sábado, 30 de noviembre de 2013

Study Sheds Light on Link Between Pesticides, Parkinson's: MedlinePlus

Study Sheds Light on Link Between Pesticides, Parkinson's: MedlinePlus


Study Sheds Light on Link Between Pesticides, Parkinson's

Gene mutation combined with exposure to chemicals used in farming may trigger degenerative disease

By Robert Preidt
Wednesday, November 27, 2013
HealthDay news image WEDNESDAY, Nov. 27, 2013 (HealthDay News) -- Researchers have identified a genetic mutation that increases the risk of Parkinson's disease linked to pesticides.
The gene mutation causes nerve cells that produce a substance called "dopamine" to lose their protection from pesticide damage. The body uses dopamine to send messages to the part of the brain that controls movement and coordination.
Parkinson's disease -- which causes movement problems such as stiffness, tremors and slurred speech -- occurs when nerve cells in the brain don't produce enough dopamine.
The study is the first "to show that a genetic mutation combined with exposure to pesticides creates a 'double-hit' scenario," by disabling specific pathways, which then leads to nerve-cell death, study senior author Dr. Stuart Lipton, professor and director of Sanford-Burnham Medical Research Institute's Center for Neuroscience, Aging, and Stem Cell Research, said in an institute news release.
Prior to this research, the suspected link between pesticides and Parkinson's disease was based mainly on animal research and studies that found an increased risk of Parkinson's disease among farmers, rural populations and others exposed to agricultural chemicals.
The study was published online Nov. 27 in the journal Cell.
While these findings clearly show the relationship between a gene mutation, the environment, and the damage done to dopamine-producing nerve cells, other mutations and pathways could be important influences as well, the researchers noted.
The investigators plan further research to learn more about how genes and environmental factors interact to contribute to Parkinson's and other neurodegenerative diseases such as Alzheimer's and amyotrophic lateral sclerosis (Lou Gehrig's disease).
"In the future, we anticipate using the knowledge of mutations that predispose an individual to these diseases in order to predict who should avoid a particular environmental exposure. Moreover, we will be able to screen for patients who may benefit from a specific therapy that can prevent, treat or possibly cure these diseases," Lipton said.
SOURCE: Sanford-Burnham Medical Research Institute, news release, Nov. 27, 2013
More Health News on:
Genes and Gene Therapy
Parkinson's Disease

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