Biofilm formation by the Enterobacteriaceae: a comparison between Salmonella enteritidis, Escherichia coli and a nitrogen-fixing strain of Klebsiella pneumoniae

A simple laboratory reactor, which simulates biofilm formation in pipes, was used to compare biofilm formation by three members of the Enterobacteriaceae, namely, an environmental, nitrogen-fixing strain of Klebsiella pneumoniae , a pathogen, Salmonella enteritidis , and a faecal indicator, Escherichia coli. All three attached to CVCP pipe surfaces in the reactor and formed substantial biofilm populations of over a million bacteria cm^-2 within 24 h. These populations increased by approximately 10-fold over the next 48 h. Estimates of the numbers of metabolically active cells and the ratios of viable to direct counts showed that Kl. pneumoniae formed the densest and most metabolically active biofilms, followed by Salm. enteritidis and E. coli , respectively. Nitrogen fixation and polysaccharide production (EPS) by Kl. pneumoniae occurred only in mature biofilms and were of no selective advantage in the initiation of biofilms. Despite producing more EPS the rate of attachment of Salm. enteritidis was lower than for Kl. pneumoniae .     

Observations of binary population biofilms

Biofilm research has focused on studies of undefined mixed microbial populations and, more recently, on investigations of monopopulation biofilms. In the first case, the biofilm is considered a homogeneous mass, ignoring the properties of individual species. The second case concentrates on the properties and processes of one microbial species in the biofilm. This article describes biofilm experiments conducted with monopopulations of Klebsiella pneumoniae and Pseudomonas aeruginosa and with binary populations of K. pneumoniae and P. aeruginosa. Process rates and stoichiometric coefficients were determined for the monopopulation and for the binary population biofilms and evaluated in light of the species distribution in the latter. Results indicate that neither the specific cellular product formation rate nor the glucose-oxygen stoichiometric ratio of K. pneumoniae or P. aeruginosa in the binary biofilm is affected by the presence of the other species. Consequently, species interaction was not observed. Although the specific cellular growth rate of K. pneumoniae is five times that of P. aeruginosa, the former species did not dominate the microbial population in the biofilm. Possible reasons for this unexpected behavior are discussed.     

Interrelationships between strains of Salmonella enteritidis belonging to phage types 4, 7, 7a, 8, 13, 13a, 23, 24 and 30

Salmonella enteritidis strain P278849 expressed long-chain lipopolysaccharide (LPS, termed 'smooth'), carried plasmids of 38, 34 (pDEP 44, incompatibility group N, R-type AS), 2.0 and 1 MDa, and belonged to phage type (PT) 23. Introduction of pDEP 44 into a smooth strain of Salm. enteritidis PT 4 produced a smooth strain of Salm. enteritidis of PT 24. Transfer of this plasmid into a strain of PT 8 also resulted in formation of a smooth strain of Salm. enteritidis of PT 24. Moving pDEP 44 into strains of Salm. enteritidis of PTs 7 or 7a which did not express LPS (termed 'rough') resulted in rough strains of PT 23. In contrast, transfer of this plasmid into a smooth strain of Salm. enteritidis PT 7a resulted in a smooth strain of PT 23. Introduction of pDEP 44 into strains of Salm. enteritidis of PT 13 or PT 13a did not change the phage type, whereas transferring the plasmid into strains of PT 30 caused strains to become resistant to lysis by the typing phages and therefore untypable. The possibility of strains of Salm. enteritidis of PT 8 being the progenitors of strains of Salm. enteritidis of PT 24 must now be considered when investigating the epidemiology of Salm. enteritidis of PT 24 infections in areas where Salm. enteritidis PT 8 is common.     

