New drug compound that serves as a potential therapy for Alzheimer's disease have been discovered by scientists.
Researchers at the University of California, San Diego, the Medical University of South Carolina and American Life Science Pharmaceuticals of San Diego have demonstrated that oral administration of a cysteine protease inhibitor, E64d, not only reduces the build-up of B-amyloid (AB) in the brains of animal models for Alzheimer's disease, but also results in a substantial improvement in memory deficit.
"The finding is especially exciting because E64d has previously been shown safe for use in humans, so we believe the compound has strong potential as a new therapy for Alzheimer's disease," said lead investigator Vivian Y. H. Hook from the UCSD School of Medicine.
Increased AB levels in the brain are associated with the development of memory loss and amyloid plaque, the hallmark of Alzheimer's disease.
AB peptides are "cut" out from a larger protein called the amyloid precursor protein (APP) by an enzymatic "scissor" called B-secretase, and aggregate to form plaques in the brain regions responsible for memory.
E64d reduces AB by inhibiting the B-secretase "scissors" from "cutting" the APP chain into smaller toxic AB peptides.
But in this study, the researchers found that the compound actually increases the activity of a protease called BACE1 which, to date, has been regarded as the primary B-secretase. Instead, E64d appears to lower brain AB by inhibiting the B-secretase activity of another protease, Cathepsin B.
"The study indicates Cathepsin B as a new target for therapeutic inhibition of AB production and subsequent improved memory function," said Hook.
The finding has been published as an early online version and is scheduled for publication in the September 6 issue of the Journal of Alzheimer's Disease.