Date:
September
29, 2014
Source:
University
of California, San Diego Health Sciences
Summary:
A
key neuronal protein called alpha-synuclein normally gathers in synapses, where
aggregates of it help regulate neurotransmissions, researchers have found. In
overabundance, though, a-synuclein can choke off communication altogether,
leading to neuronal death and related diseases.
The
protein alpha-synuclein is a well-known player in Parkinson's disease and other
related neurological conditions, such as dementia with Lewy bodies. Its normal
functions, however, have long remained unknown. An enticing mystery, say
researchers, who contend that understanding the normal is critical in resolving
the abnormal.
Alpha-synuclein
typically resides at presynaptic terminals -- the communication hubs of neurons
where neurotransmitters are released to other neurons. In previous studies,
Subhojit Roy, MD, PhD, and colleagues at the University of California, San
Diego School of Medicine had reported that alpha-synuclein diminishes
neurotransmitter release, suppressing communication among neurons. The findings
suggested that alpha-synuclein might be a kind of singular brake, helping to
prevent unrestricted firing by neurons. Precisely how, though, was a mystery.
Then
Harvard University researchers reported in a recent study that alpha-synuclein
self-assembles multiple copies of itself inside neurons, upending an earlier
notion that the protein worked alone. And in a new paper, published this month
in Current Biology, Roy, a cell biologist and neuropathologist in the
departments of Pathology and Neurosciences, and co-authors put two and two
together, explaining how these aggregates of alpha-synuclein, known as
multimers, might actually function normally inside neurons.
First,
they confirmed that alpha-synuclein multimers do in fact congregate at
synapses, where they help cluster synaptic vesicles and restrict their
mobility. Synaptic vesicles are essentially tiny packages created by neurons
and filled with neurotransmitters to be released. By clustering these vesicles
at the synapse, alpha-synuclein fundamentally restricts neurotransmission. The
effect is not unlike a traffic light -- slowing traffic down by bunching cars
at street corners to regulate the overall flow.
"In
normal doses, alpha-synuclein is not a mechanism to impair communication, but
rather to manage it. However it's quite possible that in disease, abnormal
elevations of alpha-synuclein levels lead to a heightened suppression of
neurotransmission and synaptic toxicity," said Roy.
"Though
this is obviously not the only event contributing to overall disease
neuropathology, it might be one of the very first triggers, nudging the synapse
to a point of no return. As such, it may be a neuronal event of critical
therapeutic relevance."
Indeed,
Roy noted that alpha-synuclein has become a major target for potential drug
therapies attempting to reduce or modify its levels and activity.
end
text
Story Source:
The
above story is based on materials
provided by University of
California, San Diego Health Sciences. Note: Materials may be
edited for content and length.
end
story_source
Journal Reference:
• Lina Wang, Utpal Das,
David A. Scott, Yong Tang, Pamela J. McLean, Subhojit Roy. α-Synuclein
Multimers Cluster Synaptic Vesicles and Attenuate Recycling. Current
Biology, 2014; DOI: 10.1016/j.cub.2014.08.027
end
journal_references
Cite This Page:
• MLA
APA
Chicago
University
of California, San Diego Health Sciences. "'Frenemy' in Parkinson's
disease takes to crowdsourcing." ScienceDaily. ScienceDaily, 29 September
2014. <www.sciencedaily.com/releases/2014/09/140929174413.htm>.
end
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