Influence of culture conditions on cell surface hydrophobicity of rods of genus Serratia

The cell surface hydrophobicity (CSH) is a non-specific adhesion factor that is important in the proliferation of microorganisms on solid surfaces. Serratia spp. is a bacterium that has been increasingly implicated as a primary pathogen in numerous human infections, particularly in urinary tract infections. CSH of 60 Serratia spp. strains isolated from clinical materials was evaluated using the ammonium sulfate salt aggregation test. Bacteria were grown for 24 h and 48 h at room temperature (22 degrees C) and 37 degrees C on enrichment broth and agar (Biomed), enrichment agar with 5% human blood and medium composed of agar granulated (Becton Dickinson), neopeptone (Difco) and 1% (v/v) glycerol. CSH was estimated most frequently when the analyzed strains in enrichment broth were cultured. When grown in enrichment broth cells of Serratia spp. at room temperature were more hydrophobic (43% after 24 h and 47% after 48 h) than those at 37 degrees C (30% after 24 h and 33% after 48 h). CSH of the examined Serratia spp. strains were depended on the temperature, time of the culture of bacteria and the kind of media. The influence of the culture conditions on the changes in CSH of the analyzed bacteria may suggest significance of these properties in the pathogenesis of Serratia spp.     

Effect of growth conditions on cell surface hydrophobicity of multiresistant Pseudomonas aeruginosa strains

Bacterial cell surface hydrophobicity (CSH) may promote colonization. The aim of this study was evaluation of the influence of growth conditions and sensitivity to selected antibiotics on hydrophobic properties of multiresistant P. aeruginosa strains by means of salt aggregation test (SAT) and bacterial adhesion to hydrocarbons (BATH). 30 multiresistant P. aeruginosa strains were included in this study. The variables were: microbiological media type (trypticase-soy agar, trypticase-soy agar with 5% sheep blood and trypticase-soy broth), growth temperature (22, 30 and 37 degrees C) and growth time (24 and 48 h). Most of the investigated strains presented hydrophilic properties in both methods. Cultivation in trypticase-soy broth caused statistically relevant decrease of CSH. Growth temperature did not influence CSH. 48 hours of incubation caused statistically relevant drop of the CSH when compared with 24 h incubation. The sensitivity to selected antibiotics did not vary investigated strains, except form cefepime sensitive and intermediate sensitive strains.     

Evaluation of hydrophobic properties of Yersinia enterocolitica strains isolated from humans and pigs]

The aim of the study was to evaluate the hydrophobic properties of Yersinia enterocolitica and to determine the influence of the culture conditions, such as: type of medium, temperature, and duration of the culture on the manifestation of these properties. The subject of the study were 117 of Y. enterocolitica strains isolated from humans and pigs. The ammonium sulphate salt aggregation test according to Lindahl modified method was used to evaluate the hydrophobic properties of Y. enterocolitica strains. Strains of Y. enterocolitica were cultured for 24 h at 25 degrees C on TSA (Difco) medium. During investigation of the influence of the culture conditions the chosen strains were incubated for 24 h and 48 h at 25 degrees C and 37 degrees C on TSA (Difco), LB (Difco), enrichment agar (Biomed), and enrichment agar with 5% sheep blood (Graso). A total of 44.5%, 17.9%, 9.4%, and 28.2% strains of Y. enterocolitica showed very strong hydrophobic properties, strong hydrophobic properties, some hydrophobic properties, and were non-hydrophobic, respectively when strains of Y. enterocolitica were cultured for 24 h at 25 degrees C on TSA medium. A total of 75.5% strains isolated from humans showed very strong hydrophobic properties and 13.5% strains were non-hydrophobic. Among strains isolated from pigs 30% showed very strong hydrophobic properties but 35% were non-hydrophobic. The hydrophobic properties of Y. enterocolitica depended on the temperature, duration of the culture and the type of media. The highest number of strains with very strong hydrophobic properties (89.6%) was obtained after 48 h of the incubation at 37 degrees C on the enrichment agar with 5% sheep blood. The highest number of non-hydrophobic strains of Y. enterocolitica (28.5%) was obtained after 24 h at 25 degrees C on TSA medium.     

