Researchers uncover cause of rare childhood neurodegenerative disease
Neurology researchers investigating a rare but devastating neurological regression in infants have discovered the cause: gene mutations that severely disrupt crucial functions in mitochondria, the energy-producing structures within cells. The specific disease mechanism, in which mutations disrupt a critical mitochondrial enzyme, has not previously been implicated in a human disease.
“We uncovered the cause of this mysterious neurodegenerative disease, and now we understand better what happens in the brains of these children,” said lead investigator Ingo Helbig, MD, a pediatric neurologist at Children’s Hospital of Philadelphia (CHOP). “This new understanding is the very first step toward potentially finding a treatment.”
Helbig collaborated with researchers from Germany, Australia and the U.S. in this study, published online today in the American Journal of Human Genetics. The other two co-senior authors were Dr. Franz-Josef Mueller, of the University Hospital Schleswig Holstein, Kiel, Germany; and Dr. Johan L.K. Van Hove, of the University of Colorado.
For Helbig, now an attending physician in the Neurogenetics Program at CHOP and a specialist in genetic epilepsies, the finding builds on an experience early in his medical training when he was involved in the care of an infant girl with severe epilepsy. The child suffered sudden neurological regression after a fever, for no apparent reason. Imaging studies showed the child lost brain volume, mainly in the cerebellum.
The symptoms appeared to mimic those of a progressive neurological disease. Instead, it turned out to be due to energy failure, based in malfunctioning mitochondria, but this became apparent only after nearly a decade of research.
The current study reports on five affected children in four families, including the original patient and her sibling. Both siblings, along with a third patient in the study, died before six years of age. None of the five children were able to walk or speak, and all but one had seizures.