Abstract
Alzheimer's Disease (AD) once considered a rare disorder emerges as a major health concern in recent times. The disease pathogenesis is very complex and yet to be understood completely. However, “Amyloid Cascade” is the central event in disease pathogenesis. Several proteins of the amyloid cascade are currently being considered as potential targets for AD therapeutics discovery. Many potential compounds are in clinical trials, but till now there is no known cure for the disease. Recent years have witnessed remarkable research interest in the search of novel concepts in drug designing for AD. Multi-targeted ligand design is a paradigm shift in conventional drug discovery. In this process rather than designing ligands targeting a single receptor, novel ligands have been designed/ synthesized that can simultaneously target many pathways involved in disease pathogenesis. Here, recent developments in computational drug designing protocols to identify multi-targeted ligand for AD have been discussed. Therapeutic potential of different multi-potent compounds also has been discussed briefly. Prime emphasis has been given to multi-potent ligand from natural resources. Polyphenols are an interesting group of compounds which show efficacy against a wide range of disease and have the property to exhibit multi-potency. Several groups attempted to identify novel multi-potent phytochemicals for AD therapy. Multi-potency of several polyphenols or compounds synthesized using the poly-phenolic scaffolds have been briefly discussed here. However, the multi-targeted drug designing for AD is still in early stages, more advancement in drug designing method/algorithm developments is urgently required to discover more efficient compounds for AD therapeutics.
Keywords: Alzheimer's disease, Multi-target drug designing, Phytochemicals, Structure and ligand based drug design, Amyloid cascade, BACE1, Aβ aggregation, Antioxidant.
Current Topics in Medicinal Chemistry
Title:Multi-potent Natural Scaffolds Targeting Amyloid Cascade: In Search of Alzheimer's Disease Therapeutics
Volume: 17 Issue: 31
Author(s): Sandipan Chakraborty*
Affiliation:
- Department of Physical Chemistry, Indian Association for the Cultivation of Science, Kolkata 700032,India
Keywords: Alzheimer's disease, Multi-target drug designing, Phytochemicals, Structure and ligand based drug design, Amyloid cascade, BACE1, Aβ aggregation, Antioxidant.
Abstract: Alzheimer's Disease (AD) once considered a rare disorder emerges as a major health concern in recent times. The disease pathogenesis is very complex and yet to be understood completely. However, “Amyloid Cascade” is the central event in disease pathogenesis. Several proteins of the amyloid cascade are currently being considered as potential targets for AD therapeutics discovery. Many potential compounds are in clinical trials, but till now there is no known cure for the disease. Recent years have witnessed remarkable research interest in the search of novel concepts in drug designing for AD. Multi-targeted ligand design is a paradigm shift in conventional drug discovery. In this process rather than designing ligands targeting a single receptor, novel ligands have been designed/ synthesized that can simultaneously target many pathways involved in disease pathogenesis. Here, recent developments in computational drug designing protocols to identify multi-targeted ligand for AD have been discussed. Therapeutic potential of different multi-potent compounds also has been discussed briefly. Prime emphasis has been given to multi-potent ligand from natural resources. Polyphenols are an interesting group of compounds which show efficacy against a wide range of disease and have the property to exhibit multi-potency. Several groups attempted to identify novel multi-potent phytochemicals for AD therapy. Multi-potency of several polyphenols or compounds synthesized using the poly-phenolic scaffolds have been briefly discussed here. However, the multi-targeted drug designing for AD is still in early stages, more advancement in drug designing method/algorithm developments is urgently required to discover more efficient compounds for AD therapeutics.
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Cite this article as:
Chakraborty Sandipan*, Multi-potent Natural Scaffolds Targeting Amyloid Cascade: In Search of Alzheimer's Disease Therapeutics, Current Topics in Medicinal Chemistry 2017; 17 (31) . https://dx.doi.org/10.2174/1568026618666180116122921
DOI https://dx.doi.org/10.2174/1568026618666180116122921 |
Print ISSN 1568-0266 |
Publisher Name Bentham Science Publisher |
Online ISSN 1873-4294 |
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