Cell surface hydrophobicity and charge of Staphylococcus aureus and coagulase-negative staphylococci from bovine mastitis

The effects of seven growth media on cell surface hydrophobicity of a collection of Staphylococcus aureus and coagulase-negative staphylococci isolated from bovine mastitis were compared in the salt-aggregation test. Thirty-three per cent of Staph. aureus strains showed extremely high cell surface hydrophobicity (auto-aggregated) and 28% were moderately hydrophobic while 26% were hydrophilic after growth on horse blood agar at 37 degrees C for 18 h. There were great variations in the proportion and degree of the hydrophobicity depending on the medium used. Cultivations on/in capsule-inducing media caused a shift from a high to a low degree of hydrophobicity, although a microscopically detectable capsule or slime layer was seen in only one strain. This strain and encapsulated reference strains had a hydrophilic cell surface and migrated faster in free zone electrophoresis than cells of unencapsulated strains. Cells of strains grown on staphylococcus medium 110 agar migrated faster than those grown on horse blood agar regardless of their capsule production. Coagulase-negative staphylococci showed uniformly hydrophilic cell surface after cultivation on horse blood agar, but not when grown in tryptic soy broth or proteose peptone broth. It was concluded that most of the Staph. aureus strains from bovine mastitis under a variety of growth conditions in stationary phase culture constantly expressed hydrophobic cell surface.     

Cell surface hydrophobicity and charge of Staphylococcus aureus and coagulase-negative staphylococci from bovine mastitis

The effects of seven growth media on cell surface hydrophobicity of a collection of Staphylococcus aureus and coagulase-negative staphylococci isolated from bovine mastitis were compared in the salt-aggregation test. Thirty-three per cent of Staph. aureus strains showed extremely high cell surface hydrophobicity (auto-aggregated) and 28% were moderately hydrophobic while 26% were hydrophilic after growth on horse blood agar at 37°C for 18 h. There were great variations in the proportion and degree of the hydrophobicity depending on the medium used. Cultivations on/in capsule-inducing media caused a shift from a high to a low degree of hydrophobicity, although a microscopically detectable capsule or slime layer was seen in only one strain. This strain and encapsulated reference strains had a hydrophilic cell surface and migrated faster in free zone electrophoresis than cells of unencapsulated strains. Cells of strains grown on staphylococcus medium 110 agar migrated faster than those grown on horse blood agar regardless of their capsule production. Coagulase-negative staphylococci showed uniformly hydrophilic cell surface after cultivation on horse blood agar, but not when grown in tryptic soy broth or proteose peptone broth. It was concluded that most of the Staph. aureus strains from bovine mastitis under a variety of growth conditions in stationary phase culture constantly expressed hydrophobic cell surface.     

Selective medium for Pseudomonas aeruginosa that uses 1,10-phenanthroline as the selective agent.

The MIC of 1,10-phenanthroline for 35 Pseudomonas aeruginosa strains was 128 micrograms/ml, whereas 32 micrograms or less per ml inhibited all other microorganisms tested. On the basis of these results, a selective agar for P. aeruginosa which contained 15 g of Trypticase soy broth (BBL Microbiology Systems), 15 g of agar, and 0.1 g of phenanthroline per liter was formulated. Forty-four P. aeruginosa strains yielded a mean efficiency of plating on this medium of 79% of the counts obtained on Trypticase soy agar, which was significantly higher than that obtained with pseudomonas isolation agar or Pseudosel agar. Pseudomonas cepacia, Pseudomonas fluorescens, Pseudomonas putida, Pseudomonas stutzeri, representatives of 13 other genera (including gram-negative rods, gram-positive rods, and cocci), and a yeast were not recovered within 48 h at 35 degrees C when approximately 10(7) CFU were plated on this medium. Only small colonies from one strain each of P. fluorescens and P. putida could be seen at 3 and 7 days, respectively, and they had an efficiency of plating of only less than 0.001%. When 10(7) CFU of either of these strains was plated with 10(2) CFU of P. aeruginosa, it did not interfere with the quantitative recovery of P. aeruginosa.     

