DAILY NEWS 19 July 2015
Universal plaque-busting drug could
treat various brain diseases
Parkinson’s disease
Mya C. Schiess, Roger Bick, UT
Medical School/Science Photo Library
A virus found in sewage has
spawned a unique drug that targets plaques implicated in a host of
brain-crippling diseases, including Alzheimer’s disease, Parkinson’s disease
and Creutzfeldt-Jakob disease (CJD).
Results from tests of the drug,
announced this week, show that it breaks up plaques in mice affected with
Alzheimer’s disease or Parkinson’s disease, and improves the memories and
cognitive abilities of the animals.
Other promising results in rats
and monkeys mean that the drug developers, NeuroPhage Pharmaceuticals, are
poised to apply for permission to start testing it in people, with trials
starting perhaps as early as next year.
The drug is the first that seems
to target and destroy the multiple types of plaque implicated in human brain
disease. Plaques are clumps of misfolded proteins that gradually accumulate
into sticky, brain-clogging gunk that kills neurons and robs people of their
memories and other mental faculties. Different kinds of misfolded proteins are
implicated in different brain diseases, and some can be seen within the same
condition (see “Proteins gone rogue”, below).
Structural kink
One thing they share, however,
is a structural kink known as a canonical amyloid fold, and it is this on which
the new drug acts (Journal of Molecular Biology, DOI: 10.1016/j.jmb.2014.04.015).
Animal tests show that the drug
reduces levels of amyloid beta
plaques and tau protein
deposits implicated in Alzheimer’s disease, and the alpha-synuclein
protein deposits thought to play a role in Parkinson’s disease.
Tests on lab-made samples show
that the drug also targets misfolded transthyretin, clumps of which can clog up
the heart and kidney, and prion aggregates, the cause of CJD, another
neurodegenerative condition.
Zedo
Because correctly folded
proteins do not have the distinct “kink”, the drug has no effect on them.
“This is a next-generation
drug,” says Maria Carrillo, chief science officer at the US Alzheimer’s
Association. “It could be stopping the root causes of these diseases and
preventing them happening,” she says.
Simultaneous effect
But there is still a long way to
go. Progress treating brain diseases characterised by plaques, particularly
Alzheimer’s disease, has been slow
and there have been many false dawns, where initially promising
drugs have failed when tested in people. Because the new drug acts in a
different way, there is reason to think that it could be the real deal.
For example, most drugs that
have been tried against Alzheimer’s so far target the individual proteins that
make up the plaques, rather than the plaques themselves. The only drug that
does target the plaques – aducanumab – is also the only one to show
signs of halting progression of the disease. Because NeuroPhage’s
drug targets both types of plaque involved in Alzheimer’s disease, it has the
potential to perform even better, says Richard Fisher, chief scientist at
NeuroPhage, who presented the latest results from mice at the annual Alzheimer’s Association International Conference
in Washington DC.
“This is something very novel,”
he says. “There’s never been anything that can target all these plaques simultaneously.”
Biggest challenge
Other researchers want to see
more results. The key thing is whether reducing the plaque results in the death
of fewer brain cells, says Michel Goedert of the Medical Research Council
Laboratory of Molecular Biology in Cambridge, UK. “To give patients a compound
that reduces plaque by, say, 30 per cent without affecting brain degeneration
is of no use.”
“It’s too early to conclude that
the cognitive improvements in mice will have relevance for those living with
dementia, but as the condition poses our biggest medical challenge, testing new
approaches is vital in the hunt for better treatments,” says Simon Ridley, head
of research at the charity Alzheimer’s Research UK.
If the drug is approved for
clinical testing, Fisher and his colleagues hope to test it in people with
early-stage Alzheimer’s disease who have detectable amyloid-beta and tau
plaques in their brains. The hope is that the drug will slow the progression of
their disease. The next stage will be trials on people with Parkinson’s disease
and possibly other diseases that involve the build-up of plaques outside the
brain.
How the universal plaque-buster works
A key component of the new
plaque-busting drug from NeuroPhage Pharmaceuticals is a protein from a
bacteriophage, a type of virus that exclusively infects bacteria. Called M13,
the phage was originally isolated from sewage in Germany 50 years ago. Today it
is used to screen for antibodies with medical potential. Its plaque-defeating
properties were discovered by sheer chance. “It was a total surprise,” says
Richard Fisher, chief scientist at NeuroPhage.
The drug is made up of a viral
protein that recognises the structural kink that is shared by the misfolded
proteins implicated in various brain diseases. This is attached to a fragment
of a human antibody. The phage protein binds to the plaques, then the antibody
portion marks it for clearance from the brain, says Fisher.
https://www.newscientist.com/article/dn27921-universal-plaque-busting-drug-could-treat-various-brain-diseases/
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