Quantitative analysis of biofilm thickness variability

The thickness variability of biofilms of Pseudomonas aeruginosa, Klebsiella pneumoniae, and the binary population combination of these two species was quantified. The experimental method involved cryoembedding biofilms with a commercial tissue embedding agent, sectioning, and applying image analysis to construct thickness profiles along linear transects (up to 1 cm in length) across the substratum. Biofilms embedded and sectioned by this method were locally as thin as a single cell attached to the surface (<5 mum) and as thick as 1000 mum. Week-old biofilms of three different species compositions displayed distinct structural features as indicated by their mean thicknesses and by a roughness coefficient. Monopopulation biofilms of P. aeruginosa (29 mum mean thickness) or K. pneumoniae (100 mum mean thickness) were thinner than the binary population biofilm (400 mum mean thickness). A roughness coefficient developed in this investigation corroborated the qualitative visual characterization of P. aeruginosa biofilms as relatively uniformly thick (mean roughness coefficient 0.15), K. pneumoniae biofilms as patchy (mean roughness coefficient 1.14), and the binary population biofilm as intermediate (mean roughness coefficient 0.26). Whereas P. aeruginosa and binary population biofilms covered the substratum completely, significant areas of essentially bare substratum were apparent in K. pneumoniae biofilms. The patchiness of K. pneumoniae biofilms may be due to the fact that this organism is nonmotile. A spatial correlation analysis of the thickness data indicated that thickness measurements were still correlated even when separated by distances that exceeded the mean biofilm thickness. Cell aggregates, some of them hundreds of microns in size, were observed in the effluent of K. pneumoniae and binary population biofilm reactors. Measurements of thickness variability and other observations reported in this article provide a quantitative basis for analysis of microscale structural heterogeneity of biofilms. (c) 1995 John Wiley & Sons, Inc.     

A new mannose-resistant haemagglutinin in Klebsiella

Strains of Klebsiella of the species (or 'patho-bio-sero-geogroups') Kl. atlantae, Kl. edwardsii and Kl. rhinoscleromatis produced neither haemagglutinins (HAs) nor fimbriae; strains of Kl. ozaenae were HA- but some produced type-6 fimbriae; and strains of Kl. pneumoniae (sensu stricto) and Kl. aerogenes that produced the mannose-sensitive HA (MS-HA) formed type-1 fimbriae. Most strains of Kl. aerogenes produced, in addition, one or both of the mannose-resistant HAs, MR/K-HA or MR/P-HA. The former, associated with type-3 fimbriae, was produced by 95%, and the latter by 57%, of the Kl. aerogenes strains. Some of the properties of the MR/P-HA, apparently a non-fimbrial HA not previously recognised in Klebsiella, are described.     

A new mannose-resistant haemagglutinin in Klebsiella

Strains of Klebsiella of the species (or 'patho-bio-sero-geogroups') Kl. atlantae, Kl. edwardsii and Kl. rhinoscleromatis produced neither haemagglutinins (HAs) nor fimbriae; strains of Kl. ozaenae were HA^- but some produced type-6 fimbriae; and strains of Kl. pneumoniae ( sensu stricto ) and Kl. aerogenes that produced the mannose-sensitive HA (MS-HA) formed type-1 fimbriae. Most strains of Kl. aerogenes produced, in addition, one or both of the mannose-resistant HAs, MR/K-HA or MR/P-HA. The former, associated with type-3 fimbriae, was produced by 95%, and the latter by 57%, of the Kl. aerogenes strains. Some of the properties of the MR/P-HA, apparently a non-fimbrial HA not previously recognised in Klebsiella , are described.     

肺炎克雷伯菌KP1＿4563基因突变株的构建及其生物膜表型分析

KP1_4563基因是肺炎克雷伯菌NTUH-K2044中假设的蛋白编码基因,与Ⅲ型菌毛的功能有关。本实验首先采用同源重组基因敲除方法构建肺炎克雷伯菌KP1_4563基因缺失的突变株(Kp-△4563),然后PCR扩增KP1_4563基因片段,克隆到质粒p BAD33上,将重组质粒导入Kp-△4563获得回补株(Kpc-△4563)。分别测定野生株、突变株、回补株用普通LB培养基,改良Minka培养基以及含胆汁盐的LB培养基培养时生物膜形成能力,以此来探讨KP1_4563基因以及不同培养基对肺炎克雷伯菌体外生物膜形成的影响。我们成功构建KP1_4563基因缺失的突变株和回补株Kpc-△4563。与野生株相比,突变株Kp-△4563生物膜形成能力减弱,回补株介于野生株和突变株之间。使用改良Minka培养基使菌株菌毛化以及加入胆汁盐可以增加生物膜的形成能力。这些分析表明肺炎克雷伯菌KP1_4563基因能正调控细菌生物膜的形成。体外培养使细菌菌毛化以及加入胆汁盐可以促进生物膜的形成。     

