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New Mutant Mouse Model Useful In The Treatment Of Neuromuscular Diseases

At three to six months of life, this genetic alteration in mice – similar to that which occurrs in humans – causes a rapid degeneration in the lower limbs, leading to death from cardiac arrest.

For the first time in the world, researchers at the Center for Biomedical Research of the University of Granada have created mice with a inducing a in the coenzyme Q10, a rare mitochondrial disease prevailingly affecting children. These mutant mice – which lack the Coq9 gene – will be “a valuable tool for the study and treatment of metabolic encephalopathies and ”, the researchers state.

Coenzyme Q10 (CoQ10) is a molecule produced in body cells, the functions of which are crucial to cell metabolism. Their best-known function is that of generating energy used by cells and their antioxidant activity. In humans, defects in the biosynthetic route cause , resulting in a syndrome with very heterogeneous symptoms.

To better understand the pathological mechanisms of this disease and learn about the biosynthetic pathway of CoQ, conducted a three-year study to generate mice with a mutation in a gene (Coq9) similar to that found in humans. This gene codifies a protein involved in CoQ biosynthesis.

Lower Limb Paralysis

According to professor Luis Carlos López García – the principal investigator of this study – “Mice with a Coq9 mutation develop a severe encephalomyopathy inducing neural death, astrogliosis and vacuolation of the brain. At three to six months, these mice undergo a rapid degeneration causing lower limb paralysis and death from cardiac arrest. In molecular terms, CoQ deficiency in mice impairs the mitochondrial mechanisms of bioenergy production in the brain, causing a severe bioenergetic deficiency and a slight increase in oxidative damage”.

The CoQ9-deficient model generated at the University of Granada “Is the first model of CoQ9-deficient mutant mice with mitochondrial encephalomyopathy created worldwide. Currently, there is no therapy for neuromuscular diseases associated with CoQ10 deficiency, and this mutant model might be useful in the development of an effective therapy for such diseases. In addition, as CoQ10 is also used as a nutritional supplement and in the cosmetics industry, “the CoQ9-deficient model is very useful in the assessment of the effectiveness of nutritional supplements and cosmetics”.

The results of this research study – which received financial support from CEI BioTic Granad, the Spanish Ministry of Economy and Competitiveness, the Andalusian Regional Government and the Marie Curie program – have been recently published in the prestigious journal Human Molecular Genetics. Researchers from the National Cardiovascular Research Center (CNIC) also participated in the study.


University of Granada