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Title: | Semisynthesis and biological evaluation of prenylated resveratrol derivatives as multi-targeted agents for Alzheimer’s disease |
Authors: | Puksasook T. Kimura S. Tadtong S. Jiaranaikulwanitch J. Pratuangdejkul J. Kitphati W. Suwanborirux K. Saito N. Nukoolkarn V. |
Keywords: | 3 ethoxy 4',5 hydroxystilbene 3 methoxy 4',5 hydroxystilbene 3,4' diethoxy 5 hydroxystilbene 3,4' dimethoxy 5 hydroxystilbene 3,5,4' tri(methoxymethoxy) 4 prenylstilbene 3,5,4' tri(methoxymethoxy)stilbene 3,5,4' triethoxystilbene 3,5,4' trihydroxy 2 geranylstilbene 3,5,4' trihydroxy 2 prenylstilbene 3,5,4' trihydroxy 2,6 geranylstilbene 3,5,4' trihydroxy 2,6 prenylstilbene 3,5,4' trihydroxy 4 geranylstilbene 3,5,4' trihydroxy 4 prenylstilbene 3,5,4' trimethoxystilbene 4' ethoxy 3,5 dihydroxystilbene 4' methoxy 3,5 dihydroxystilbene ascorbic acid beta secretase beta secretase inhibitor calbiochem curcumin quercetin resveratrol unclassified drug amyloid beta protein antioxidant neuroprotective agent plant extract resveratrol secretase stilbene derivative Alzheimer disease animal cell antioxidant activity Article cell viability cell viability assay controlled study drug structure drug synthesis embryo IC50 molecular docking mouse nerve cell nerve cell differentiation neurite neuroprotection nonhuman oxidative stress P19 cell line Alzheimer disease antagonists and inhibitors cell culture technique drug effects human metabolism prenylation Alzheimer Disease Amyloid beta-Peptides Amyloid Precursor Protein Secretases Antioxidants Cell Culture Techniques Humans Neurites Neurons Neuroprotective Agents Oxidative Stress Plant Extracts Prenylation Stilbenes |
Issue Date: | 2017 |
Abstract: | Abstract: A series of prenylated resveratrol derivatives were designed, semisynthesized and biologically evaluated for inhibition of β-secretase (BACE1) and amyloid-β (Aβ) aggregation as well as free radical scavenging and neuroprotective and neuritogenic activities, as potential novel multifunctional agents against Alzheimer’s disease (AD). The results showed that compound 4b exhibited good anti-Aβ aggregation (IC50 = 4.78 µM) and antioxidant activity (IC50 = 41.22 µM) and moderate anti-BACE1 inhibitory activity (23.70% at 50 µM), and could be a lead compound. Moreover, this compound showed no neurotoxicity along with a greater ability to inhibit oxidative stress on P19-derived neuronal cells (50.59% cell viability at 1 nM). The neuritogenic activity presented more branching numbers (9.33) and longer neurites (109.74 µm) than the control, and was comparable to the quercetin positive control. Taken together, these results suggest compound 4b had the greatest multifunctional activities and might be a very promising lead compound for the further development of drugs for AD. © 2017, The Japanese Society of Pharmacognosy and Springer Japan. |
URI: | https://ir.swu.ac.th/jspui/handle/123456789/13027 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85020739007&doi=10.1007%2fs11418-017-1097-2&partnerID=40&md5=8a2e6fd289b5bed462c517bd1053551c |
ISSN: | 13403443 |
Appears in Collections: | Scopus 1983-2021 |
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