Selective medium for Pseudomonas aeruginosa that uses 1,10-phenanthroline as the selective agent

The MIC of 1,10-phenanthroline for 35 Pseudomonas aeruginosa strains was 128 micrograms/ml, whereas 32 micrograms or less per ml inhibited all other microorganisms tested. On the basis of these results, a selective agar for P. aeruginosa which contained 15 g of Trypticase soy broth (BBL Microbiology Systems), 15 g of agar, and 0.1 g of phenanthroline per liter was formulated. Forty-four P. aeruginosa strains yielded a mean efficiency of plating on this medium of 79% of the counts obtained on Trypticase soy agar, which was significantly higher than that obtained with pseudomonas isolation agar or Pseudosel agar. Pseudomonas cepacia, Pseudomonas fluorescens, Pseudomonas putida, Pseudomonas stutzeri, representatives of 13 other genera (including gram-negative rods, gram-positive rods, and cocci), and a yeast were not recovered within 48 h at 35 degrees C when approximately 10(7) CFU were plated on this medium. Only small colonies from one strain each of P. fluorescens and P. putida could be seen at 3 and 7 days, respectively, and they had an efficiency of plating of only less than 0.001%. When 10(7) CFU of either of these strains was plated with 10(2) CFU of P. aeruginosa, it did not interfere with the quantitative recovery of P. aeruginosa.     

Experimental use of a new surface acoustic wave sensor for the rapid identification of bacteria and yeasts

AIMS: Use of an electronic nose (zNose(TM)) to discriminate between volatile organic molecules delivered during bacterial/fungal growth on agar and in broth media. METHODS AND RESULTS: Cultures of bacteria (Klebsiella pneumoniae, Pseudomonas aeruginosa, Escherichia coli) and yeasts (two Candida albicans strains) were grown on agar and in broth media and incubated for 24 h at 37 degrees C. Headspace samples from microbial cultures were analysed by the zNose(TM), a fast gas chromatography-surface acoustic wave detector. Olfactory images of volatile production patterns were observed to be different for the various species tested after 24 h. Moreover, some strains (two K. pneumoniae, two C. albicans) did not show changes in volatile production patterns within our species. CONCLUSIONS: Our experiments demonstrate that the electronic nose system can recognize volatile production patterns of pathogens at species level. SIGNIFICANCE AND IMPACT OF THE STUDY: Our results, although preliminary, promise exciting challenges for microbial diagnostics.     

Survival of dehydrated cells of Salmonella typhimurium LT2 at high temperatures

Cells of Salmonella typhimurium LT2 were dehydrated on hydrophobic membranes (Millipore FGLP2500) placed in a controlled atmosphere chamber held at 57% equilibrium relative humidity (ERH) and 37 degrees C. Dehydration for 48 h under the above conditions increased the heat resistance of Salm. typhimurium LT2 when measured as the surviving fraction after a heat challenge of 135 degrees C for 30 min. Results also showed that little or no death occurred during heat challenges of 1 h at temperatures of up to 100 degrees C. The survival of Salm. typhimurium LT2 was measured as the ability to form colonies on solid media tryptone soy broth plus 1.2% agar (TSBA) after 24 h at 37 degrees C. Incorporation of sodium pyruvate, at a concentration of (TSBA) after 24 h at 37 degrees C. Incorporation of sodium pyruvate, at a concentration of 0.2% into the recovery medium, did not enhance the recovery of heated Salm. typhimurium LT2. Dehydrated cells of S. typhimurium LT2 showed a triphasic death curve. Increasing the period of dehydration from 48 h to 34 d, reduced initial numbers due to die off but did not alter the shape of the subsequent survival curve.     

Isolation of Campylobacter spp. from pigeon feces by a combined enrichment-filtration technique

A technique combining enrichment in Preston enrichment broth and direct filtration onto chocolate agar was used to isolate Campylobacter species from pigeon feces. Campylobacter jejuni was isolated from 106 of 200 samples tested; 105 strains were isolated by enrichment-filtration, and 84 strains were isolated by direct plating. Most of the strains grew after 48 h at 37 degrees C.     

Isolation of Campylobacter spp. from pigeon feces by a combined enrichment-filtration technique.

