healthy control individuals. Using Genome Wide Association

Studies (GWAS) the team tested 4 million common genetic variants for association with neurodevelopmental disorders. Surprisingly, the researchers found that these common variations also affected the risk of rare neurodevelopmental disorders.

Dr Caroline Wright, who managed the DDD Study and has recently moved to the University of Exeter Medical School, said: “This study provides an important link between the genetics of rare and common diseases, and will help us understand why some children with rare developmental disorders are more severely affected than others. It was only possible through an enormous UK-wide collaborative effort with the NHS clinical genetics community, and shows the power of coupling large-scale research with clinical practice.”

Mari Niemi, first author on the paper from the Wellcome Sanger Institute, said: “Until now, rare developmental disorders have been thought to be caused by a single gene having a huge effect, but our study shows that this might not be the whole story. We discovered that common variants that work together to influence common diseases such as schizophrenia also seem to contribute to rare developmental disorders. These variants could lead to changes during brain development, that could cause a range of common or rare conditions.”

Dr Hilary Martin, an author on the paper from the Wellcome Sanger Institute, said: “This is the first ever large-scale study of the role of common genetic variants in rare neurodevelopmental disorders, and was only possible due to the large cohort of patients in the DDD study. This shows that the genetics of rare diseases are more complicated than originally thought, and we hope it will change how researchers and clinicians think of rare versus common diseases.”

Dr Jeffrey Barrett, a senior author who carried out the work while at the Wellcome Sanger Institute, said: “Our study shows for the first time that common genetic variants could affect the risk of rare developmental disorders, and some of their characteristics. As we learn more about the genetic causes of both rare and common diseases, it is increasingly clear that many different types of genetic variation play important roles in all cases.”

Date: 26 September 2018

Read more University News