Abstract
Neurophysiological indicators of Alzheimer’s disease include the presence of aggregated amyloid-beta (Aβ) peptide plaques and low levels of the neurotransmitter, acetylcholine, resulting in cognitive impairment. Acetylcholinesterase has been implicated in not only the aggregation of extracellular Aβ peptides through the enzyme’s peripheral anionic site, but also the hydrolysis of acetylcholine at its catalytic active site. Two components in a methanolic extract of black walnuts (Juglians nigra), gallic and ellagic acids, were found to prevent aggregation of Aβ peptides in the presence of acetylcholinesterase and to disaggregate previously formed oligomers. In addition, both compounds inhibited acetylcholinesterase activity, thus retaining higher acetylcholine concentrations. Analysis of phenolic structures related to gallic acid indicated that 1,3,5-trisubstituted phenolic rings conferred these inhibitory effects on acetylcholinesterase, and thus may provide a structural model on which to design dual inhibitors for both acetylcholinesterase catalytic activity and Aβ aggregation and disaggregation.
Keywords: Acetylcholinesterase, aggregation, amyloid-beta, phenol, dual inhibitors, Alzheimer’s disease.
Related Books
.jpeg)
1st Biotechnology World Congress - 2012
Decolorization by Thanatephorus Cucumeris Dec 1
Industrial Applications of Soil Microbes
The Future of Agriculture: IoT, AI and Blockchain Technology for Sustainable Farming
Handbook of Integrated Weed Management for Major Field Crops
Practical Biochemistry
Anticancer Drugs Sourced from Marine Life
Opportunities for Biotechnology Research and Entrepreneurship
Diseases of Ornamental, Aromatic and Medicinal Plants
Diabetes and Breast Cancer: An Analysis of Signaling Pathways
19