A technique combining enrichment in Preston enrichment broth and direct filtration onto chocolate agar was used to isolate Campylobacter species from pigeon feces. Campylobacter jejuni was isolated from 106 of 200 samples tested; 105 strains were isolated by enrichment-filtration, and 84 strains were isolated by direct plating. Most of the strains grew after 48 h at 37 degrees C.     

Isolation of hydrophobic and hydrophilic variants of Candida albicans

We have previously demonstrated that most isolates of C. albicans are hydrophobic when grown at room temperature (RT, ca. 22-24 degrees C) and hydrophilic when grown at 37 degrees C. Variants of our standard strain LGH1095 were isolated that are hydrophobic at 37 degrees C and hydrophilic at RT. After repeated phase partitioning with cyclohexane-water cell populations that were 6-16% hydrophobic at RT and 66-80% hydrophobic at 37 degrees C were obtained. Subsequent limiting dilution experiments provided clones which were more hydrophobic at RT or hydrophilic at 37 degrees C. These were then recloned until the resultant populations were consistently under 5% cell surface hydrophobicity (CSH) at RT or over 95% at 37 degrees C. Treatment with several detergents as well as sugars did not decrease the CSH of these cells. Lipase and several proteases also had no effect. When treated with trypsin at a concentration twice that used to lower CSH of normal cells to less than 5%, the hydrophobic variant only decreased in CSH by 50%. Both variants were capable of germinating, although at different levels depending on prior growth temperature. Sensitivity to the germination inhibitor morphogenic autoregulatory substance (MARS) was similar to that of the parent strain.     

Synthesis of a selective agar medium for Yersinia enterocolitica

A new agar medium for isolation of Yersinia enterocolitica was formulated based on growth studies which defined an optimum basal, and the evaluation of selective chemical agents, dyes, and antibiotics. The final formulation, designated cefsulodin-irgasan-novobiocin(CIN) agar, provided quantitative recovery of 40 different strains of Y. enterocolitica in 24 h using incubation at 32 degrees C or with 48 h of incubation at 22 degrees C. The medium was highly selective, especially against Pseudomonas aeruginosa. Escherichia coli, Klebsiella pneumoniae, and Proteus mirabilis. Colony morphology coupled with a differential reaction resulting from mannitol fermentation permitted discrimination of Y. enterocolitica from most of those Gram-negative bacteria that were able to grow on the medium. Recovery and selective characteristics of CIN agar were stable during storage at room temperature for 9 days. CIN agar gave a higher recovery of Y. enterocolitica from feces both direct and with cold enrichment (0.4/1.5%) than Salmonella-Shigella (0.0/0.7%) and MacConkey (0.0/0.9%) agars while significantly reducing the level of background organisms.     

Evaluation of a selective enrichment technique for the isolation of Campylobacter pylori

To cultivate Campylobacter pylori from contaminated biopsy specimens, Brucella broth was supplemented with 10% fetal calf serum, 1% Vitox, 1000 units/ml polymyxin B sulfate, 10 micrograms/ml vancomycin, and 2 micrograms/ml amphotericin B. Pseudomonas aeruginosa, Candida albicans, and Enterococcus fecalis were cocultivated with C. pylori. All four strains of C. pylori were recoverable at 24 h. When 21 C. pylori strains were studied in pure culture, 86% grew in the selective enrichment medium. In a clinical study, the selective enrichment technique resulted in isolation of C. pylori from 50% of patient samples, compared with isolation from only 36% of samples with agar cultivation. The selective enrichment technique may be more sensitive than techniques currently employed to isolate C. pylori from gastric tissue.     

