Effect of iron concentration in the growth medium on the sensitivity of Pseudomonas aeruginosa to pyocin S2

The iron concentration in the growth medium was found to affect the susceptibility of Pseudomonas aeruginosa PML1550 to pyocin S2, a bacteriocin. The efficiency of killing by pyocin S2 was very low when the indicator cells were grown in an iron-rich medium. The capacity of these cells to adsorb pyocin S2 was reduced. Cultivation under limitation of iron (1 microM or less) was necessary to produce a fully sensitive cell population. The growth under iron limitation was accompanied by the appearance of four protein components in the outer membrane of the cells. Nine mutants resistant to pyocin S2 were isolated and their outer membranes were analyzed. They all lacked one component (Fe-b protein) as well as the adsorption capacity for pyocin S2. These findings suggest a possible role of this protein as the receptor for pyocin S2.     

Epidemiology of Pseudomonas aeruginosa infections investigated by pyocin typing.

All strains of Pseudomonas aeruginosa isolated in a large Canadian hospital over a 3-year period were typed by their pyocin production. Smaller collections of P. aeruginosa from other hospitals were also typed. Almost 3000 strains were examined. The typing method did not require use of complex reagents and was successful in subdividing P. aeruginosa into numerous types. No single type was restricted to infections of one particular kind. Infections of all kinds were associated with a wide variety of pyocin types. Extensive crossinfection with one particular pyocin type was observed only in urinary infection of patients with urologic disorders. The four pyocin types that were most frequent in our entire series have been reported as the commonest types causing infections in many other parts of the world.     

Purification of the pyocin S2 complex from Pseudomonas aeruginosa PAO1: analysis of DNase activity

Pyocin S2 purified from mitomycin C-induced lysates of Pseudomonas aeruginosa strain PAO1 has been shown to consist of a complex of two proteins. Further analysis of the purified S2 complex revealed that the 74 kd S2 pyocin demonstrates DNase activity which can be blocked by S2-specific antisera. Chromosomal DNA from pyocin sensitive cells treated with the pyocin S2 complex in vitro did not show any degradation, suggesting that the 10 kd protein inhibits the DNase activity of the S2 protein. These results suggest an alternative mechanism for the toxicity associated with the S2 pyocin.     

Cytotoxic effects of digalloyl dimer procyanidins in human cancer cell lines

Flavanols, a class of polyphenols present in certain plant-based foods, have received increasing attention for their putative anticancer activity. In vitro and in vivo studies, which have compared the effectiveness of various monomer flavanols, indicate that the presence of a galloyl residue on the 3 position on the C-ring enhances the cytotoxicity of these compounds. Procyanidins, oligomerized flavanols, have been reported to be more cytotoxic than monomer flavanols in a variety of human cancer cell lines. Given the above, we evaluated the potential anticancer properties of dimer procyanidins that contain galloyl groups. Specifically, the cytotoxicity of synthetic digalloyl dimer B1 and B2 esters {[3-O-galloyl]-(−)-epicatechin-(4β,8)-(+)-catechin-3-O-gallate (DGB1) and [3-O-galloyl]-(−)-epicatechin-(4β,8)-(+)-epicatechin-3-O-gallate (DGB2), respectively} were tested in a number of in vitro models. DGB1 produced significant cytotoxicity in a number of human cancer cell lines evaluated by three independent methods: ATP content, MTT and MTS assays. For the three most sensitive cell lines, exposure to DGB1 and DGB2 for 24, 48 or 72 h was associated with a reduction in cell number and an inhibition of cell proliferation. Digalloyl dimers exerted significantly higher cytotoxic effects than the structurally related flavanols, (−)-epicatechin, (+)-catechin, (−)-epicatechin gallate, (−)-epigallocatechin gallate, (−)-catechin gallate and dimer B1 and B2. These results support the concept that the incorporation of galloyl groups and the oligomerization of flavanols enhances the cytotoxic effects of typical monomer flavanols. The therapeutic value of these compounds and their derivative forms as anticancer agents merits further investigation in whole animal models.     