生物被膜肺炎克雷伯菌产ESBLs的耐药性和基因型分析

目的检测临床分离的肺炎克雷伯菌在体外形成生物被膜后产超广谱β-内酰胺酶（Extended-Spectrum β-Laetamases,ESBLs）的情况,分析及研究其耐药性和耐药基因的分型情况。方法采用改良平板法在体外建立肺炎克雷伯菌生物被膜模型,用三维试验确认产ESBLs菌株,用K-B法进行药敏试验,用聚合酶链反应（Polymerase chain reaction,PCR）进行blaSHV、blaTEM和blaCTX—M基因扩增,产物分别克隆人pMD18-T载体后测定其核苷酸序列,分析其基因亚型。结果临床筛选出的60株ESBLs阴性肺炎克雷伯菌有46株在体外成功建立了生物被膜模型,并有9株产生了ESBLs表型。产酶后菌株的耐药性明显高于产酶前。PCR结果显示9株细菌均携带SHV基因,有4株同时携带TEM基因,没有检出携带CTX-M基因的菌株。9株细菌的SHV基因分别属于SHV-5、SHV-12和SHV-28亚型。4株携带TEM基因的细菌均为TEM-1亚型。结论生物被膜的形成能够诱导肺炎克雷伯菌产生ESBLs。本实验中检出的产ESBLs的基因型都是由SHV-1突变产生的。生物被膜的形成和产生ESBLs的协同作用是生物被膜肺炎克雷伯菌耐药性增强的主要原因之一。     

Propanediol oxidoreductases of Escherichia coli, Klebsiella pneumoniae and Salmonella typhimurium. Aspects of interspecies structural and regulatory differentiation.

The enzyme propanediol oxidoreductase, which converts the lactaldehyde formed in the metabolism of fucose and rhamnose into propane-1,2-diol under anaerobic conditions, was investigated in Escherichia coli, Klebsiella pneumoniae and Salmonella typhimurium. Structural analysis indicated that the enzymes of E. coli and K. pneumoniae have the same Mr and pI, whereas that of Salm. typhimurium also has the same Mr but a slightly different pI. One-dimensional peptide mapping showed identity between the E. coli and K. pneumoniae enzymes when digested with alpha-chymotrypsin, Staphylococcus aureus V8 proteinase or subtilisin. In the case of Salm. typhimurium, this held only for the subtilisin-digested enzymes, indicating that the hydrophobic regions were preserved to a considerable extent. Anaerobically, the three species induced an active propanediol oxidoreductase when grown on fucose or rhamnose. An inactive propanediol oxidoreductase was induced in Salm. typhimurium by either fucose or rhamnose under aerobic conditions, and this was activated once anaerobiosis was established. An inactive propanediol oxidoreductase was also induced in E. coli under aerobic conditions, but only by growth on fucose. The inactive enzyme was not induced by either of the sugars in K. pneumoniae.     

Decolourization and biodegradation of N,N'-dimethyl-p-phenylenediamine by Klebsiella pneumoniae RS-13 and Acetobacter liquefaciens S-1

Klebsiella pneumoniae RS-13 and Acetobacter liquefaciens S-1, both methyl red (MR)-degrading bacterial strains, degraded N,N'-dimethyl- p -phenylenediamine (DMPD) under aerobic conditions. DMPD, a toxic and mutagenic aromatic amine, is formed during the reductive cleavage of azo dyes such as MR. The effects of physical parameters, such as temperature and aeration, and chemical parameters, such as pH and concentrations of glucose, ethanol and ammonium sulphate in the culture medium, on the degradation of DMPD by these bacteria were determined. Klebsiella pneumoniae RS-13 degraded DMDP more efficiently than A. liquefaciens S-1 under all physicochemical conditions, except in the presence of ethanol as carbon and energy sources. In addition, Kl. pneumoniae RS-13 degraded DMDP at low levels of carbon and nitrogen at pH 6–8. These results indicate that it is feasible to use Kl. pneumoniae RS-13 to completely degrade the detoxify MR under aerobic conditions.     

Survival of Salmonella enteritidis PT4 and Salm. typhimurium Swindon in aerosols

A.S. McDERMID AND M.S. LEVER. 1996. Small particle aerosols of plate-grown Salmonella enteritidis and Salm. typhimurium were generated and maintained within a rotating drum at 75% relative humidity and 24°C for 2 h. Plate-grown organisms were found to be more aerosol-stable than broth-grown organisms. Differences were observed between the two species; plate-grown Salm. typhimurium retained 100% viability after 2 h compared to approximately 70% for plate-grown Salm. enteritidis . A large proportion of cells of both serotypes remained viable in aerosols after 2 h, confirming the potential for airborne transmission for these organisms, e.g. within henhouses and during food     

Biofilm formation of Klebsiella pneumoniae on urethral catheters requires either type 1 or type 3 fimbriae

