Zekun Jin, Shijie Zhao, Haiyan Li, Qiuli Ouyang, Nengguo Tao
{"title":"大蒜(薤白)代谢物作为针对 PlcR 受体的蜡样芽孢杆菌法定量感应抑制剂的鉴定和验证:硅学和体外研究。","authors":"Zekun Jin, Shijie Zhao, Haiyan Li, Qiuli Ouyang, Nengguo Tao","doi":"10.1089/fpd.2024.0098","DOIUrl":null,"url":null,"abstract":"<p><p>This study aimed to investigate the influence of garlic metabolites on the quorum sensing (QS) of <i>Bacillus cereus</i>, a foodborne pathogen that controls its main virulence factor through QS. The QS signal receptor PlcR of <i>B. cereus</i> was targeted by molecular docking with 82 garlic metabolites to identify the most potent QS inhibitors. Five metabolites, quercetin, kaempferol, luteolin, flavone, and rutin, were selected for further evaluation of their impacts on the growth, toxin production, and virulence of <i>B. cereus in vitro</i>. The expression levels of key QS genes were also measured to verify their anti-QS ability. The results revealed that quercetin reduced enterotoxin production by <i>B. cereus</i> but did not affect the QS process at the transcriptional level; flavone and rutin in garlic interfered with the QS of <i>B. cereus</i> by competing with the autoinducing peptide (AIP) PapR<sub>7</sub> for the PlcR binding site, resulting in decreased enterotoxin secretion and hemolysis without altering the bacterial growth. Interestingly, luteolin and kaempferol in garlic acted as AIP analogs and bound to PlcR to stimulate the QS process and virulence. Furthermore, kaempferol, luteolin, flavone, and rutin had distinct or opposite interactions with PapR<sub>7</sub> at the Gln237 or Tyr275 residues of PlcR, which determined the suppression or enhancement of the QS process. The findings suggested that flavone and rutin were effective compounds to inhibit the QS process in garlic and could be used as alternative methods to control <i>B. cereus</i>.</p>","PeriodicalId":12333,"journal":{"name":"Foodborne pathogens and disease","volume":" ","pages":""},"PeriodicalIF":1.9000,"publicationDate":"2024-10-22","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Identification and Validation of Garlic (<i>Allium sativum</i>) Metabolites as Quorum Sensing Inhibitors of <i>Bacillus cereus</i> Targeting the PlcR Receptor: An <i>In Silico</i> and <i>In Vitro</i> Study.\",\"authors\":\"Zekun Jin, Shijie Zhao, Haiyan Li, Qiuli Ouyang, Nengguo Tao\",\"doi\":\"10.1089/fpd.2024.0098\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p><p>This study aimed to investigate the influence of garlic metabolites on the quorum sensing (QS) of <i>Bacillus cereus</i>, a foodborne pathogen that controls its main virulence factor through QS. The QS signal receptor PlcR of <i>B. cereus</i> was targeted by molecular docking with 82 garlic metabolites to identify the most potent QS inhibitors. Five metabolites, quercetin, kaempferol, luteolin, flavone, and rutin, were selected for further evaluation of their impacts on the growth, toxin production, and virulence of <i>B. cereus in vitro</i>. The expression levels of key QS genes were also measured to verify their anti-QS ability. The results revealed that quercetin reduced enterotoxin production by <i>B. cereus</i> but did not affect the QS process at the transcriptional level; flavone and rutin in garlic interfered with the QS of <i>B. cereus</i> by competing with the autoinducing peptide (AIP) PapR<sub>7</sub> for the PlcR binding site, resulting in decreased enterotoxin secretion and hemolysis without altering the bacterial growth. Interestingly, luteolin and kaempferol in garlic acted as AIP analogs and bound to PlcR to stimulate the QS process and virulence. Furthermore, kaempferol, luteolin, flavone, and rutin had distinct or opposite interactions with PapR<sub>7</sub> at the Gln237 or Tyr275 residues of PlcR, which determined the suppression or enhancement of the QS process. 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Identification and Validation of Garlic (Allium sativum) Metabolites as Quorum Sensing Inhibitors of Bacillus cereus Targeting the PlcR Receptor: An In Silico and In Vitro Study.
This study aimed to investigate the influence of garlic metabolites on the quorum sensing (QS) of Bacillus cereus, a foodborne pathogen that controls its main virulence factor through QS. The QS signal receptor PlcR of B. cereus was targeted by molecular docking with 82 garlic metabolites to identify the most potent QS inhibitors. Five metabolites, quercetin, kaempferol, luteolin, flavone, and rutin, were selected for further evaluation of their impacts on the growth, toxin production, and virulence of B. cereus in vitro. The expression levels of key QS genes were also measured to verify their anti-QS ability. The results revealed that quercetin reduced enterotoxin production by B. cereus but did not affect the QS process at the transcriptional level; flavone and rutin in garlic interfered with the QS of B. cereus by competing with the autoinducing peptide (AIP) PapR7 for the PlcR binding site, resulting in decreased enterotoxin secretion and hemolysis without altering the bacterial growth. Interestingly, luteolin and kaempferol in garlic acted as AIP analogs and bound to PlcR to stimulate the QS process and virulence. Furthermore, kaempferol, luteolin, flavone, and rutin had distinct or opposite interactions with PapR7 at the Gln237 or Tyr275 residues of PlcR, which determined the suppression or enhancement of the QS process. The findings suggested that flavone and rutin were effective compounds to inhibit the QS process in garlic and could be used as alternative methods to control B. cereus.
期刊介绍:
Foodborne Pathogens and Disease is one of the most inclusive scientific publications on the many disciplines that contribute to food safety. Spanning an array of issues from "farm-to-fork," the Journal bridges the gap between science and policy to reduce the burden of foodborne illness worldwide.
Foodborne Pathogens and Disease coverage includes:
Agroterrorism
Safety of organically grown and genetically modified foods
Emerging pathogens
Emergence of drug resistance
Methods and technology for rapid and accurate detection
Strategies to destroy or control foodborne pathogens
Novel strategies for the prevention and control of plant and animal diseases that impact food safety
Biosecurity issues and the implications of new regulatory guidelines
Impact of changing lifestyles and consumer demands on food safety.
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