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Current Drug Discovery Technologies

Editor-in-Chief

ISSN (Print): 1570-1638
ISSN (Online): 1875-6220

Review Article

Thiazole Containing Heterocycles with CNS Activity

Author(s): Shikha Agarwal*, Priyanka Kalal, Divyani Gandhi and Prakash Prajapat

Volume 15, Issue 3, 2018

Page: [178 - 195] Pages: 18

DOI: 10.2174/1570163814666170724170152

Price: $65

Abstract

Background: Thiazoles are promising scaffolds in the area of medicinal and pharmaceutical chemistry and have accounted to show different pharmacophoric properties. For the last years, thiazole derivatives have focused too much attention to develop different new CNS active agents. It has been broadly used to generate diverse therapeutic agents against various CNS targets. Histamine H3 receptors are seriously involved in the pathophysiology of numerous disorders of the central nervous system.

Method: The literature survey has been done using different database from peerreviewed journals. The quality of repossessed papers was evaluated using standard tools. The details of important papers were described to focus on the potency of thiazole containing heterocycles with CNS activity.

Result: Eighty nine papers were included in the review indicating thiazole containing heterocycles with CNS activity. (1) to (30) papers included different thiazole derivatives impregnated withCNS activity. Different CNS agents have been shown in references (37) to (56). The remaining papers have been searched for anticonvulsant agents (57) to (78) and other miscellaneous activities from (79) to (89).

Conclusion: A detailed investigation has been carried out on thiazoles and its derivatives to judge its efficacy to overcome several CNS disorders. This article covers the recent updates of thiazole and its derivative with CNS activity already present in literature and will definitely provide a better platform for the production and development of potent thiazole based CNS vigorous drugs in near future.

Keywords: Thiazole, adenosine receptors, dopamine receptors, anti-Alzheimer agents, anticonvulsants, heterocycles.

Graphical Abstract

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