Investigation of LuxS-mediated quorum sensing in Klebsiella pneumoniae

Chen, Lijiang; Wilksch, Jonathan J.; Liu, Haiyang; Zhang, Xiaoxiao; Torres, Von Vergel L.; Bi, Wenzi; Mandela, Eric; Cao, Jianming; Li, Jiahui; Lithgow, Trevor; Zhou, Tieli

doi:10.1099/jmm.0.001148

Cited by 44 publications

(47 citation statements)

References 79 publications

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“…The genetic mechanisms known to be involved for a successful biofilm formation in K. pneumoniae include factors for adhesion (fimbriae and pili) [6] , cohesion (adhesins, polysaccharides), CPS [7] , QS [9] , and loss of mucoidal nature (colonic acid) [8] . Here, genes responsible for each of these factors were analysed for the study isolates in comparison with global clones.…”

Section: Discussionmentioning

confidence: 99%

“…QS is a well-established mechanism in the process of biofilm formation, where the population is regulated on sensing the cell-cell contact [9] . Previously a Type II QS system was identified in K. pneumoniae, which showed the role of luxS in autoinducer AI-2 synthesis [37,38] .…”

Section: Discussionmentioning

confidence: 99%

“…Previously a Type II QS system was identified in K. pneumoniae, which showed the role of luxS in autoinducer AI-2 synthesis [37,38] . It was also noted that changes in biofilm architecture were observed in the luxS mutant K. pneumoniae with less surface coverage and reduced macrocolony formation [9] . luxS was present in almost all isolates in the study irrespective of ST.…”

Section: Discussionmentioning

confidence: 99%

“…Biofilm formation mechanisms in clinical K. pneumoniae is reported to be mediated by a series of genetic factors, including allantoin (allS), aerobactin (iutA), type I (fimA and fimH) and type III fimbriae (mrkA and mrkD), polysaccharides and adhesins (pgaA, pgaB, pgaC, bcsA), capsular polysaccharide (CPS) (wzc, cpsD, treC, wcaG, wabG, rmpA/A2, magA, k2a, wzyk2), quorum sensing (QS) (luxS) and colonic acid (wcaJ) [6][7][8][9][10][11] . Though these genetic factors were individually studied, a collective approach on their analysis in a set of clinical isolates is still lacking.…”

Section: Introductionmentioning

confidence: 99%

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The influence of biofilm formation on carbapenem resistance in clinicalKlebsiella pneumoniaeinfections: phenotype vs genome-wide analysis

Ragupathi

Sethuvel

Dwarakanathan

et al. 2020

Preprint

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AbstractKlebsiella pneumoniae is one of the leading causes of nosocomial infections. Carbapenem-resistant (CR) K. pneumoniae are on the rise in India. The biofilm forming ability of K. pneumoniae further complicates patient management. There is still a knowledge gap on the association of biofilm formation with patient outcome and carbapenem susceptibility, which is investigated in the present study.K. pneumoniae isolates from patients admitted in critical care units with catheters and ventilators were included. K. pneumoniae (n = 72) were tested for antimicrobial susceptibility as recommended by CLSI 2019 and subjected to 96-well microtitre plate biofilm formation assay. Based on optical density at 570 nm isolates were graded as strong, moderate and weak biofilm formers. Subset of strong biofilm formers were subjected to whole genome sequencing and a core genome phylogenetic analysis in comparison with global isolates were performed. Biofilm formation was compared for an association with the carbapenem susceptibility and with patient outcome. Statistical significance, correlations and graphical representation were performed using SPSS v23.0.Phenotypic analyses showed a positive correlation between biofilm formation and carbapenem resistance. Planktonic cells observed to be susceptible in vitro exhibited higher MICs in biofilm structure. The biofilm forming ability had a significant association with the morbidity/mortality. Infections by stronger biofilm forming pathogens significantly (P<0.05) resulted in fewer ‘average days alive’ for the patient (3.33) in comparison to those negative for biofilms (11.33). Phylogenetic analysis including global isolates revealed the clear association of sequence types with genes for biofilm mechanism and carbapenem resistance. Carbapenemase genes were found specific to each clade. The known hypervirulent clone-ST23 with wcaG, magA, rmpA, rmpA2 and wzc with a lack of mutation for hyper-capsulation might be poor biofilm formers. Interestingly, ST15, ST16, ST307 and ST258 – reported global high-risk clones were wcaJ negative indicating the high potential of biofilm forming capacity. Genes wabG and treC for CPS, bcsA and pgaC for adhesins, luxS for quorum sensing were common in all clades in addition to genes for aerobactin (iutA), allantoin (allS), type I and III fimbriae (fimA, fimH, mrkD) and pili (pilQ, ecpA).This study is the first of its kind to compare genetic features of antimicrobial resistance with a spectrum covering most of the genetic factors for K. pneumoniae biofilm. These results highlight the importance of biofilm screening to effectively manage nosocomial infections by K. pneumoniae. Further, data obtained on epidemiology and associations of biofilm and antimicrobial resistance genetic factors will serve to enhance our understanding on biofilm mechanisms in K. pneumoniae.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

The influence of biofilm formation on carbapenem resistance in clinicalKlebsiella pneumoniaeinfections: phenotype vs genome-wide analysis

Ragupathi

Sethuvel

Dwarakanathan

et al. 2020

Preprint

View full text Add to dashboard Cite

show abstract

“…QS is a well-established mechanism in the process of biofilm formation, where the population is regulated on sensing the cellcell contact (Chen et al, 2020). Type II QS system reported in K. pneumoniae showed the role of luxS in autoinducer AI-2 synthesis (Balestrino et al, 2005;Zhu et al, 2011).…”

Section: Discussionmentioning

confidence: 99%