Inhibition of Ache: Structure-Activity Relationship Among Conformational Transition of Trp84 and Bimolecular Rate Constant

Abstract In this study the authors attempt to correlate kinetic constants for carbamylation of AChE, by a series of carbamate inhibitors, with the conformational positioning of Trp84 in transition state complexes of the same carbamates with Torpedo AChE, as obtained by computerized molecular modelli...

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Bibliographic Details
Published in:Journal of enzyme inhibition 2000, Vol.15 (6), p.547-556
Main Authors: Bertonati, C., Marta, M., Patamia, M., Colella, A., Pomponi, M.
Format: Article
Language:English
Subjects:
Acetylcholinesterase catalysis
Alzheimer's disease
Bimolecular rate constants
Cholinesterase inhibition
Conformations
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Summary:Abstract In this study the authors attempt to correlate kinetic constants for carbamylation of AChE, by a series of carbamate inhibitors, with the conformational positioning of Trp84 in transition state complexes of the same carbamates with Torpedo AChE, as obtained by computerized molecular modelling. They present evidence for changes in the distance of the carbamates from the center of the indole ring which can be correlated with the bimolecular rate constants for inhibition. As a result the greater the distance from Trp84, the smaller the bimolecular inhibition constant value, k1 (= k2/Ka), becomes. In conclusion, the value of the biinolecular rate constant for selected AChE inhibitors (structural changes that have been hypothesised or natural alkaloids of unknown activity) which possess similar size and rigidity, can be obtained. Under these conditions energy minimization alone seems to be sufficient even to accurately predict protein-substrate interactions that actually occur. Modelling studies also suggest that conformational re-orientation of Trp84 in the transition state could produce an overall movement of the Cys67-Cys94 loop.
ISSN:1475-6366
8755-5093
1475-6374
1029-2462
DOI:10.3109/14756360009040709