By Laura Ungar, AP Science Writer
Scientists have found the genetic root of a disorder that causes intellectual disability, which they estimate affects as many as one in 20,000 young people.
They hope their discovery leads to a new diagnosis that can provide answers to families.
Those with the condition have a constellation of issues, which also include short stature, small heads, seizures and low muscle mass, said the researchers, who published their findings in the journal Nature Medicine on Friday.
"We were struck by how common this disorder is" when compared with other rare diseases linked to a single gene, said Ernest Turro of the Icahn School of Medicine at Mount Sinai, senior author of the study.
Syndromes like these could go unnoticed because the traits were sometimes so subtle doctors could not recognise them by just looking at patients, said Dr Charles Billington, a paediatric geneticist at the University of Minnesota, who was not involved in the study.
"So certainly this wasn't something that we necessarily had a name for," he said. "We're learning more about these syndromes that we recognise only once we are seeing the cause."
Researchers said the mutations occurred in a small "non-coding" gene, meaning it did not provide instructions for making proteins.
Until now, all but nine of the nearly 1500 genes known to be linked to intellectual disability in general are protein-coding genes.
Most large genetic studies so far have used a sequencing technology that typically leaves out genes that did not code for proteins.
This study used more comprehensive "whole-genome" sequencing data from 77,539 people enrolled in the British 100,000 Genomes Project, including 5529 with an intellectual disability.
The rare mutations researchers found in the gene, called RNU4-2, were strongly associated with the potential to develop intellectual disability.
The finding "opens the door to diagnoses" for thousands of families, said study author Andrew Mumford, research director of the South West England NHS Genomic Medicine Service.
More research was needed, Mumford said.
How the mutation caused the disorder remained unclear and there was no treatment.
But Billington said labs should be able to offer testing for this condition relatively quickly.
And researchers said families should be able to find and support each other - and know they were not alone.
"That can be incredibly comforting," Mumford said.
- AP