March 8, 2012
New Drug Target Improves Memory In Mouse Model Of Alzheimer’s Disease
Researchers at the University of California, San Diego, the Medical University of South Carolina, the University of Cincinnati, and American Life Science Pharmaceuticals of San Diego have validated the protease cathepsin B (CatB) as a target for improving memory deficits and reducing the pathology of Alzheimer's disease (AD) in an animal model representative of most AD patients. The study has been published in the online edition of the Journal of Alzheimer's Disease.
According to investigator Vivian Y. H. Hook, PhD, professor of the UCSD Skaggs School of Pharmacy and Pharmaceutical Sciences and professor of neurosciences, pharmacology and medicine at the UCSD School of Medicine, the study is important because it could lead to new therapeutics that improve the memory deficits of AD.
Another protease, BACE1, has long been thought to be the secretase involved in AD pathology, because deleting that gene from animal models reduces brain A and plaque pathology. However, deleting the BACE1 gene was reported to make memory deficits worse in a transgenic model having WT β-secretase activity.
Hook and colleagues set off to find a WT β-secretase target, which improves memory deficits while reducing amyloid plaque pathology. In the current paper, the researchers show that CatB is such a target because deleting that gene in a transgenic mouse model having WT-secretase activity improves memory deficits and reduces amyloid plaque, which develop in this model, mimicking that found in AD. In contrast, deleting the BACE1 gene in that transgenic model had no effect on memory deficits or pathology.
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