Showing posts with label amyloid damage or destroy a neuron's synapses.. Show all posts
Showing posts with label amyloid damage or destroy a neuron's synapses.. Show all posts

Saturday, November 24, 2012

CLR01 effectively inhibits synaptotoxicity in mice with Alzheimer's



We know that, aggregation of α-synuclein (α-syn) is implicated as being causative in the pathogenesis of Parkinson’s disease, multiple system atrophy, and dementia with Lewy bodies. Despite several therapies that improve symptoms in these disorders, none slow disease progression. Recently, a novel“molecular tweezer”(MT) termed CLR01 (see structure) has been described as a potent inhibitor of assembly and toxicity of multiple amyloidogenic proteins....


"This is the first demonstration that molecular tweezers work in a mammalian animal model," said Gal Bitan, an associate professor of neurology at UCLA and the senior author of the study. "Importantly, no signs of toxicity were observed in the treated mice. The efficacy and toxicity results support the mechanism of this molecular tweezer and suggest these are promising compounds for developing disease-modifying therapies for Alzheimer's disease, Parkinson's and other disorders."

Molecular tweezers are complex molecular compounds capable of binding to other proteins. Shaped like the letter "C," these compounds wrap around chains of lysine, a basic amino acid that is a constituent of most proteins. Bitan and his colleagues, including Aida Attar, first author of the study and a graduate student in Bitan's lab, have been working with a particular molecular tweezer called CLR01.
In collaboration with scientists at the Università Cattolica in Rome, the researchers, working first in cell cultures, found that CLR01 effectively inhibited a process known as synaptotoxicity, in which clumps of toxic amyloid damage or destroy a neuron's synapses.
Even though synapses in transgenic mice with Alzheimer's may shut down and the mice may lose their memory, upon treatment, they form new synapses and regain their learning and memory abilities.