The study found that muscle cells produce small RNA molecules called microRNA-126 and send them in vesicles, through the synapsis, to the tip of the nerve cell. The role of these molecules is to prevent the expression of the TDP-43 protein at the neuromuscular junction when it is not needed. Dr. Ionescu explains: “We discovered that in ALS, the muscle produces a smaller amount of microRNA-126, which leads to an excess of TDP-43. The excess protein forms toxic aggregates that attack molecules essential for functioning of the mitochondria — the nerve cell’s powerhouse. Damage to the mitochondria causes an energy deficit, gradually destroying motor neurons and leaving patients’ muscles paralyzed.”
Conversely, increasing the level of microRNA-126 in tissues taken from ALS patients and in ALS model mice led to a decrease in the levels of TDP-43, and the neurons stopped degenerating and even regenerated. The researchers concluded that adding microRNA-126 rescues neurons damaged by ALS, prevents degeneration of the neuromuscular junction, and could serve as a basis for developing effective drugs for this currently incurable disease.
The company is focusing on A.I. that will help in engineering and manufacturing in a number of fields, including computers, aerospace and automobiles. It is unclear where Project Prometheus will be based.