Abstract
Aim and Objective: Specific inhibitors of monoamine oxidase (MAO)-B are considered useful therapeutic agents in targeting neurological disorders like Alzheimer's and Parkinson's diseases. Due to the academic challenge of designing new hMAO-B inhibitors and the possibility of discovering compounds with improved properties compared to existing MAO-B inhibitors, a number of research groups are searching for new classes of chemical compounds that may act as selective hMAO-B inhibitors.
Materials and Methods: Among these, chromone (4H-1-benzopyran-4-one) derivatives have recently emerged as a chemotype with specific and high potency MAO-B inhibition. Chromones are structurally related to a series of coumarins and chalcones, which are well-known inhibitors of MAO-B.
Results: The experimental evidence has demonstrated that most of the chromone skeleton derived compounds have shown potent, reversible and selective type of hMAO-B inhibitors.
Conclusion: The current review focuses on the MAO-B inhibitory properties of various synthetically derived chromones with specific emphasis on the structure-activity relationships and molecular recognition of MAO-B inhibition by this class. This review covers the recent updates present in the literature and will certainly provide a greater insight for the design and development of new class of potent chromone based selective MAO-B inhibitors.
Keywords: Monoamine oxidase, chromone, coumarin, chalcone, reversible inhibition, Parkinson's disease.
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