How Alzheimer’s plaques lead to loss of nitric oxide in brain
January 11th, 2011 - 1:45 pm ICT by ANIWashington, Jan 11 (ANI): The deadly plaques of Alzheimer’s disease interact with certain cellular proteins to inhibit normal signals that maintain blood flow to the brain, a researcher at the University of Pittsburgh School of Medicine has discovered.
Levels of nitric oxide (NO) - a signaling molecule that helps regulate blood flow, immune and neurological processes - are known to be low in the brains of people who have Alzheimer’s disease, but the reason for that hasn’t been clear, said study co-author Jeffrey S. Isenberg, associate professor, Division of Pulmonary, Allergy, and Critical Care Medicine, Pitt School of Medicine.
“Our research sheds light on how that loss of NO might happen, and reveals biochemical pathways that drug discoverers might be able to exploit to find new medicines for Alzheimer’s,” he said.
“There is evidence that suggests enhancing NO levels can protect neurons from degenerating and dying.”
The researchers, led by first author Thomas Miller and senior author David D. Roberts, both of the Laboratory of Pathology in NIH’s National Cancer Institute (NCI), found in mouse and human cell experiments that amyloid-beta, the main component of the plaques that accumulate on brain cells in Alzheimer’s, binds to a cell surface receptor called CD36, which causes decreased activity of the enzyme soluble guanylate cyclase to reduce NO signaling. But that inhibitory effect required the presence of and interaction with CD47, another cell surface protein, indicating that additional steps in the pathway remain to be identified.
“It’s possible that an agent that could block either CD36 or CD47 could slow the progress of neuronal degeneration in Alzheimer’s by protecting the production of NO in the brain,” Isenberg said.
“Importantly, we have already indentified therapeutic agents that can interrupt the inhibitory signal induced by these interactions to maximize NO production, signaling and sensitivity.”
The findings have been published in Public Library of Science One. (ANI)
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Tags: biochemical pathways, brain cells, cd36, cell experiments, cell surface protein, cell surface receptor, cellular proteins, critical care medicine, david d roberts, discoverers, inhibitory effect, national cancer institute, neurological processes, neuronal degeneration, new medicines, pitt school, soluble guanylate cyclase, therapeutic agents, thomas miller, university of pittsburgh school of medicine