Attacking the Mechanisms of Alzheimer's

The research here is illustrative of the improvement of present biotechnology over the past decades: precisely designed interference in specific, understood biochemical mechanisms of disease. "In 2000, Tang identified beta-secretase, a key enzyme in the progression of Alzheimer's that triggers the formation of amyloid plaques in the brain. Various stages in plaque formation produce toxic proteins that harm the brain, causing damage that eventually leads to dementia. Later that year, Ghosh built a molecule that binds to this key enzyme and inhibits its activity, a beta-secretase inhibitor. ... We created a molecule that fits with a key piece of the Alzheimer's disease puzzle. When the treatment molecule binds to the enzyme, it changes the shape of that puzzle piece so that it no longer fits in its original spot. This halts the chain reaction that leads to the devastating symptoms of Alzheimer's disease ... The molecule is both highly potent and highly selective, meaning it does not appear to affect other enzymes important to brain function or cause harmful side effects. ... The company expects to begin generating human clinical data by the end of 2007 and to begin phase II studies in Alzheimer's patients in 2008."

Link: http://news.uns.purdue.edu/x/2007a/070622GhoshTrials.html