Drug Slows and May Halt Parkinson's Disease
Northwestern University researchers have discovered a drug that slows – and may even halt – the progression of Parkinson’s disease. The drug rejuvenates aging dopamine cells, whose death in the brain causes the symptoms of this devastating and widespread disease.
D. James Surmeier, the Nathan Smith Davis professor and chair of physiology at Northwestern University’s Feinberg School of Medicine, and his team of researchers have found that isradipine, a drug widely used for hypertension and stroke, restores stressed-out dopamine neurons to their vigorous younger selves. The study is described in a feature article in the international journal Nature, which will be published online June 10.
Dopamine is a critical chemical messenger in the brain that affects a person’s ability to direct his movements. In Parkinson’s disease, the neurons that release dopamine die, causing movement to become more and more difficult.
Ultimately, a person loses the ability to walk, talk or pick up a glass of water. The illness is the second most common neurodegenenerative disease in the country, affecting about 1 million people. The incidence of Parkinson’s disease increases with age, soaring after age 60.
“Our hope is that this drug will protect dopamine neurons, so that if you began taking it early enough, you won’t get Parkinson’s disease, even if you were at risk. ” says Surmeier, who heads the Morris K. Udall Center of Excellence for Parkinson’s Disease Research at Northwestern. “It would be like taking a baby aspirin everyday to protect your heart.”
Isradipine may also significantly benefit people who already have Parkinson’s disease. In animal models of the disease, Surmeier’s team found the drug protected dopamine neurons from toxins that would normally kill them by restoring the neurons to a younger state in which they are less vulnerable.
The principal therapy for Parkinson’s disease patients currently is L-DOPA, which is converted in the brain to dopamine. Although L-DOPA relieves many symptoms of the disease in its early stages, the drug becomes less effective over time. As the disease progresses, higher doses of L-DOPA are required to help patients, leading to unwanted side-effects that include involuntary movements. The hope is that by slowing the death of dopamine neurons, isradipine could significantly extend the time in which L-DOPA works effectively.
“If we could double or triple the therapeutic window for L-DOPA, it would be a huge advance,” Surmeier says.
The work by Surmeier’s group is particularly exciting because nothing is known to prevent or slow the progression of Parkinson’s disease.
Bookmark http://universeeverything.blogspot.com/ and drop back in sometime.
D. James Surmeier, the Nathan Smith Davis professor and chair of physiology at Northwestern University’s Feinberg School of Medicine, and his team of researchers have found that isradipine, a drug widely used for hypertension and stroke, restores stressed-out dopamine neurons to their vigorous younger selves. The study is described in a feature article in the international journal Nature, which will be published online June 10.
Dopamine is a critical chemical messenger in the brain that affects a person’s ability to direct his movements. In Parkinson’s disease, the neurons that release dopamine die, causing movement to become more and more difficult.
Ultimately, a person loses the ability to walk, talk or pick up a glass of water. The illness is the second most common neurodegenenerative disease in the country, affecting about 1 million people. The incidence of Parkinson’s disease increases with age, soaring after age 60.
“Our hope is that this drug will protect dopamine neurons, so that if you began taking it early enough, you won’t get Parkinson’s disease, even if you were at risk. ” says Surmeier, who heads the Morris K. Udall Center of Excellence for Parkinson’s Disease Research at Northwestern. “It would be like taking a baby aspirin everyday to protect your heart.”
Isradipine may also significantly benefit people who already have Parkinson’s disease. In animal models of the disease, Surmeier’s team found the drug protected dopamine neurons from toxins that would normally kill them by restoring the neurons to a younger state in which they are less vulnerable.
The principal therapy for Parkinson’s disease patients currently is L-DOPA, which is converted in the brain to dopamine. Although L-DOPA relieves many symptoms of the disease in its early stages, the drug becomes less effective over time. As the disease progresses, higher doses of L-DOPA are required to help patients, leading to unwanted side-effects that include involuntary movements. The hope is that by slowing the death of dopamine neurons, isradipine could significantly extend the time in which L-DOPA works effectively.
“If we could double or triple the therapeutic window for L-DOPA, it would be a huge advance,” Surmeier says.
The work by Surmeier’s group is particularly exciting because nothing is known to prevent or slow the progression of Parkinson’s disease.
Bookmark http://universeeverything.blogspot.com/ and drop back in sometime.
Labels: dopamine, drug, Northwestern, Parkinson's
posted by Scott Nance at
6/10/2007 10:31:00 AM
0 Comments:
Post a Comment
Subscribe to Post Comments [Atom]
<< Home