Outer Membrane Protein Heterogeneity within Pseudomonas fluorescens and P. putida and Use of an OprF Antibody as a Probe for rRNA Homology Group I Pseudomonads

The electrophoretic patterns of outer membrane proteins of strains representing the biovars of Pseudomonas fluorescens and Pseudomonas putida were analyzed by gel electrophoresis. The outer membrane protein profiles were variable, and they were not useful for assigning strains to a specific biovar. However, three or four predominant outer membrane proteins migrating at 42 to 46 kDa, 33 to 38 kDa, and 20 to 22 kDa were conserved among the strains. They could be tentatively identified as OprE (44 kDa), OprF (38 kDa), OprH (21 kDa), and OprL (20.5 kDa), which are known proteins from Pseudomonas aeruginosa. A 37-kDa OprF-like protein was purified from P. fluorescens DF57 and used to raise a polyclonal antibody. In Western blot (immunoblot) analysis, this antibody reacted with OprF proteins from members of Pseudomonas rRNA homology group I but not with proteins from nonpseudomonads. The heterogeneity in M(infr) of OprF was greater among P. fluorescens strains than among P. putida strains. Immunofluorescence microscopy of intact cells demonstrated that the antibody recognized epitopes that were accessible only after unmasking by EDTA treatment. The antibody was used in a colony blotting assay to determine the percentage of rRNA homology group I pseudomonads among bacteria from the rhizosphere of barley. The bacteria were isolated on 10% tryptic soy agar, King's B agar, and the pseudomonad-specific medium Gould S1 agar. The estimate of OprF-containing CFU in rhizosphere soil obtained by colony blotting on 10% tryptic soy agar was about 2 and 14 times higher than the values obtained from King's agar and Gould S1 agar, respectively, indicating that not all fluorescent pseudomonads are scored on more specific media. The colonies reacting with the OprF antibody were verified as being rRNA homology group I pseudomonads by using the API 20NE system.     

A comparison of media and methods for the recovery of Yersinia enterocolitica and Yersinia enterocolitica-like bacteria from milk containing simulated raw milk microfloras

A number of plating and enrichment media proposed for the isolation of Yersinia enterocolitica from foodstuffs were examined for their ability to recover the type strains of Y. enterocolitica sensu stricto, Y. intermedia, Y. frederiksenii and Y. kristensenii. Nine selective plating media were evaluated for the quantitative recovery of the type strains in pure culture, and their inhibition of other organisms typical of both milk and enteric microfloras. Cefsulodin-irgasan-novobiocin (CIN) agar, incubated for 48 h at 25 degrees C, allowed a high recovery of all the Yersinia spp. and was the most selective medium. The same four type strains were added to UHT milk that had been previously inoculated with bacteria to simulate either freshly drawn or cold stored milk microfloras. Twenty-six enrichment procedures (including cold enrichment, selective enrichment at higher temperatures, two-step procedures and a post-enrichment alkali treatment) were assessed for the efficiency of recovery of the Yersinia spp. Pre-enrichment in trypticase-soy broth (TSB) for 24 h at 22 degrees C followed by selective enrichment in bile-oxalate-sorbose (BOS) medium for 5 d at 22 degrees C and plating on CIN agar (48 h at 25 degrees C) allowed the greatest increase in the numbers of Yersinia spp. and maximum inhibition of the competing microflora.     

Growth Conditions Influence Expression of Cell Surface Hydrophobicity of Staphylococci and Other Wound Infection Pathogens

The initial adhesion of microbes to tissue and solid surfaces can be mediated by hydrophobic interaction. Expression of microbial cell surface hydrophobicity (CSH) is influenced by growth conditions, and often best expressed after growth under nutrient-poor conditions, or “starvation.” In the present study, the CSH of 133 strains of Enterobacteriaceae, Staphylococcus aureus, coagulase-negative staphylococci, Enterococcus faecalis, group A streptococcus, Pseudomonas aeruginosa, Clostridium perfringens, Bacteroides fragilis, Peptococcus magnus, and of 8 Candida albicans strains was measured by the salt aggregation test after growth on hematin agar in a 5% CO₂ atmosphere, or under anaerobiosis. Cells of all but 8 strains expressed pronounced or moderate CSH, i.e., they aggregated in 0.01-2 M ammonium sulfate. When the agar surface was covered by human serum (diluted 1:5) to mimic growth conditions in a wound, 94 strains expressed higher CSH, and 44 strains the same CSH as after growth without serum. The CSH of 12 strains of different species was measured after growth on blood, hematin and PDM agar, with or without serum, and in an aerobic or a 5% CO₂ atmosphere. The highest CSH was expressed after growth in 5% CO₂ with serum, and the lowest growth after on blood agar in aerobic atmosphere. Identical results were obtained with native and heat-inactivated (56 C, 20 min) serum. The reduced surface tension obtained in 5% CO₂, as well as yet unidentified serum factors, promotes expression of CSH.     

