Abstract
The study of human protoporphyrinogen oxidase (hPPO) inhibition can contribute significantly to a better understanding of some pathogeneses (e.g., porphyria, herbicide exposure) and the development of anticancer agents. Therefore, we prepared new potential inhibitors with Schiff base structural motifs (2-hydroxybenzaldehyde-based Schiff bases 9–13 and chromanone derivatives 17–19) as structurally relevant to PPO herbicides. The inhibitory activities (represented by the half maximal inhibitory concentration (IC50) values) and enzymatic interactions (represented by the hPPO melting temperatures) of these synthetic compounds and commercial PPO herbicides used against hPPO were studied by a protoporphyrin IX fluorescence assay. In the case of PPO herbicides, significant hPPO inhibition and changes in melting temperature were observed for oxyfluorten, oxadiazon, lactofen, butafenacil, saflufenacil, oxadiargyl, chlornitrofen, and especially fomesafen. Nevertheless, the prepared compounds did not display significant inhibitory activity or changes in the hPPO melting temperature. However, a designed model of hPPO inhibitors based on the determined IC50 values and a docking study (by using AutoDock) found important parts of the herbicide structural motif for hPPO inhibition. This model could be used to better predict PPO herbicidal toxicity and improve the design of synthetic inhibitors.
Highlights
Porphyrias are very rare diseases associated with abnormal haem production that lead to the accumulation of porphyrins or their precursors within the liver and other organs [1,2]
Two sets of target compounds were prepared by a three-step synthesis
Based on the obtained results, the combination of nitrophenyl and trifluoromethylbenzyl represents the structural motif of a potent inhibitor of human protoporphyrinogen IX oxidase (hPPO)
Summary
This enzyme catalyzes the oxygen-dependent sixelectron oxidation of protoporphyrinogen IX to protoporphyrin IX [3,4,5]. Patients display abnormal skin reactions to sunlight due to reactive singlet oxygen formation and oxidative stress following photooxidation, mainly in the liver [6,7]. Patients with variegate porphyria can have a significantly higher risk of liver cancer [6,8]. This phenomenon can be caused by various toxic agents, such as some herbicides [9,10].
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