The image above presents a ‘before treatment’ (left) and ‘after treatment’ (right) brain scan image from a recent research report of a clinical study that looked at the use of Acetylcysteine (also known as N-acetylcysteine or simply NAC) in Parkinson’s disease.
DaTscan brain imaging technique allows us to look at the level of dopamine processing in an individual’s brain. Red areas representing a lot; blue areas – not so much. The image above represents a rather remarkable result and it certainly grabbed our attention here at the SoPD HQ (I have never seen anything like it!).
In today’s post, we will review the science behind this NAC and discuss what is happening with ongoing clinical trials.
Source: The Register
Let me ask you a personal question:
Have you ever overdosed on Paracetamol?
Regardless of your answer to that question, one of the main treatments for Paracetamol overdose is administration of a drug called ‘Acetylcysteine’.
Why are you telling me this?
Because acetylcysteine is currently being assessed as a potential treatment for Parkinson’s disease.
Oh I see. Tell me more. What is acetylcysteine?
Acetylcysteine. Source: Wikimedia
Acetylcysteine (N-acetylcysteine or NAC – commercially named Mucomyst) is a prodrug – that is a compound that undergoes a transformation when ingested by the body and then begins exhibiting pharmacological effects. Acetylcysteine serves as a prodrug to a protein called L-cysteine, and – just as L-dopa is an intermediate in the production of dopamine – L-cysteine is an intermediate in the production of another protein called glutathione.
Take home message: Acetylcysteine allows for increased production of Glutathione.
What is glutathione?
Glutathione. Source: Wikipedia
Glutathione (pronounced “gloota-thigh-own”) is a tripeptide (a string of three amino acids connected by peptide bonds) containing the amino acids glycine, glutamic acid, and cysteine. It is produced naturally in nearly all cells. In the brain, glutathione is concentrated in the helper cells (called astrocytes) and also in the branches of neurons, but not in the actual cell body of the neuron.
It functions as a potent antioxidant.
Continue reading “Glutathione – Getting the k’NAC’k of Parkinson’s disease”