2020
DOI: 10.1016/j.freeradbiomed.2020.07.025
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The plant-derived naphthoquinone lapachol causes an oxidative stress response in Staphylococcus aureus

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Cited by 35 publications
(30 citation statements)
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“…Nevertheless, multiplication in recent years of studies by -omics approaches opens the possibility to identify new mechanisms of action or to identify several mechanisms of action acting simultaneously (which is generally the case at least for plant extracts and even for some pure plant phenolics). Transcriptomics ( Alvarado-Martinez et al, 2020 ; Linzner et al, 2020 ; Reverón et al, 2020 ), proteomics ( Ozdemir and Soyer, 2020 ) and metabolomics ( Wu et al, 2020 ) approaches recently contributed to the identification of targets of antimicrobial action of some plant phenolics or phenolic-rich plant extracts. Transcriptomic ( Reverón et al, 2020 ) and metabolomic ( Wu et al, 2020 ) analyses allow to identify which metabolic pathways are affected by plant phenolics.…”
Section: Diversity Of Antimicrobial Mechanism Of Action Of Plant Phenolicsmentioning
confidence: 99%
See 1 more Smart Citation
“…Nevertheless, multiplication in recent years of studies by -omics approaches opens the possibility to identify new mechanisms of action or to identify several mechanisms of action acting simultaneously (which is generally the case at least for plant extracts and even for some pure plant phenolics). Transcriptomics ( Alvarado-Martinez et al, 2020 ; Linzner et al, 2020 ; Reverón et al, 2020 ), proteomics ( Ozdemir and Soyer, 2020 ) and metabolomics ( Wu et al, 2020 ) approaches recently contributed to the identification of targets of antimicrobial action of some plant phenolics or phenolic-rich plant extracts. Transcriptomic ( Reverón et al, 2020 ) and metabolomic ( Wu et al, 2020 ) analyses allow to identify which metabolic pathways are affected by plant phenolics.…”
Section: Diversity Of Antimicrobial Mechanism Of Action Of Plant Phenolicsmentioning
confidence: 99%
“…However, despite their structural diversity, no clear general rule regarding the antimicrobial activity spectrum or the mechanisms of action of a class of plant phenolics could be established to date. Nevertheless, the interested reader can refer to several reviews or articles focused on the antimicrobial activity of each phenolic class: phenolic acids ( Wen et al, 2003 ; Cueva et al, 2010 ; Borges et al, 2013 ; Pernin et al, 2019 ), flavonoids ( Cushnie and Lamb, 2005 ), tannins ( Scalbert, 1991 ), stilbenoids ( Plumed-Ferrer et al, 2013 ), quinones ( Linzner et al, 2020 ), and coumarins ( Duggirala et al, 2014 ). Several authors also presented reviews on phenolic-rich plant extracts or plant phenolics acting on one ( L. monocytogenes , Zamuz et al, 2021 ) or several ( Ullah et al, 2020 ) foodborne pathogenic microorganisms.…”
Section: Diversity Of Antimicrobial Mechanism Of Action Of Plant Phenolicsmentioning
confidence: 99%
“…Um total de 14 atividades potenciais diferentes já foram descritas na literatura sobre esse gênero e a maioria dos artigos atribui esses potenciais a três principais compostos: Lapachol, β-Lapachona e α-Lapachona. Esses compostos são derivados das naftoquinonas que são metabólitos secundários das plantas e dividem-se em 1,2-e 1,4-naftoquinonas e, em função da presença de anel heterocíclico oxigenado, ainda podem ser classificadas como prenilnaftoquinonas, furanonaftoquinonas, difuronaftoquinonas e piranonaftoquinonas, apresentando diversidade em relação a sua estrutura dentro do gênero Tabebuia (Linzner et al, 2020).…”
Section: A) B)unclassified
“…The natural naphthoquinone lapachol induced oxidative stress (ROS formation) against Staphylococcus aureus, a human pathogen rapidly acquiring multidrug resistance. The level of oxidation by lapachol was determined using S. aureus expressing the biosensor plasmids (Linzner et al, 2020), where the biosensor fluorescence emission was measured at 510 nm; a similar biosensor was further applied against a mycoredoxinnull mutant of Rhodococcus equi (mammalian pathogen) to screen ROS-generating antibiotics exerting drug synergism (Mourenza et al, 2020). Meanwhile, the use of photosensitizers was investigated in photodynamic therapy against the yeast pathogen Candida albicans, where the production of ROS was determined using an electron paramagnetic resonance spectrometer (Kanpittaya et al, 2021).…”
Section: Redox-active Molecules As Antimicrobials: Mechanisms and Resistancementioning
confidence: 99%