Comparative study of selective media for enumeration of Pseudomonas aeruginosa from water by membrane filtration

In the present study, mPA-D and mPA-E agar, modifications of mPA-C agar that reduce background fecal streptococci that interfere with the differentiation and enumeration of the Pseudomonas aeruginosa colonies grown in other mPA media, are proposed for use in analyzing natural water samples. In addition, the efficiencies of several culture media for the recovery of P. aeruginosa in water after membrane filtration and multiple-tube techniques are compared. The degree of selectivity, precision, efficiency, and sensitivity achieved with the proposed media exceeded that achieved by current methods. Furthermore, they yielded equal rates of accuracy and specificity. Incubation at 36 degrees C resulted in an improved recovery of stressed P. aeruginosa. In conclusion, we propose the use of mPA-D and mPA-E agar, both incubated at 36 degrees C for 24 to 48 h, for analyzing river water and seawater, respectively.     

Comparative study of selective media for enumeration of Pseudomonas aeruginosa from water by membrane filtration.

In the present study, mPA-D and mPA-E agar, modifications of mPA-C agar that reduce background fecal streptococci that interfere with the differentiation and enumeration of the Pseudomonas aeruginosa colonies grown in other mPA media, are proposed for use in analyzing natural water samples. In addition, the efficiencies of several culture media for the recovery of P. aeruginosa in water after membrane filtration and multiple-tube techniques are compared. The degree of selectivity, precision, efficiency, and sensitivity achieved with the proposed media exceeded that achieved by current methods. Furthermore, they yielded equal rates of accuracy and specificity. Incubation at 36 degrees C resulted in an improved recovery of stressed P. aeruginosa. In conclusion, we propose the use of mPA-D and mPA-E agar, both incubated at 36 degrees C for 24 to 48 h, for analyzing river water and seawater, respectively.     

Temporal association of entomopathogenic nematodes (Rhabditida: Steinernematidae and Heterorhabditidae) and bacteria

Galleria mellonella L. larvae were infected with three species (seven strains) of Steinernema spp. or three species (three strains) of Heterorhabditis spp. Infected larvae were incubated at 22, 27, and 32 degrees C. Larvae were dorsally dissected every 6h over a 48-h period. Hemolymph was collected and streaked on tryptic soy agar plates. Several non-symbiotic bacterial species were identified from infected insect cadavers: Enterobacter gergoviae, Vibrio spp., Pseudomonas fluorescens type C, Serratia marcescens, Citrobacter freundii, and Serratia proteomaculans. At 18-24 h incubation, the nematode-associated symbiont occurred almost exclusively. Bacterial associates generally appeared outside the 18-24 h window. Infective juveniles of Steinernema feltiae (Filipjev) (27), Steinernema riobrave Cabanillas, Poinar, and Raulston (Oscar), or Steinernema carpocapsae (Weiser) (Kapow) were left untreated, or surface sterilized using thimerosal, then pipetted under sterile conditions onto tryptic soy agar plates. Several additional species of associated bacteria were identified using this method compared with the less extensive range of species isolated from infected G. mellonella. There was no difference in bacterial species identified from non-sterile or surface sterilized nematodes, suggesting that the bacteria identified originated from either inside the nematode or between second and third stage juvenile cuticles. Infective juveniles of S. feltiae (Cowles), S. carpocapsae (Cowles), and H. bacteriophora Poinar (Cowles) were isolated from field samples. Nematodes were surface-sterilized using sodium hypochlorite, mixed with G. mellonella hemolymph, and pipetted onto Biolog BUG (with blood) agar. Only the relevant symbionts were isolated from the limited number of samples available. The nematodes were then cultured in the laboratory for 14 months (sub-cultured in G. mellonella 7-times). Other Enterobacteriaceae could then be isolated from the steinernematid nematodes including S. marcescens, Salmonella sp., and E. gergoviae, indicating the ability of the nematodes to associate with other bacteria in laboratory culture.