Researchers have discovered that excessive degradation of the power plants of our cells plays an important role in the onset of mitochondrial disease in children. These inherited metabolic disorders can have severe consequence such as brain dysfunction and neurological impairment. The study is published in EMBO Molecular Medicine.
"This is a completely new disease mechanism for mitochondrial disease which may provide a novel entry point for treating affected patients," says the senior author.
Mitochondrial diseases are inherited metabolic disorders that affect about 1 in 4,300 individuals and are caused by dysfunctional mitochondria. Mitochondria are the power plants of our cells and are crucial for converting energy derived from our food into the energy currency that drives the cell's biochemical functions. Not surprisingly, organs that are mainly affected in patients are those with a high energy demand, such as the brain, heart, skeletal muscles, eyes and ears. In children, severe multisystem involvement and neurodegeneration are frequent manifestations.
FBXL4 is a gene that is implicated in controlling mitochondrial function, and mutations in this gene are one of the most common causes of mitochondrial diseases. FBXL4 mutations have been linked to encephalopathy, a form of brain dysfunction causing neurological impairment. The manifestations are impaired cognitive function, developmental regression, epileptic seizures and other types of neurological deficits. Despite the severe consequences of FBXL4 mutations in humans, the function of the protein that FBXL4 codes for has remained poorly understood.
In the current study, researchers generated mice that lack FBXL4 and showed that these mice recapitulate important characteristics present in patients with FBXL4 mutations. They were able to demonstrate that the reduced mitochondrial function is caused by increased degradation of mitochondria via a process called autophagy.
A few surviving animals are apparently normal until the age of 8–12 months when they gradually develop signs of mitochondrial dysfunction and weight loss. One‐year‐old Fbxl4 knockouts show a global reduction in a variety of mitochondrial proteins and mtDNA depletion, whereas lysosomal proteins are upregulated.
Fibroblasts from patients with FBXL 4 deficiency and human FBXL 4 knockout cells also have reduced steady‐state levels of mitochondrial proteins that can be attributed to increased mitochondrial turnover. Inhibition of lysosomal function in these cells reverses the mitochondrial phenotype, whereas proteasomal inhibition has no effect.
In the absence of FBXL4, mitochondria are more frequently delivered to the lysosome, the recycling station of the cell that contains enzymes that break down organic compounds. FBXL4 thus acts as a break on mitochondrial degradation. Patients who lack FBXL4 have too few mitochondria in their tissues which leads to disease.
"Further studies are needed to explore the therapeutic potential of these findings, in particular whether inhibition of the degradation of mitochondria may provide a new treatment strategy," says the senior author.
https://news.ki.se/lack-of-mitochondria-causes-severe-disease-in-children
https://www.embopress.org/doi/full/10.15252/emmm.201911659
http://sciencemission.com/site/index.php?page=news&type=view&id=publications%2Ffbxl4-deficiency&filter=22
Mitochondrial degradation from loss/mutation of a gene may lead to brain disease in children
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