Urinary catheters are standard medical devices utilized in both hospital and nursing home settings, but are associated with a high frequency of catheter-associated urinary tract infections (CAUTI). In particular, biofilm formation on the catheter surface by uropathogens such as Klebsiella pneumoniae causes severe problems. Here we demonstrate that type 1 and type 3 fimbriae expressed by K.?pneumoniae enhance biofilm formation on urinary catheters in a catheterized bladder model that mirrors the physico-chemical conditions present in catheterized patients. Furthermore, we show that both fimbrial types are able to functionally compensate for each other during biofilm formation on urinary catheters. In situ monitoring of fimbrial expression revealed that neither of the two fimbrial types is expressed when cells are grown planktonically. Interestingly, during biofilm formation on catheters, both fimbrial types are expressed, suggesting that they are both important in promoting biofilm formation on catheters. Additionally, transformed into and expressed by a nonfimbriated Escherichia coli strain, both fimbrial types significantly increased biofilm formation on catheters compared with the wild-type E.?coli strain. The widespread occurrence of the two fimbrial types in different species of pathogenic bacteria stresses the need for further assessment of their role during urinary tract infections.     

Tolerance to acid in pH 5.0-grown organisms of potentially pathogenic Gram-negative bacteria

S.A. NOJOUMI, D.G. SMITH AND R.J. ROWBURY. 1995. A wide range of potentially pathogenic species of Gram-negative bacteria were far more resistant to extreme acidity (pH 2.0–3.5) when cultured at pH 5.0 (habituated to acid) than after pH 7.0 culture. The differences were particularly great for Citrobacter spp., Enterobacter spp., Klebsiella spp. and for Vibrio parahaemolyticus ; substantial habituation was also observed for Proteus mirabilis and Aeromonas formicans but the effect was less marked for Serratia marcescens and Acinetobacter calcoaceticus . Growth at pH 5.0 was substantially poorer than at pH 7.0 for most of the above species and also for Salmonella typhimurium and Salm. enteritidis but phosphate markedly enhanced growth at pH 5.0 for many of these species without affecting growth at pH 7.0.     

Experimental study of the antibiotic activity of cefuroxime

The antimicrobial spectrum of cefuroxime, an antibiotic of the cephalosporin family was studied in vitro with respect to 11 species (16 strains) of gram-positive and gram-negative bacteria and in vivo on albino mice with experimental salmonellosis or pneumococcal infections. The bacteria were either test cultures or isolates from patients. The studies showed that cefuroxime had a wide antibacterial spectrum in vitro. It inhibited the growth of Staph. aureus, Str. pneumoniae, E. coli, Salm. typhimurium, Kl. pneumoniae, Bac. subtilis and had no effect on Ps. aeruginosa, Pr. vulgaris, M. tuberculosis and M. fortuitum. Cefuroxime had also a high bacteriostatic effect with respect to the experimental pneumococcal infection and a lower bacteriostatic effect with respect to the experimental salmonellosis infection.     

Biofilm parameters influencing biocide efficacy

The influence of biofilm areal cell density, species composition, and the presence of abiotic particles on the disinfection and removal of bacterial biofilms by monochloramine was investigated. Mono- and binary population biofilms of Pseudomonas aeruginosa and Klebsiella pneumoniae were grown on stainless-steel slides in a continuous flow annular reactor. Biofilms were treated in the reactor with a pulse/step dose of 4 mg/L monochloramine for 2 h. Biofilm samples were disaggregated and assayed for colony formation on R2A agar and for total cell numbers by acridine orange direct counts. These data were used to determine apparent first order rate coefficients for the processes of disinfection and detachment. Disinfection rate coefficients exceeded detachment rate coefficients by as much as an order of magnitude and the two coefficients were poorly correlated (r = 0.272). The overall decay rate coefficient (disinfection plus detachment) depended strongly on the initial biofilm areal cell density. It displayed a parabolic dependence on cell density with a maximum near 10(8) cfu/cm(2). This result points to multiple factors influencing biofilm susceptibility to antimicrobial challenge. Decay rates of K. pneumoniae measured in binary population biofilms were comparable with those measured in monopopulation biofilms (p = 0.61). P. aeruginosa decayed more slowly in biofilsm dominated by K. pneumoniae (p = 0.028), indicating some interaction between species. The presence of kaolin and calcium carbonate particles in the biofilm reduced disinfection efficacy. (c) 1995 John Wiley & Sons, Inc.     

