Pubdate: Mon, 01 Aug 2005 Source: News & Observer (Raleigh, NC) Copyright: 2005 The News and Observer Publishing Company Contact: https://miva.nando.com/contact-us/letter-editor.html Website: http://www.news-observer.com/ Details: http://www.mapinc.org/media/304 Author: Paul Elias, AP Biotechnology Writer Bookmark: http://www.mapinc.org/mdma.htm (Ecstasy) Bookmark: http://www.mapinc.org/meth.htm (Methamphetamine) PARKINSON'S-AFFLICTED MICE INJECTED WITH SPEED GOT BETTER SAN FRANCISCO -- Illegal drugs such as Ecstasy and related amphetamines reversed the Parkinson's diseaselike muscle rigidity in mice, researchers reported Monday. While cautioning such a surprising finding in mice doesn't translate directly to patients, the scientists said the research opens up new areas of exploration for an incurable brain disorder that afflicts 500,000 people in the United States. "We hope that our study doesn't prompt all the Parkinsonians to go out to the street corners to deal for methamphetamine and Ecstasy," said Marc Caron, a Duke University Medical Center researcher in Durham, N.C., and co-author of the study. Caron and his colleagues created mice through genetic engineering and drugs to be free of the brain chemical dopamine. Without dopamine, the rodents became rigid like Parkinson's patients. The researchers then injected the mice with about 60 different chemical compounds, that are widely abused like Ecstasy and several others from the amphetamine family. The mice receiving the speed showed dramatic results. "These mice were frozen completely," said Duke researcher Raul Gainetdinov, another of the report's authors. "When we treated them and put them in water, they were able to swim." The study is being published in the Public Library of Science's journal Biology, which is available free online. It was funded by a National Institutes of Health grant. The paper suggests that amphetamines, especially when used with the one approved treatment that slows the effects of Parkinson's, helped make dopamine in the genetically engineered mice. Parkinson's patients lose brain cells that create dopamine, a chemical vital for motor function. Investigating possible medicinal uses of such widely abused drugs like Ecstasy, an amphetamine derivative, is a highly contentious area of research. Some research suggests that amphetamines - especially methamphetamine - damage brain cells when abused while other scientific reports are uncovering promising areas for therapeutic use of Ecstasy. One high-profile paper published three years ago in the journal Science that showed Ecstasy killed dopamine-producing brain cells was later retracted when the researchers said they mistakenly used methamphetamine in their research. Those results still showed methamphetamine to be toxic. Caron said that amphetamine abuse is dangerous and unhealthy, but overshadows the possible medicinal benefits the drugs may have. Children have been given two forms of speed for years to combat attention deficit disorders while the brain naturally creates amphetaminelike chemicals, he said. Meanwhile, two human experiments exploring Ecstasy's use as a psychotherapy drug to treat post-traumatic stress syndrome and terminal cancer patients are currently underway. Parkinson's experts not affiliated with the Duke research team tempered their enthusiasm for a paper they found intriguing but incomplete. Dr. William Langston, chief executive of the Sunnyvale-based Parkinson's Institute, said the paper could open up a new field of exploration in a so-far frustrating research area for scientists. "The excitement is that they could be onto something quite novel," said Langston, who is also a board member of the Michael J. Fox Foundation for Parkinson's Research. Still, he cautioned that the mice in the experiment didn't get the Parkinson's recognizable in people. Others warned about reading too much into the research. "There may be a more simple explanation than a dopamine-independent effect of amphetamines," said Dave Sulzer, a Parkinson's researcher at Columbia University Medical Center. Sulzer said among other possible explanations not explored by the Duke team is that the amphetamines interfered with the drug used to block dopamine production in the mice. He also noted that the researchers didn't test the amphetamines and dopamine inhibitors on naturally produced mice with normal dopamine levels for comparison's sake. "It's a good paper," Sulzer said. "But it's really premature" to begin testing amphetamines on Parkinson's patients. Sulzer also noted that the amphetamines given to each mouse were excessively high. "You would never give patients this amount," he said. - --- MAP posted-by: Jay Bergstrom