New neurodegenerative disorder discovered in children

Wednesday, 08 April, 2020

New neurodegenerative disorder discovered in children

Researchers have uncovered a new neurodegenerative disorder in which children experience developmental regression and severe epilepsy.

Led by the Murdoch Children’s Research Institute (MCRI) and published in The American Journal of Human Genetics, the study found a variation in a gene causes a severe childhood-onset neurodegenerative disorder that has never before been described. MCRI and Victorian Clinical Genetics Services (VCGS) Associate Professor Sue White said this newly discovered condition is different from other chronic neuroinflammation implicated in other neurodegenerative conditions such as Alzheimer’s disease, Parkinson’s disease and frontotemporal dementia.

The study looked at six children from four families with the gene variant who had a similar degenerative condition, the cause of which was unlocked by genomic testing. Study participants started with normal or mild developmental delay, and the onset of seizures started within the first year of life. All had a severe and progressive developmental regression following a seizure.

Assoc Prof White said the disorder, with features suggestive of neuroinflammation, appeared to require two copies of the defective gene, meaning both parents had to be carriers of one altered copy.

“In our study the same gene variant was identified in three children of the same ethnic background,” she said.

“While the families do not report that their two families are directly related, they are presumed to be distantly related due to the overlap of their family histories, with common ancestors originating from the same town.”

The researchers used advanced molecular techniques to dissect the likely cellular pathway affected by the mutation in the NRROS gene. By inserting the gene into cells in the laboratory, they identified other molecules that NRROS interacts with. These molecules are crucial for a number of brain cell functions, including adding the insulating layers around nerve fibres and producing brain immune cells.

“In line with these laboratory findings, our study participants had neurodegenerative symptoms with difficult-to-control epilepsy, developmental regression and delayed myelination,” Assoc Prof White said.

“The myelination process is vitally important to healthy central nervous system functioning, enabling nerve cells to transmit information faster and allows for more complex brain processes.”

MCRI Professor John Christodoulou said the outcomes of this research highlighted the power of new genomic sequencing technologies that had ended a diagnostic odyssey that for some families may take years.

“Now that we know the causative gene, we are in a better position to understand the underlying biology behind the disorder, which we hope in future may translate to targeted treatments specific for the disorder,” he said.

The genomic testing and data analyses were conducted for four participants at VCGS in Melbourne, Ospedale Pediatrico Bambino Gesù in Italy and Baylor College of Medicine in the US. Researchers from The University of Melbourne, The Royal Children’s Hospital, Università degli Studi di Palermo, Texas Children’s Hospital and Austin Health also contributed to the findings.

Image credit: ©

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