Influence of nutrient media on the characteristics of the exopolysaccharide produced by three mucoid Pseudomonas aeruginosa strains

Mucoid strains of Pseudomonas aeruginosa of the 'gelatinous' (strain PM1) and 'mucoid' (strains PM3 and PM11) types (Wahba and Darrell, 1965), from cystic fibrosis patients were grown on different nutrient media, in liquid and on solid matrix, and their ability to synthesize uronic acid-containing exopolysaccharide of varying molecular sizes was assessed. Strain PM1 produced the exopolysaccharide in all liquid media tested. However, the exopolysaccharide was always polydispersed when citrate was present but monodispersed and of high molecular weight (HMW) in its absence. Strain PM1 also formed non-mucoid colonies on some solid media and on those media no exopolysaccharide was produced. On media, on which the organism was always mucoid monodispersed, HMW exopolysaccharide was recovered. Strains PM3 and PM1 produced monodispersed, HMW exopolysaccharide in liquid MacConkey's and V-8 media, but polydispersed or no exopolysaccharide in ll other liquid media tested. On MacConkey's agar these strains were mucoid initially but appeared non-mucoid as the cultures aged. This colonial change was accompanied by a quantitative and qualitative change in the exopolysaccharide. In media on which these strains produced only non-mucoid colonies little or no exopolysaccharide was recovered. Crude enzyme preparations from all three strains indicate that enzyme(s) capable of depolymerizing the indigenous exopolysaccharide exist in each organism.     

Effect of selenium on the growth of three human colon cancer cell lines

The effects of selenium were investigated on three human colon cancer cell lines: Caco 2, HRT 18, and HT 29. At low concentrations (10-100 nM), selenium stimulated cell growth in serum-free medium. Thus, selenium is an essential trace element for cell proliferation. At higher concentrations, selenium inhibited cell growth. The rate of 75Se uptake was the same in all of the cell lines studied, but the quantity incorporated differed. GSH-Px activity was dependent on the selenium content of the medium. DNA and protein synthesis paralleled the growth curve. Comparison with the curve of viability revealed that selenium inhibited cell growth in two ways: by inhibiting DNA synthesis, without affecting cell viability, and, at higher doses, by cytotoxicity.     

Rhamnolipid produced by Pseudomonas aeruginosa USM-AR2 facilitates crude oil distillation

A biosurfactant-producing and hydrocarbon-utilizing bacterium, Pseudomonas aeruginosa USM-AR2, was used to assist conventional distillation. Batch cultivation in a bioreactor gave a biomass of 9.4 g L(-1) and rhamnolipid concentration of 2.4 g L(-1) achieved after 72 h. Biosurfactant activity (rhamnolipid) was detected by the orcinol assay, emulsification index and drop collapse test. Pretreatment of crude oil TK-1 and AG-2 with a culture of P. aeruginosa USM-AR2 that contains rhamnolipid was proven to facilitate the distillation process by reducing the duration without reducing the quality of petroleum distillate. It showed a potential in reducing the duration of the distillation process, with at least 2- to 3-fold decreases in distillation time. This is supported by GC-MS analysis of the distillate where there was no difference between compounds detected in distillate obtained from treated or untreated crude oil. Calorimetric tests showed the calorie value of the distillate remained the same with or without treatment. These two factors confirmed that the quality of the distillate was not compromised and the incubation process by the microbial culture did not over-degrade the oil. The rhamnolipid produced by this culture was the main factor that enhanced the distillation performance, which is related to the emulsification of hydrocarbon chains in the crude oil. This biotreatment may play an important role to improve the existing conventional refinery and distillation process. Reducing the distillation times by pretreating the crude oil with a natural biosynthetic product translates to energy and cost savings in producing petroleum products.     

Genetic determinant of pyocin R2 in Pseudomonas aeruginosa PAO. I. Localization of the pyocin R2 gene cluster between the trpCD and trpE genes

Thirty-seven mutants defective in pyocin R2 production in the P. aeruginosa PAO strain were subjected to fine mapping of pyocin R2 genes by transduction with phage F116L. Sixteen complementation groups (designated prtA through prtP) involved in pyocin R2 production were tentatively identified by complementation tests using phage F116L. Their linkages to trpC and trpE markers and fine mapping by three point crosses demonstrated that most of the mutations (prtA through prtN) were located in between trpC and trpE, and that the prtP mutation was localized outside this major prt cluster but in the proximity of the rifA and strA region.     

Phenotypic mixing of pyocin R2 and bacteriophage PS17 in Pseudomonas aeruginosa PAO.