The characterization of functions involved in the establishment and maturation of Klebsiella pneumoniae in vitro biofilm reveals dual roles for surface exopolysaccharides

The ability to form biofilm is seen as an increasingly important colonization strategy among both pathogenic and environmental Klebsiella pneumoniae strains. The aim of the present study was to identify abiotic surface colonization factors of K. pneumoniae using different models at different phases of biofilm development. A 2200 K. pneumoniae mutant library previously obtained by signature-tagged mutagenesis was screened in static and dynamic culture models to detect clones impaired at early and/or mature stages of biofilm formation. A total of 28 mutants were affected during late phases of biofilm formation, whereas 16 mutants displayed early adhesion defect. These mutants corresponded to genes involved in potential cellular and DNA metabolism pathways and to membrane transport functions. Eight mutants were deficient in capsule or LPS production. Gene disruption and microscopic analyses showed that LPS is involved in initial adhesion on both glass and polyvinyl-chloride and the capsule required for the appropriate initial coverage of substratum and the construction of mature biofilm architecture. These results give new insight into the bacterial factors sequentially associated with the ability to colonize an abiotic surface and reveal the dual roles played by surface exopolysaccharides during K. pneumoniae biofilm formation.     

惰性材料表面细菌生物膜构建的研究

目的构建惰性材料塑料输液管内壁细菌生物膜体外模型,观察细菌生物膜的结构,探讨输液管内壁细菌生物膜形成影响因素。方法建立铜绿假单胞菌生物膜和铜绿假单胞菌、肺炎克雷伯菌混合生物膜,分别于培养1、3和7d用扫描电镜动态观察生物膜形成过程。结果混合菌生物膜的生长速度高于铜绿假单胞菌单独成膜。结论输液管是形成细菌生物膜的良好支持材料,混合细菌培养可以加速细菌形成生物膜。     

Serum survival and plasmid possession by strains of Salmonella enteritidis, Salm. typhimurium and Salm. virchow

Strains of Salmonella enteritidis, Salm. typhimurium and Salm. virchow , carrying different numbers of plasmids, were examined for the ability to multiply in sera. Viable counts were performed to monitor the kinetics of growth of bacteria when in human, chicken and turkey sera. The presence of plasmids in Salm. enteritidis, Salm. typhimurium and Salm. virchow reduced considerably the ability of strains of these serotypes to multiply in serum. SDS-PAGE was used to show that growth of Salm. enteritidis in serum did not involve changes in outer membrane proteins or lipopolysaccharide. It was concluded that the carriage of plasmids may be disadvantageous for the survival in serum of certain common salmonella serotypes.     

The role of exopolysaccharides in dual species biofilm development

A plasmid encoding the green fluorescent protein (GFP) of Aequorea victoria was transformed into a biofilm-forming strain of Enterobacter agglomerans originally isolated from an industrial environment. The transformed strain, EntGFP, could then be identified in dual species biofilms by direct visualization, plate counts and quantitiative fluorescence measurements. A variety of cell constituents and products may be involved in the adhesion and accumulation process and exopolysaccharides (EPS) represent one of these factors. The involvement of EPS in the initial adhesion events and the role in dual species biofilm development was investigated. Cells of EntGFP and Klebsiella pneumoniae Gl interact forming biofilms more successfully in a mixture than in isolation. The co-resistance results in enhanced biofilm formation and increased resistance to disinfection. Microscopic examination showed that the two species were often closely juxtaposed in microcolonies, suggesting the interactions involve surface-associated macromolecules. Fluorescence was used to measure the adhesion of EntGFP cells to Kleb, pneumoniae Gl (Gl) EPS. The results showed EntGFP adhered better to Gl EPS that Ent EPS. Polysaccharde depolymerases isolated from a bacteriophage for Ent. agglomerans were used to degrade Ent EPS specifically. Following polysaccharase treatment, the adhaesion of EntGFP to Gl cells was reduced. This suggests both types of EPS mediate adhesion. The two types of EPS were dissolved in dimethylsulphoxide and when mixed, their viscosity increased, reaching a maximum after ～+40 min. This may partially explain the increased protection of dual species biofilms from disinfectants. The depolymerases were used to treat dual species biofilms and this resulted in the effective removal of both species from the surface. This may suggest Ent contributes more EPS to the biofilm matrix. The EPS play an important role in EntGFP and Gl dual species biofilm formation both as adhesins and as the EPS interact, changing their physical properties.