Issue 5, 2022

Mechanistic studies of visible light-induced CO release from a 3-hydroxybenzo[g]quinolone

Abstract

Organic compounds that can be triggered using light to release CO in biological environments are of significant current interest to probe the role of CO in biology and as potential therapeutics. We recently reported that a 3-hydroxybenzo[g]quinolone (5) can be used as a CO delivery molecule to produce anticancer and potent anti-inflammatory effects. Herein we report mechanistic studies of the visible light-induced CO release reaction of this compound. In wet CH3CN under aerobic conditions, 5 releases 0.90(2) equivalents of CO upon illumination with visible light (419 nm) to give a single depside product. Performing the same reaction under an 18O2 atmosphere results in quantitative incorporation of two labeled oxygen atoms in the depside product. Monitoring via 1H NMR and UV-vis during the illumination of 5 in CH3CN using 419 nm light revealed the substoichiometric formation of a diketone (6) in the reaction mixture. H2O2 formation was detected in the same reaction mixtures. DFT studies indicate that upon light absorption an efficient pathway exists for the formation of a triplet excited state species (5b) that can undergo reaction with 3O2 resulting in CO release. DFT investigations also provide insight into diketone (6) and H2O2 formation and subsequent reactivity. The presence of water and exposure to visible light play an important role in lowering activation barriers in the reaction between 6 and H2O2 to give CO. Overall, two reaction pathways have been identified for CO release from a 3-hydroxybenzo[g]quinolone.

Graphical abstract: Mechanistic studies of visible light-induced CO release from a 3-hydroxybenzo[g]quinolone

Supplementary files

Article information

Article type
Paper
Submitted
11 Okt 2021
Accepted
27 Dez 2021
First published
20 Jan 2022
This article is Open Access
Creative Commons BY-NC license

RSC Adv., 2022,12, 2751-2758

Mechanistic studies of visible light-induced CO release from a 3-hydroxybenzo[g]quinolone

M. Popova, T. Borowski, J. G. D. Elsberg, C. T. Dederich and L. M. Berreau, RSC Adv., 2022, 12, 2751 DOI: 10.1039/D1RA07527F

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