Previous results indicate that a group of bacteriocins in Pseudomonas aeruginosa, named R-type pyocins, have a structure resembling bacteriophage tails and share some serological homology with certain bacteriophages. This paper presents genetic evidence which strongly suggests that components of pyocin R2, an R-type pyocin of P. aeruginosa PAO, and tail components of bacteriophage PS17 are interchangeable. Complementation tests with pyocin R2-deficient mutants of PAO and ts mutants of PS17 revealed that various phenotypic interactions occur between the pyocin and bacteriophage in PAO cells lysogenized or infected with PS17. (i) Certain pyocin R2-deficient mutations were phenotypically suppressed in cells carrying PS17 prophage. (ii) A temperature-sensitive mutant of PS17, tsQ31, was phenotypically suppressed in PAO cells treated with mitomycin C. (iii) Phenotypically mixed phages with receptor and serological specificities of pyocin R2 were formed in PS17 lysogens of certain pyocin R2-deficient mutants.     

Dansyl chloride labeling of Pseudomonas aeruginosa treated with pyocin R1: change in permeability of the cell envelope

Pyocin R1, a bacteriocin of Pseudomonas aeruginosa, caused an increase in binding of fluorescent label, 1-dimethylaminonaphthalene-5-sulfonyl chloride (dansyl chloride), to sensitive cells. In pyocin R1-treated cells, cytoplasmic soluble proteins and crude ribosomes as well as cell envelopes were labeled by dansyl chloride. The amount of bound dye was proportional to the multiplicity of pyocin R1 and reached a maximal level at high multiplicity. In addition, pyocin R1 rapidly caused an increase in fluorescence intensity of the hydrophobic probes N-phenyl-1-naphthylamine, pyrene, and perylene, which were mixed with cells. These results show that pyocin R1 damages locally a cell envelope barrier to hydrophobic solutes and allows dyes to penetrate into the intracellular space across the barrier.     

Effect of pyocin R1 on the glucose metabolism of sensitive cells of Pseudomonas aeruginosa.

The effect of pyocin R1 on the glucose metabolism of sensitive Pseudomonas cells was investigated. Upon treatment with pyocin R1, although the rate of O2 uptake of the sensitive cells for glucose or gluconate was not very much affected at first, the final level of O2 uptake was greatly reduced. When 2-oxogluconate was used as a substrate, O2 uptake was immediately halted by pyocin. By determining the amounts of glucose, gluconate, and 2-oxogluconate before and after the reaction and the amount of O2 consumed, it was concluded that glucose was exclusively metabolized via the following pathway with quantitative accumulation of 2-oxogluconate after pyocin treatment. (Formula: see text). The possible mechanism of this change is discussed.     

Macrophage colony-stimulating activity is produced by three different EBV-transformed lymphoblastoid cell lines

The lymphoblastoid cell lines BLY 9.84, Gl, and Pl constitutively release a colony-stimulating activity (CSA) which specifically stimulates murine macrophage progenitor cells in vitro. The biochemical characterization of BLY 9.84-derived CSA exhibits a molecular size of apparently 150-200 kDa even under dissociating conditions with 6 M guanidine hydrochloride or inhibition of glycosylation. Production of this CSA is inhibited by cycloheximide and its activity is destroyed by reduction with dithiothreitol. Replating experiments give evidence for a functional similarity with CSF-1 (macrophage colony-stimulating factor).     

Cytotoxic effects of C-glycosides in HOS and HeLa cell lines

Fifty-two C-glycosides were synthesized and their in-vitro antiproliferative activity screened against human cervical carcinoma (HeLa) and osteosarcoma (HOS) cell lines. Nine of them had growth inhibitions (GI(50) values) below 10 microM, the C-glucopyranoside 38 being the most active against HeLa (5.4 microM) and the dichlorocyclopropyl derivative 42 against HOS (1.6 microM). Some preliminary structure-activity relationships were established.     

Differential effects of human blood monocytes on the growth of human tumour cell lines in vitro

Summary Monocytes and macrophages have been shown to be cytotoxic towards tumour cells in vitro. However, although tumour-associated monocytes and macrophages are now widely accepted to contribute a relatively high proportion of the cellular infiltrate of experimental and human solid carcinomas, a cytotoxic/cytostatic effector function for these cells in vitro or in vivo has yet to be conclusively demonstrated. In the present study, we show that non-activated peripheral blood monocytes co-cultured with tumour cells across a semi-permeable membrane release soluble factors that modulate the growth of tumour cells in contrasting ways. After Nycoprep 1.068 separation, non-activated peripheral blood monocytes enhanced the in vitro proliferation of HT29 colon adenocarcinoma cells but inhibited T47D breast carcinoma cell replication; peripheral blood lymphocytes were incapable of mediating these effects. In contrast, peripheral blood monocytes activated by interferon caused a pronounced inhibition of both HT29 and T47D cell proliferation.