Posted on 10/17/2009 10:31:51 PM PDT by neverdem
Introducing three genes corrects motor defects in monkeys.
A potential gene therapy for Parkinson's disease can correct motor deficits in monkeys without causing the jerky, involuntary movements that often accompany long-term treatments for the disease. The approach is undergoing preliminary testing in a handful of human patients, who have all shown promising signs of improvement.
At present, the most common remedy for Parkinson's disease involves replacing dopamine the neurotransmitter that is depleted in patients with the disease by administering the dopamine precursor levodopa, or L-DOPA. Most patients initially regain near-normal motor control, but after several years on L-DOPA the majority become saddled with debilitating physical and psychological side effects.
To remedy the situation, Stéphane Palfi, a neurosurgeon at the French Atomic Energy Commission's Institute of Biomedical Imaging in Orsay, and his colleagues including researchers from Oxford, UK-based Oxford Biomedica, turned to gene therapy. First, they gave macaque monkeys a harsh neurotoxin that caused the animals to develop bodily tremors, unstable posture and severe joint rigidity hallmarks of advanced Parkinson's disease. The researchers then injected the monkeys' brains with three genes essential for synthesizing dopamine.
“We don't see any problems in these monkeys.”
Stéphane Palfi
French Atomic Energy Commission, Institute of Biomedical Imaging
They saw significant improvements in motor behaviour after just two weeks, without any visible adverse effects. "We don't see any problems in these monkeys," says Palfi. One animal even exhibited sustained recovery more than 3.5 years later. Notably, the monkeys did not display the jerky, uncontrolled movements that occur in most patients and monkeys after prolonged oral L-DOPA treatment.
This success in monkeys paves the way for future studies in humans, says Palfi, who reported his animal results today in the journal Science Translational Medicine1. "This is the exact situation that we will face in the clinic," he says. Palfi's team has already tested two different doses of the three-gene-containing virus in six human patients, and is now investigating an intermediate dose that matches that used in the monkeys, with corrections for brain size. Once the researchers find the optimal dose, they plan to move the experimental treatment into Phase II trials, Palfi says.
Palfi's technique is not the only gene therapy currently being pursued for Parkinson's disease. Some researchers are delivering genes that provide growth factors to halt the death of dopamine-producing neurons. Others are introducing genes that inhibit the excessive neural activity associated with Parkinson's disease in the same way as the surgical process known as deep-brain stimulation. And yet others are focusing on single genes rather than all three with a role in dopamine synthesis.
But Palfi's team is the first to deliver all three of the dopamine genes in a single viral vector in primates. This approach aims to eliminate the need for L-DOPA and its associated side effects. But the technique would mean that clinicians would no longer be able to fine-tune the levels of dopamine in the brain to meet the needs of the patient, notes Jamie Eberling, associate director of research programmes at the Michael J. Fox Foundation for Parkinson's Research in New York City.
As a faculty member at the Lawrence Berkeley National Laboratory in Berkeley, California, Eberling was involved in a Phase I trial for a gene therapy that replaced only one of the dopamine-associated genes in order to reduce the dosage of L-DOPA and minimize the side effects2. With the single-gene approach, "we could control dopamine levels despite the fact that we could not control gene expression; with this three-gene approach they can't control either," says Eberling. "So far what they've seen seems very safe, but it is a potential issue."
Michael Kaplitt, a neurosurgeon at the Weill Cornell Medical College in New York, who helped to run a gene-therapy trial to mitigate hyperactive neural responses3, cautions that the monkey results are difficult to extrapolate to humans because the chemical used to induce parkinsonian symptoms destroys neurons much more rapidly than does the disease in humans. Even so, he says, "the more that we have animal data that supports a human study, and the more human data we have, the more we'll be able to understand what has been the barrier to ultimate successful development and translation [of gene therapies] to the clinic."
Title of 1st reference
turns out you could fix anything by manipulating genes
Same for the overall brave new world
Not as dramatic, but here’s an fyi:
“David Perlmutter, a Florida neurologist, found that intravenous glutathione
helps relieve the symptoms of Parkinsons disease.
Glutathione increases sensitivity to dopamine, which is depleted in
Parkinsons. It may also protect against neurotoxins that may be implicated
in the disease. Dr Perlmutter gave 1400 milligrams of intravenous
glutathione three times a week to his Parkinsons patients,
whose symptoms improved while they were able to reduce the
amount of their drugs.
snip
For those who do not have access to treatment with intravenous
glutathione at their doctors, whey protein has been found to increase
cellular glutathione.”
excerpt fromt:
http://www.flatironhealth.com/Download/Glutathion.pdf
Heart and Head Misfire Together
Jupiter's Moon Europa Has Enough Oxygen For Life
FReepmail me if you want on or off my health and science ping list.
p
And not a stem cell in sight.
Many thanks to all the FReepers who donate their computers to the Folding@Home project, to help find cures for these diseases.
There will be new Folding cores in a couple of months that will speed up folding computing on all platforms. Please keep us in mind as you get new computers this Christmas season.
BTTT
Please let me know if you want on or off the Parkinson’s ping list.
Many thanks to all the FReepers who donate their computers to the Folding@Home project, to help find cures for these diseases.
There will be new Folding cores in a couple of months that will speed up folding computing on all platforms. Please keep us in mind as you get new computers this Christmas season.
BTTT
IIRC, I thought I asked you to put me on it when Smokin' Joe persuaded you to start it maybe a month or two ago.
Please put me on the Parkinson’s ping list.
You are both on the list!
I've found a YouTube site for F@H - PandeScience's Channel that has quite a few vids explaining the back story of the Lab. Also there is another phpBB Bulletin Board up - FAH-Addict.net that has both English and French portals, that get into the upgrading and overclocking activities that some folks do to max out their systems.
I shut down my F@H computers last week. The Obama economy has me worried, so I’m trying to build up my savings and cut back on expenses like electricity. I’ll have a better idea of my job situation next year, and I might be back on a smaller scale before then.
At least you are keeping your FR habit up!
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