Pseudomonas aeruginosa is one of the leading nosocomial pathogens that causes both severe acute and chronic infections.The strong capacity of P.aeruginosa to form biofilms can dramatically increase its antibiotic resi...Pseudomonas aeruginosa is one of the leading nosocomial pathogens that causes both severe acute and chronic infections.The strong capacity of P.aeruginosa to form biofilms can dramatically increase its antibiotic resistance and lead to treatment failure.The biofilm resident bacterial cells display distinct gene expression profiles and phenotypes compared to their free-living counterparts.Elucidating the genetic determinants of biofilm formation is crucial for the development of antibiofilm drugs.In this study,a highthroughput transposon-insertion site sequencing(Tn-seq)approach was employed to identify novel P.aeruginosa biofilm genetic determinants.When analyzing the novel biofilm regulatory genes,we found that the cell division factor ZapE(PA4438)controls the P.aeruginosa pqs quorum sensing system.The ΔzapE mutant lost fitness against the wild-type PAO1 strain in biofilms and its production of 2-heptyl-3-hydroxy-4(1H)-quinolone(PQS)had been reduced.Further biochemical analysis showed that ZapE interacts with PqsH,which encodes the synthase that converts 2-heptyl-4-quinolone(HHQ)to PQS.In addition,site-directed mutagenesis of the ATPase active site of ZapE(K72A)abolished the positive regulation of ZapE on PQS signaling.As ZapE is highly conserved among the Pseudomonas group,our study suggests that it is a potential drug target for the control of Pseudomonas infections.展开更多
基金supported by the Guangdong Natural Science Foundation for Distinguished Young Scholar(2020B1515020003)Shenzhen Science and Technology Program KQTD20200909113758004+2 种基金China Postdoctoral Science Foundation(2020M672649)National Natural Science Foundation of China(91951204 and 32200155)Guangdong Basic and Applied Basic Research Foundation(2019A1515110640 and 2020A1515010316).
文摘Pseudomonas aeruginosa is one of the leading nosocomial pathogens that causes both severe acute and chronic infections.The strong capacity of P.aeruginosa to form biofilms can dramatically increase its antibiotic resistance and lead to treatment failure.The biofilm resident bacterial cells display distinct gene expression profiles and phenotypes compared to their free-living counterparts.Elucidating the genetic determinants of biofilm formation is crucial for the development of antibiofilm drugs.In this study,a highthroughput transposon-insertion site sequencing(Tn-seq)approach was employed to identify novel P.aeruginosa biofilm genetic determinants.When analyzing the novel biofilm regulatory genes,we found that the cell division factor ZapE(PA4438)controls the P.aeruginosa pqs quorum sensing system.The ΔzapE mutant lost fitness against the wild-type PAO1 strain in biofilms and its production of 2-heptyl-3-hydroxy-4(1H)-quinolone(PQS)had been reduced.Further biochemical analysis showed that ZapE interacts with PqsH,which encodes the synthase that converts 2-heptyl-4-quinolone(HHQ)to PQS.In addition,site-directed mutagenesis of the ATPase active site of ZapE(K72A)abolished the positive regulation of ZapE on PQS signaling.As ZapE is highly conserved among the Pseudomonas group,our study suggests that it is a potential drug target for the control of Pseudomonas infections.