Issue 23, 2024

Design of potent tyrosinase inhibiting N-arylated-4-yl-benzamides bearing 2-aminothiazole-triazole bi-heterocycles: mechanistic insight through enzyme inhibition, kinetics and computational studies

Abstract

By using a convergent methodology, a unique series of N-arylated 4-yl-benzamides containing a bi-heterocyclic thiazole-triazole core was synthesized and the structures of these hybrid molecules, 9a–k, were corroborated through spectral analyses. The in vitro studies of these multi-functional molecules demonstrated their potent mushroom tyrosinase inhibition relative to the standard used. The kinetics mechanism was exposed by lineweaver–burk plots which revealed that, 9c, inhibited mushroom tyrosinase non-competitively by forming an enzyme–inhibitor complex. The inhibition constant Ki calculated from Dixon plots for this compound was 0.016 μM. The computational study was also consistent with the experimental results and these molecules disclosed good results of all scoring functions and interactions, which suggested a good binding to mushroom tyrosinase. So, it was predicted from the inferred results that these molecules might be considered as promising medicinal scaffolds for the diseases associated with the over-expression of this enzyme.

Graphical abstract: Design of potent tyrosinase inhibiting N-arylated-4-yl-benzamides bearing 2-aminothiazole-triazole bi-heterocycles: mechanistic insight through enzyme inhibition, kinetics and computational studies

Supplementary files

Article information

Article type
Paper
Submitted
11 Feb 2024
Accepted
06 May 2024
First published
21 May 2024
This article is Open Access
Creative Commons BY license

RSC Adv., 2024,14, 16546-16559

Design of potent tyrosinase inhibiting N-arylated-4-yl-benzamides bearing 2-aminothiazole-triazole bi-heterocycles: mechanistic insight through enzyme inhibition, kinetics and computational studies

F. M. Khan, M. A. Abbasi, A. Rehman, S. Z. Siddiqui, A. R. Sadiq Butt, H. Raza, M. Hassan, S. A. Ali Shah, M. Shahid and S. J. Kim, RSC Adv., 2024, 14, 16546 DOI: 10.1039/D4RA01063A

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