Using vitamin K2 has been found to reverse the effects of the genetic defects that leads to Parkinson's.
Using vitamin K2 has been found to reverse the effects of the genetic defects that leads to Parkinson's. The achievement of neuroscientist Patrik Verstreken, associated with VIB and KU Leuven, gives hope to Parkinson's patients.
The research was done in collaboration with colleagues from Northern Illinois University (US).
"It appears from our research that administering vitamin K2 could possibly help patients with Parkinson's. However, more work needs to be done to understand this better," said Patrik Verstreken.
Malfunctioning power plants are at the basis of Parkinson's.
If we looked at cells as small factories, then mitochondria would be the power plants responsible for supplying the energy for their operation. They generate this energy by transporting electrons. In Parkinson's patients, the activity of mitochondria and the transport of electrons have been disrupted, resulting in the mitochondria no longer producing sufficient energy for the cell.
This has major consequences as the cells in certain parts of the brain will start dying off, disrupting communication between neurons. The results are the typical symptoms of Parkinson's: lack of movement (akinesia), tremors and muscle stiffness.
Advertisement
Fruit flies (Drosophila) are frequently used in lab experiments because of their short life spans and breeding cycles, among other things. Within two weeks of her emergence, every female is able to produce hundreds of offspring. By genetically modifying fruitflies, scientists can study the function of certain genes and proteins.
Advertisement
Upon closer examination, they discovered that the mitochondria in these flies were defective, just as in Parkinson's patients. Because of this they generated less intracellular energy - energy the insects needed to fly.
When the flies were given vitamin K2, the energy production in their mitochondria was restored and the insects' ability to fly improved. The researchers were also able to determine that the energy production was restored because the vitamin K2 had improved electron transport in the mitochondria. This in turn led to improved energy production.
Vitamin K2 plays a role in the energy production of defective mitochondria. Because defective mitochondria are also found in Parkinson's patients with a PINK1 or Parkin mutation, vitamin K2 potentially offers hope for a new treatment for Parkinson's.
The discovery will be published on the website of the authorative journal Science.
Source-ANI