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The First Ever Blood Test To Detect Parkinson's Disease Could Be On The
Horizon Following Research By Lancaster University Scientists
26 May 2007

Researchers at Lancaster have discovered that alpha-synuclein - a protein
that accumulates in parts of the brain affected by Parkinson's disease - can
also be detected in the blood. Furthermore, the levels of a particular form
of this protein appear to be altered in blood samples from patients with the
disease.

Professor David Allsop has now been granted £396,000 by the Medical
Research Council to lead a team of researchers from Lancaster University,
Manchester University and Royal Preston Hospital to continue to explore the
possibility that this protein could act as a marker for Parkinson's disease.

The researchers will also carry out an extensive £860,000 drug trial funded
by industrial collaborator Zyentia. Zyentia is developing new drugs aimed at
preventing the degeneration and loss of brain nerve cells in Parkinson's
disease. If successful, such drugs could slow or even stop the progression
of the disease.

Parkinson's disease (PD) is a common, incurable brain disease, with
characteristic symptoms including tremors of the hands, muscle rigidity and
slowness of movement. There are around 120,000 sufferers in the UK - one in
500 people - but diagnosis can be difficult. Diagnosis is currently based on
taking a detailed clinical history and looking for evidence of the key
symptoms.

However, diagnostic errors are common because PD is one of several
neurological movement disorders with similar symptoms and there is no
existing diagnostic test that can confirm the clinical diagnosis of PD.

It is hoped alpha-synuclein will act as a reliable diagnostic marker, which
could lead to the development of the first ever PD blood test enabling
earlier and more accurate diagnosis. When coupled with earlier treatment,
this would have the potential to transform the lives of those who suffer
from this disease. By monitoring fluctuating levels of alpha-synuclein in
the blood, doctors might also be able to follow the clinical progression of
the disease.

The study has three strands. The first will involve taking blood samples
from patients with various neurodegenerative conditions, including PD, and
testing them for levels of alpha-synuclein. The second is a longitudinal
study taking repeat blood samples over a prolonged period from a relatively
small group of patients already diagnosed with PD. The third study is a drug
trial involving around 200 patients with PD.

Professor David Allsop, of Lancaster University's Department of Biology,
said: "Early diagnosis of PD should lead to more effective treatment.
Current drugs for PD are targeted at the 'downstream' consequences of the
degeneration of brain cells, rather than its prevention. However, many
pharmaceutical companies, including our collaborators at Zyentia, are
developing new drugs targeted at the degenerative process itself. The
combination of early and accurate diagnosis with drugs aimed at the causes
of the disease would revolutionise the way we treat Parkinson's. These new
treatments could slow down or even halt the progress of the disease. In view
of our ageing population, finding better ways of tackling this debilitating
disease is a top priority."

Professor Colin Blakemore, Chief Executive of the Medical Research Council
added "The combination of public funding from the Medical Research Council
and support from the pharmaceutical industry highlights how public and
private sectors can work together to develop better diagnostic tools and
facilitate drug development. These types of collaborations ultimately
benefit patients, who will see quicker applications of scientific
discoveries."

Collaborators on the study are Professor David Allsop and Professor Peter
Diggle, Lancaster University, Professor David Mann, Manchester University,
Professor Douglas Mitchell, Royal Preston Hospital and Dr Jesus Zurdo at
Zyentia .

alpha-synuclein

In PD, structures called 'Lewy bodies' are found inside nerve cells in
affected regions of the brain. Lewy bodies contain abnormal fibres made out
of a protein called alpha-synuclein and the formation of these
alpha-synuclein deposits inside Lewy bodies is an important step in the
development of PD. Lancaster University researchers discovered
alpha-synuclein is also present in the human blood.

Diagnosis of PD

PD is one of several neurological movement disorders with similar symptoms.
Unfortunately, there is no existing diagnostic test that can confirm the
clinical diagnosis of PD. At present, laboratory tests of blood samples from
these patients do not show any abnormalities. Also, routine brain scans (MRI
and CAT scans) of people with PD usually appear to be normal. This is
because the pathological changes responsible for PD are not revealed by
these scans. Specialised brain imaging techniques (called PET scans) can
reveal some abnormalities in PD, but these imaging methods are costly and
currently inappropriate for routine clinical practice. With no specific
diagnostic tests, doctors must base their diagnosis of PD on clinical
judgement.

Medical Research Council

The Medical Research Council is dedicated to improving human health through
excellent science. It invests on behalf of the UK taxpayer. Its work ranges
from molecular level science to public health research, carried out in
universities, hospitals and a network of its own units and institutes. The
MRC liaises with the Health Departments, the National Health Service and
industry to take account of the public's needs. The results have led to some
of the most significant discoveries in medical science and benefited the
health and wealth of millions of people in the UK and around the world.
www.mrc.ac.uk

www.zyentia.com
Article URL: http://www.medicalnewstoday.com/medicalnews.php?newsid=72140

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