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Source: University Of Rochester Medical Center
Date: 2005-01-31
URL: http://www.sciencedaily.com/releases/2005/01/050128224727.htm
http://tinyurl.com/5ekc2
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PCBs, Fungicide Open Brain Cells To Parkinson's Assault
University of Rochester scientists investigating the link between PCBs,
pesticides and Parkinson’s disease demonstrated new and intricate reactions
that occur in certain brain cells, making them more vulnerable to injury
after exposures.

In two papers published in the journal NeuroToxicology (Dec. 2004 and Feb.
2005), the group describes how Polychlorinated biphenyls (PCBs) disrupt
dopamine neurons, which are the cells that degenerate during the course of
Parkinson’s disease. Researchers also show that low levels of maneb, a
fungicide commonly used in farming, can injure the antioxidant system in
those same types of cells. Environmental contaminants might make dopamine
cells more vulnerable to damage from normal aging, infection, or subsequent
exposure to pollutants, researchers say.

The UR investigation is part of a nationwide race to better understand every
aspect of Parkinson’s disease, which affects up to 1 million Americans. It
is a progressive neurological disorder that occurs when certain nerve cells
in the substantia nigra region of the brain die or can no longer produce the
brain chemical dopamine. A lack of dopamine is what causes patients to
experience tremors, stiffness in the limbs and trunk, and impaired movement
or balance.

In the 1990s scientists reported that the brains of Parkinson’s patients
contained elevated levels of PCBs and certain pesticides. While researchers
believe that genetics, the aging process and exposure to toxicants all play
a role in the development of Parkinson’s, the UR group led by Lisa
Opanashuk, Ph.D., is focused on environmental exposures. The National
Institutes of Health is funding the work.

“If we can identify the mechanisms by which PCBs or pesticides perturb
dopamine neuron function, it may lead to the development of therapies that
can prevent, slow or stop the progression of Parkinson’s,” says Opanashuk,
an assistant professor of Environmental Medicine.

PCBs create havoc in the body’s cellular system by producing free radicals,
which leads to a process known as oxidative stress (OS). Oxidative stress is
thought to be one of the main causes of cell degeneration. Normally,
antioxidants can balance the damage done by OS. But toxic pesticide
exposure, combined with the normal aging process, shifts the equilibrium
toward oxidative stress and neurodegeneration.

The UR studies demonstrate, for the first time, the intricate OS and
antioxidant responses to PCBs in dopamine neurons. Investigators treated
dopamine cells and other brain cells with PCBs and documented the activation
of oxidative-stress related pathways. Further research will evaluate how
PCBs become risk factors for disease.

PCBs, used as industrial coolants and lubricants, were banned in 1977 but
remain widespread in the environment due to their improper disposal. They
linger in the food chain, particularly in wild and farmed salmon and other
fish. PCBs accumulate in the body in fat and brain cells and other tissues.
The potential adverse health effects of PCBs are dependent upon many
factors, such as the levels of exposure, the toxicities of individual
chemicals present in any given mixture, and their interactive properties.

Pesticides such as maneb remain in farmed soil for 20-75 days following
application and can be found on produce for more than three weeks, even
after washing, according to researchers. Until now, the effect of maneb on
oxidative stress responses in dopamine neurons was unknown.

But Opanashuk’s group shows that just as in exposure to PCBs, cells treated
with low levels of maneb also undergo changes that disturb the balance in
the antioxidant defense system. Another concern is whether maneb causes more
damage when people are exposed in combination with other pesticides, which
occurs in rural communities. Opanashuk hopes the research will lead to
developing safety guidelines and determining more closely the role that
maneb plays in neurological diseases.

Besides Opanashuk, the research group included Donna W. Lee and Mary
Williamson, fifth year graduate students in the Toxicology PhD. Program,
technician Bryan Thompson, and former UR scientists Brian K. Barlow and
Deborah Cory-Slechta, who are now associated with the Robert Wood Johnson
Medical School in New Jersey. The UR is also home to the Parkinson’s Disease
Data and Organizing Center, directed by Roger Kurlan, M.D., a nationwide
network of 12 institutions, and the Parkinson Study Group, a consortium of
experts founded and headed by UR neurologist Ira Shoulson, M.D.

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