TY - JOUR
T1 - Inhibiting amyloid β-protein assembly
T2 - Size-activity relationships among grape seed-derived polyphenols
AU - Hayden, Eric Y.
AU - Yamin, Ghiam
AU - Beroukhim, Shiela
AU - Chen, Benson
AU - Kibalchenko, Mikhail
AU - Jiang, Lin
AU - Ho, Lap
AU - Wang, Jun
AU - Pasinetti, Giulio M.
AU - Teplow, David B.
N1 - Publisher Copyright:
© 2015 International Society for Neurochemistry.
PY - 2015/10/1
Y1 - 2015/10/1
N2 - Epidemiological evidence that red wine consumption negatively correlates with risk of Alzheimer's disease has led to experimental studies demonstrating that grape seed extracts inhibit the aggregation and oligomerization of Aβ in vitro and ameliorate neuropathology and behavioral deficits in a mouse model of Alzheimer's disease. The active agent in the extracts is a mixed population of polyphenolic compounds. To evaluate the relative potency of each of these compounds, HPLC was used to fractionate the mixture into monomers, dimers, and oligomers. Each fraction was analyzed for its effect on Aβ conformational dynamics (circular dichroism), oligomerization (zero-length photochemical cross-linking), aggregation kinetics (Thioflavin T fluorescence), and morphology (electron microscopy). The relative activities of each fraction were determined on the basis of molar concentration (mol/L) or mass concentration (g/L). When molar concentration, the number concentration of each polyphenolic compound, was considered, the oligomer fraction was the most potent inhibitor of Aβ oligomerization and aggregation. However, when mass concentration, the number concentration of phenolic groups, was considered, monomers were the most potent inhibitors. To understand these ostensibly contradictory results, a model of polyphenol:Aβ complexation was developed. This model, which was found to be consistent with published X-ray crystallographic studies, offers an explanation for the effects of functional group polyvalency on inhibitor activity. Our data emphasize the importance of an in-depth understanding of the mechanism(s) underlying 'concentration dependence' in inhibitor systems involving polyfunctional agents.
AB - Epidemiological evidence that red wine consumption negatively correlates with risk of Alzheimer's disease has led to experimental studies demonstrating that grape seed extracts inhibit the aggregation and oligomerization of Aβ in vitro and ameliorate neuropathology and behavioral deficits in a mouse model of Alzheimer's disease. The active agent in the extracts is a mixed population of polyphenolic compounds. To evaluate the relative potency of each of these compounds, HPLC was used to fractionate the mixture into monomers, dimers, and oligomers. Each fraction was analyzed for its effect on Aβ conformational dynamics (circular dichroism), oligomerization (zero-length photochemical cross-linking), aggregation kinetics (Thioflavin T fluorescence), and morphology (electron microscopy). The relative activities of each fraction were determined on the basis of molar concentration (mol/L) or mass concentration (g/L). When molar concentration, the number concentration of each polyphenolic compound, was considered, the oligomer fraction was the most potent inhibitor of Aβ oligomerization and aggregation. However, when mass concentration, the number concentration of phenolic groups, was considered, monomers were the most potent inhibitors. To understand these ostensibly contradictory results, a model of polyphenol:Aβ complexation was developed. This model, which was found to be consistent with published X-ray crystallographic studies, offers an explanation for the effects of functional group polyvalency on inhibitor activity. Our data emphasize the importance of an in-depth understanding of the mechanism(s) underlying 'concentration dependence' in inhibitor systems involving polyfunctional agents.
KW - Alzheimer's disease
KW - amyloid β-protein (Aβ)
KW - grape seeds
KW - inhibitors
KW - oligomers
KW - polyphenols
UR - http://www.scopus.com/inward/record.url?scp=84943587930&partnerID=8YFLogxK
U2 - 10.1111/jnc.13270
DO - 10.1111/jnc.13270
M3 - Article
C2 - 26228682
AN - SCOPUS:84943587930
SN - 0022-3042
VL - 135
SP - 416
EP - 430
JO - Journal of Neurochemistry
JF - Journal of Neurochemistry
IS - 2
ER -