alpha,alpha-Difluoromethyl ketones (DFMKs) have emerged as currently investigated agents benefiting from the merging of chemico-physical features conferred by the constitutive elements (-CHF2 and carbonyl moietites). With a view to biological applications, the additional incorporation of heterocycles is a desirable property enabling the tuning of critical factors encompassing the pharmaco-dynamic and kinetic profiles. The underexplored assembling of alpha,alpha-difluoromethyl-heteroaromatic ketones is herein implemented via a conceptually intuitive Weinreb amide acylative transfer of a putative difluoromethyl-carbanion. To make the strategy productive, we adopted the commercially available TMSCHF2 pronucleophile - characterized by robust chemical stability and manipulability (bp 65 degrees C) - which upon Lewis-base mediated activation delivers the competent CHF2-nucleophile. The synthetic protocol was carried out on pyrazole- and isoxazole-based scaffolds, and a panel of heteroaryl-DFMKs was consequently developed as potential COX-inhibitors. In this sense, the bioisosterism deducted through docking studies between the widely expressed carboxylic group (in several clinically used COX inhibitors) and the -COCHF2 motif introduced herein supports this rationale. To confirm the docking results, all compounds were tested against both COX-1 and COX-2 enzyme isoforms showing activity in the micromolar range and a good selectivity index (SI). They were also evaluated for their biocompatibility using NIH/3T3 cells to which they did not show any significant toxicity.

Synthesis, computational investigation and biological evaluation of α,α-difluoromethyl ketones embodying pyrazole and isoxazole nuclei as COX inhibitors

Ielo, Laura;Pace, Vittorio
;
2022-01-01

Abstract

alpha,alpha-Difluoromethyl ketones (DFMKs) have emerged as currently investigated agents benefiting from the merging of chemico-physical features conferred by the constitutive elements (-CHF2 and carbonyl moietites). With a view to biological applications, the additional incorporation of heterocycles is a desirable property enabling the tuning of critical factors encompassing the pharmaco-dynamic and kinetic profiles. The underexplored assembling of alpha,alpha-difluoromethyl-heteroaromatic ketones is herein implemented via a conceptually intuitive Weinreb amide acylative transfer of a putative difluoromethyl-carbanion. To make the strategy productive, we adopted the commercially available TMSCHF2 pronucleophile - characterized by robust chemical stability and manipulability (bp 65 degrees C) - which upon Lewis-base mediated activation delivers the competent CHF2-nucleophile. The synthetic protocol was carried out on pyrazole- and isoxazole-based scaffolds, and a panel of heteroaryl-DFMKs was consequently developed as potential COX-inhibitors. In this sense, the bioisosterism deducted through docking studies between the widely expressed carboxylic group (in several clinically used COX inhibitors) and the -COCHF2 motif introduced herein supports this rationale. To confirm the docking results, all compounds were tested against both COX-1 and COX-2 enzyme isoforms showing activity in the micromolar range and a good selectivity index (SI). They were also evaluated for their biocompatibility using NIH/3T3 cells to which they did not show any significant toxicity.
2022
Inglese
Esperti anonimi
20
42
8293
8304
12
no
5 – prodotto non soggetto al Regolamento (monografia o edizione critica NON finanziata con fondi pubblici, ex Art. 4.1)
262
7
Citarella, Andrea; Ielo, Laura; Stagno, Claudio; Cristani, Mariateresa; Muscarà, Claudia; Pace, Vittorio; Micale, Nicola
info:eu-repo/semantics/article
none
03-CONTRIBUTO IN RIVISTA::03A-Articolo su Rivista
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/2318/1886103
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