Toxin that plays key role in triggering Parkinson’s disease identified
February 11th, 2011 - 6:12 pm ICT by ANIWashington, Feb 11 (ANI): Scientists have found evidence that a toxin produced by the brain is responsible for the series of cellular events that lead to Parkinson’s disease.
After research in an animal model, investigators from Saint Louis University found that the brain toxin DOPAL plays a key role in killing the dopamine neurons which trigger the illness.
Parkinson’s disease is a debilitating neurodegenerative movement disorder, affecting 2 percent of individuals older than age 65 and 4 to 5 percent older than 85 years.
The disorder is due to a loss of dopamine neurons and is characterized by bradykinesia and tremors while at rest.
Dopamine, a vital chemical that allows for coordinated function of neurons controlling the body’s muscles and movements, is produced by nerve cells in the substantia nigra.
When 80 percent of these cells die or become damaged, symptoms of Parkinson’s disease begin to appear, including tremors, slowness of movement, rigidity and stiffness, and difficulty with balance.
“In Parkinson disease, we knew that the death of dopamine cells is responsible for patients’ symptoms. But no one knew why the cells are dying,” said W. Michael Panneton, lead researcher.
From a cellular perspective, doctors know some pieces of the puzzle. They know that Parkinson patients have a loss of dopamine neurons in a part of the brain called the substantia nigra, leading to severe dopamine loss in another part of the brain called the striatum, and the aggregation of a protein called alpha-synuclein.
Alpha-synuclein is found throughout the brain. In some people, the protein clumps together. We found that it is DOPAL that causes alpha-synuclein protein in the brain to aggregate.
This induces further increases of DOPAL leading to the death of the dopamine-producing cells, which in turn causes Parkinson’s symptoms to develop.
The study was published in PLoS One. (ANI)
- Yeast offers clues to Parkinson's disease - Sep 09, 2010
- Study provides new insight into Parkinson's disease - Apr 05, 2011
- Two genes tell how Parkinson's progresses - Feb 13, 2012
- Turmeric compound shows promise in Parkinson's - Mar 21, 2012
- Scientists identify 'molecule trio' that kills neurons in Parkinson's - Apr 30, 2009
- Premature death of brain neurons 'may trigger Parkinson's' - Nov 11, 2010
- Protein pathway find may help solve Parkinson's disease - Mar 01, 2011
- What causes brain cell death in Parkinson's patients - Jan 08, 2011
- Naturally occurring brain mechanism ups Parkinson's understanding - Feb 12, 2011
- Stomach hormone may help slow Parkinson's progression - Nov 26, 2009
- How Parkinson's disease spreads in the brain - Jul 28, 2009
- Sleep disorder could lead to Parkinson's disease - Jul 31, 2011
- Pesticides near workplace raises Parkinson's risk: Study - May 28, 2011
- New tests to detect Parkinson's disease early on - Sep 27, 2010
- Molecules that protect brain cells from Parkinson's identified - Dec 29, 2009
Tags: alpha synuclein, animal model, bradykinesia, cellular events, clumps, dopamine neurons, key role, nerve cells, neurodegenerative, panneton, parkinson disease, parkinson patients, pieces of the puzzle, plos one, rigidity, saint louis university, slowness, striatum, substantia nigra, tremors