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From:
Nature News
Published online: 05 October 2004; | doi:10.1038/news041004-6
Parkinson's trial halted
Helen Pearson
Promising therapy runs into buffers.

 Researchers fear that GDNF might trigger a dangerous immune reaction in
patients.

One of the most promising experimental therapies for Parkinson's disease
could be shelved after scientists revealed today that a clinical trial
has been stopped because of safety concerns.

During the treatment, a protein called glial-derived neurotrophic factor
(GDNF) is drip-fed into the brains of patients with the movement
disorder. The idea is that the protein will nourish
dopamine-manufacturing brain cells, which shrivel up during the disease.

Hopes for the treatment soared last year when it was announced that the
first five people treated with GDNF experienced a dramatic recovery in
their movements1. Scientists think the therapy is particularly exciting
because it is one of the few that attempts to preserve or pep up fading
brain cells, rather than simply treating the symptoms of the disease.

But on Tuesday, Anthony Lang of Toronto Western Hospital in Canada
revealed that a second, more extensive clinical trial of GDNF has been
halted because the drug showed little signs of working and some
potentially dangerous side effects. Lang, who was one of the trial's lead
investigators, discussed the results at the annual meeting of the
American Neurological Association in Toronto.

The setback echoes disappointing results from another promising
experimental therapy in 2003, when scientists found that implants of
foetal brain tissue showed little effect in large trials. "[GDNF] was our
remaining immediate hope," says William Langston, president of the
Parkinson's Institute in Sunnyvale, California. "It's a very serious
setback."

Danger signs

The pharmaceutical company Amgen, which sponsored the trial, announced in
June that GDNF did not appear to have benefited patients after the first
six months of the trial. But doctors continued to track patients who were
receiving the drug, and Lang is the first to report the detailed results.


 GDNF was our remaining immediate hope. It's a very serious setback.
William Langston
president of the Parkinson's Institute in Sunnyvale, California


Of the 34 people in the study, four started producing antibodies to the
GDNF protein, says Lang. Although the patients appeared healthy, this
raises fears that the antibodies might go on to trigger a dangerous
immune reaction if treatment had continued.

In addition, studies in monkeys have found that brain cells in two
animals given GDNF began to break down. As a result, doctors took all
patients off the therapy earlier this month. "It's been quite a blow to
the field," says Lang.

There will be knock-on effects for several dozen research groups around
the world who are developing alternative ways to deliver GDNF to
patients' brains, using gene therapy or by implanting cells that secrete
the protein, for example.

The biggest concern is that Amgen will lose interest completely. Because
the company holds patents on GDNF, research into the molecule could grind
to a halt. "If it falters, a lot of other things may fold," says Clive
Svendsen of the University of Wisconsin, Madison, who was involved in the
earlier five-patient trial.

Scientists have yet to explain the discrepancy between the earlier
five-patient trial, which was performed in the UK, and the larger North
American trial. It is possible that the improvement seen in the first set
of patients was simply a placebo effect, because all of them knew that
they were taking the treatment. By contrast, those in the second trial
were randomly assigned to receive infusions of GDNF or a placebo, and
they did not know which one they were taking.

Svendsen argues that there may be other explanations for the difference
in results. For example, Lang's trial used smaller doses of GDNF and a
larger plastic tube to feed the protein into the brain, which may have
caused more damage. "We don't really feel it's been a fair comparison,"
he says.

 In addition, brain scans carried out in both studies showed that
dopamine-producing brain cells showed more signs of life than before the
treatment. The researchers in the field now plan to meet up and discuss
what to do next.

Until then, it is premature to sound the death knell for GDNF therapy,
Langston argues, especially when there are few experimental therapies
ready to take its place. "I'd hate to see it abandoned at this point," he
says. "There's no sequel waiting in the wings."

http://www.nature.com/news/2004/041004/full/041004-6.html

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