Improving Mitochondrial Function in Neurons to Boost Nerve Regeneration
Mitochondria are the power plants of the cell, responsible for producing the chemical energy store molecule adenosine triphosphate (ATP) that powers cellular operations. As such, most processes of interest in disease and regeneration have at least some indirect dependency on mitochondrial function. Researchers here note a potential connection between mitochondrial function and the inability of nerves to regrow following injury. They provide evidence for an adjustment to the way in which mitochondria behave in nerve cells, and in the connections between nerve cells called axons, to spur regeneration. This is an interesting approach to regenerative medicine, though clearly at a very early stage of exploration.
The cells of the body use a chemical compound called adenosine triphosphate (ATP) for fuel. Much of this ATP is made by cellular power plants called mitochondria. In spinal cord nerves, mitochondria can be found along the axons. When axons are injured, the nearby mitochondria are often damaged as well, impairing ATP production in injured nerves. "Nerve repair requires a significant amount of energy. Our hypothesis is that damage to mitochondria following injury severely limits the available ATP, and this energy crisis is what prevents the regrowth and repair of injured axons."
Adding to the problem is the fact that, in adult nerves, mitochondria are anchored in place within axons. This forces damaged mitochondria to remain in place while making it difficult to replace them, thus accelerating a local energy crisis in injured axons. One of the leading groups studying mitochondrial transport previously created genetic mice that lack the protein - called Syntaphilin - that tethers mitochondria in axons. In these "knockout mice" the mitochondria are free to move throughout axons.
When the researchers looked in three injury models in the spinal cord and brain, they observed that Syntaphilin knockout mice had significantly more axon regrowth across the injury site compared to control animals. The newly grown axons also made appropriate connections beyond the injury site. When the researchers looked at whether this regrowth led to functional recovery, they saw some promising improvement in fine motor tasks in mouse forelimbs and fingers. This suggested that increasing mitochondrial transport and thus the available energy to the injury site could be key to repairing damaged nerve fibers. To test the energy crisis model further, mice were given creatine, a bioenergetic compound that enhances the formation of ATP. Both control and knockout mice that were fed creatine showed increased axon regrowth following injury compared to mice fed saline instead. More robust nerve regrowth was seen in the knockout mice that got the creatine.
I have motor neuron disease and recently Edinburgh scientists used a virus to boost mitochondria in nerve cells resulting in the nerve damage being reversed.
They are currently testing drugs to replicate the results.
If the correct drug is found it could lead to a cure. Your article suggests creatine could do the trick. Am i oversimplifying this or is it possible
63 and spent far too many years in serious sports. Last year, lumbar fusion, TDR in neck and half a new knee.. Also had all sinuses unblocked.. The neck and Sinuses are an amazing improvement.. Nerve damage in the lumbar fusion has severly reduced my strenght and muscle in legs.. I'm pretty angry about this as I was quite a good surfer..
To have this taken away from me is a cruel blow.
Had a lumbar disc replacement been an option I would not be encountering these issues and my recovery time would have been many times quicker. The usual excuse for not using TDR at lumbar levels is because there is a lot of weight to be supported, unlike the neck.
However you have to ask the question if this is true, why so many total knee replacements?
That we are being lied to is bad enough but to not have any solutions to bad surgery or general nerve damage is unacceptable.
I,m in the same position as Mr kier Sims, an in total agreement with him. Nerve damage at point of surgery should be acknowledged, lies have no place in health care , as progress will never be made on help and solutions for neurological damage.