Scientists have discovered a genetic mutation in the CRNKL1 gene linked to severe brain developmental disorders in children. The study, led by the University of Otago, analyzed 10 families with affected children showing identical genetic changes. Researchers found these mutations disrupt crucial "splicing" processes needed for proper brain growth. The findings provide answers for affected families and open new research pathways.
June 24, 2025
Study finds genetic link for rare childhood brain developmental disorder
A team of
international researchers has uncovered a new genetic cause for a rare
developmental disorder that profoundly impacts brain growth and function in
children.
Key Points
1 CRNKL1 gene mutations linked to microcephaly and
brain underdevelopment
2 Study involved 10 families with identical genetic
changes
3 Findings clarify splicing errors' impact on
neurological disorders
4 Research paves way for future brain development
studies
The team led by
the University of Otago–Ōtākou Whakaihu Waka from New Zealand pinpointed
specific changes in a gene called CRNKL1 that can potentially cause a severe
genetic disorder that results in affected individuals having profound pre- and
postnatal microcephaly (smaller head circumference), with pontocerebellar
hypoplasia (underdevelopment in brain stem and cerebellum), seizures and severe
intellectual disability.
The finding
sheds new light on the complex process by which human bodies create the
"instruction manuals" essential for building and maintaining our
brains, said Louise Bicknell, Associate Professor, from the Rare Disorder
Genetics Laboratory in Otago's Department of Biochemistry.
"Our bodies
rely on a precise process called 'splicing' to read and process genetic
instructions from our DNA and help generate the building blocks required in our
body,” Bicknell said.
"While it's
known that problems with the machinery that coordinates splicing can cause
various genetic disorders, this new finding adds to a small but growing
recognition of the potentially severe impact on brain development in
particular."
In the study,
published in the American Journal of Human Genetics, the team studied 10
families, of which nine showed genetic changes in the exact same spot in the
CRNKL1 gene.
All the affected
children shared the same severe features, highlighting the strong link between
these specific genetic changes and the disorder.
The research
findings clearly show that CRNKL1 is crucial for healthy brain development,
said lead author Dr. Sankalita Ray Das, a Postdoctoral researcher in the Rare
Disorder Genetics Laboratory.
The finding not
only identifies a new genetic cause for a severe neurological disorder but also
offers further clues into the complex ways our genes guide brain development,
she said.
"Importantly,
this knowledge has provided understanding for families affected by these severe
conditions and lays the foundation for further research into why only the brain
is affected by these genetic changes."
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