Some current therapies being investigated for Alzheimer's disease may cause further neural degeneration and cell death, according to a breakthrough discovery by UC San Diego researchers. By combining three dimensional computer simulations with high resolution atomic force microscopy membrane protein and cell imaging, electrical recording and various cellular assays, UCSD nano-biophysicist Ratnesh Lal and his colleagues investigated the structure and function of truncated peptides, known as nonamyloidgenic peptides, formed by some Alzheimer's drug candidates. The researchers found that the nonamyloidgenic peptides formed active ion channels that caused the cells to take in very high levels of calcium ions, which damaged synaptic efficiency and eventually killed neurons, neurons that are linked to memory loss in human brain.
Lal and his colleagues are now working on a 3D structural model of the ion channel using their data to identify the domains (or sites) of the channel for designing effective therapeutics. Lal said the use of advanced nanotechnology and biology combined with a multi disciplinary approach, aided in the researchers' breakthrough discovery.
"Without advances in technology and a multi disciplinary approach this kind of complex research would not move forward," said Lal, a trained physicist and neurobiologist who joined the UCSD faculty in January 2010 from the University of Chicago. ""My goal is to provide practical solutions for effective human health management using advances in nanoscience and technology with a multidisciplinary and multi-scale (nano-to-translational) integrated approach," he added. ###
Contact: Andrea Siedsma asiedsma@soe.ucsd.edu 858-822-0899 University of California - San Diego
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