Gastric mucosal cytokine responses in Helicobacter pylori-infected patients with gastritis and peptic ulcers. Association with inflammatory parameters and bacteria load

Helicobacter pylori is an important pathogen in gastroduodenal inflammation and ulceration. Several mechanisms have been proposed to explain its role. We studied the cytokine production patterns in situ in gastric mucosal biopsies from H. pylori-positive and H. pylori-negative patients with dyspepsia. Immunohistochemistry with monoclonal antibodies was used. The study showed enhanced expression of interleukin (IL) -8, IL-10 and interferon-gamma (IFN-gamma) in H. pylori infection and a significant association was found between these cytokines and the following parameters: bacteria load, chronic inflammation and activity. These parameters were significantly correlated with the cell markers CD19 and CD56. The study indicates a dual effect of H. pylori on the Th1 response, i.e. a stimulation of the response verified by increased IFN-gamma and a feed-back verified by an increase of the counterinflammatory IL-10, which may dampen the inflammatory and cytotoxic effect of the Th1 response. Furthermore, the study confirms the connection between increase of IL-8 and inflammatory activity in gastric mucosa in H. pylori infection.     

Application of 5'-nuclease PCR for quantitative detection of Listeria monocytogenes in pure cultures, water, skim milk, and unpasteurized whole milk

PCR techniques have significantly improved the detection and identification of bacterial pathogens. Countless adaptations and applications have been described, including quantitative PCR and the latest innovation, real-time PCR. In real-time PCR, e.g., the 5'-nuclease chemistry renders the automated and direct detection and quantification of PCR products possible (P. M. Holland et al., Proc. Natl. Acad. Sci. USA 88:7276-7280, 1991). We present an assay for the quantitative detection of Listeria monocytogenes based on the 5'-nuclease PCR using a 113-bp amplicon from the listeriolysin O gene (hlyA) as the target. The assay was positive for all isolates of L. monocytogenes tested (65 isolates including the type strain) and negative for all other Listeria strains (16 isolates from five species tested) and several other bacteria (18 species tested). The application of 5'-nuclease PCR in diagnostics requires a quantitative sample preparation step. Several magnetic bead-based strategies were evaluated, since these systems are simple and relatively easy to automate. The combination of nonspecific binding of bacteria to paramagnetic beads, with subsequent DNA purification by use of the same beads, gave the most satisfactory result. The detection limit was approximately 6 to 60 CFU, quantification was linear over at least 7 log units, and the method could be completed within 3 h. In conclusion, a complete quantitative method for L. monocytogenes in water and in skimmed and raw milk was developed.     

Application of 5′-Nuclease PCR for Quantitative Detection of Listeria monocytogenes in Pure Cultures, Water, Skim Milk, and Unpasteurized Whole Milk

PCR techniques have significantly improved the detection and identification of bacterial pathogens. Countless adaptations and applications have been described, including quantitative PCR and the latest innovation, real-time PCR. In real-time PCR, e.g., the 5′-nuclease chemistry renders the automated and direct detection and quantification of PCR products possible (P. M. Holland et al., Proc. Natl. Acad. Sci. USA 88:7276–7280, 1991). We present an assay for the quantitative detection of Listeria monocytogenes based on the 5′-nuclease PCR using a 113-bp amplicon from the listeriolysin O gene (hlyA) as the target. The assay was positive for all isolates of L. monocytogenes tested (65 isolates including the type strain) and negative for all other Listeria strains (16 isolates from five species tested) and several other bacteria (18 species tested). The application of 5′-nuclease PCR in diagnostics requires a quantitative sample preparation step. Several magnetic bead-based strategies were evaluated, since these systems are simple and relatively easy to automate. The combination of nonspecific binding of bacteria to paramagnetic beads, with subsequent DNA purification by use of the same beads, gave the most satisfactory result. The detection limit was approximately 6 to 60 CFU, quantification was linear over at least 7 log units, and the method could be completed within 3 h. In conclusion, a complete quantitative method for L. monocytogenes in water and in skimmed and raw milk was developed.     

High stability of Stx2 phage in food and under food-processing conditions

Bacteriophages (phages) carrying Shiga toxin genes constitute a major virulence attribute in enterohemorrhagic Escherichia coli (EHEC). Several EHEC outbreaks have been linked to food. The survival of such strains in different foods has received much attention, while the fate of the mobile Shiga toxin-converting phages (Stx phages) has been less studied. We have investigated the stability of an Stx phage in several food products and examined how storage, food processing, and disinfection influence the infectivity of phage particles. The study involved a recombinant Stx phage (Δstx::cat) of an E. coli O103:H25 strain from a Norwegian outbreak in 2006. Temperature, matrix, and time were factors of major importance for the stability of phage particles. Phages stored at cooling temperatures (4°C) showed a dramatic reduction in stability compared to those stored at room temperature. The importance of the matrix was evident at higher temperatures (60°C). Phages in ground beef were below the detection level when heated to 60°C for more than 10 min, while phages in broth exposed to the same heating conditions showed a 5-log-higher stability. The phages tolerated desiccation poorly but were infective for a substantial period of time in solutions. Under moist conditions, they also had a high ability to tolerate exposure to several disinfectants. In a dry-fermented sausage model, phages were shown to infect E. coli in situ. The results show that Stx phage particles can maintain their infectivity in foods and under food-processing conditions.     

Affinity of protein HU for different nucleic acids

The binding of protein HU from Escherichia coli to nucleic acids was investigated by affinity chromatography under various conditions, by a nitrocellulose retention assay and by isopycnic centrifugations in metrizamide gradients. The results indicate that HU has a preference for binding to RNA and single-stranded DNA over double-stranded DNA. The affinity of HU for supercoiled DNA was also less than that of the corresponding relaxed DNA.     

Use of Ethidium Monoazide and PCR in Combination for Quantification of Viable and Dead Cells in Complex Samples

The distinction between viable and dead cells is a major issue in many aspects of biological research. The current technologies for determining viable versus dead cells cannot readily be used for quantitative differentiation of specific cells in mixed populations. This is a serious limitation. We have solved this problem by developing a new concept with the viable/dead stain ethidium monoazide (EMA) in combination with real-time PCR (EMA-PCR). A dynamic range of approximately 4 log₁₀ was obtained for the EMA-PCR viable/dead assay. Viable/dead differentiation is obtained by covalent binding of EMA to DNA in dead cells by photoactivation. EMA penetrates only dead cells with compromised membrane/cell wall systems. DNA covalently bound to EMA cannot be PCR amplified. Thus, only DNA from viable cells can be detected. We evaluated EMA-PCR with the major food-borne bacterium Campylobacter jejuni as an example. Traditional diagnosis of this bacterium is very difficult due to its specific growth requirements and because it may enter a state where it is viable but not cultivable. The conditions analyzed included detection in mixed and natural samples, survival in food, and survival after disinfection or antibiotic treatment. We obtained reliable viable/dead quantifications for all conditions tested. Comparison with standard fluorescence-based viable/dead techniques showed that the EMA-PCR has a broader dynamic range and enables quantification in mixed and complex samples. In conclusion, EMA-PCR offers a novel real-time PCR method for quantitative distinction between viable and dead cells with potentially very wide application.     

Bacterial resistance to disinfectants containing quaternary ammonium compounds

Quaternary ammonium compounds (QAC) are widely used as disinfectants in both medical and food environments. Microbial contaminants are, therefore, regularly exposed to their action and the isolation from clinical and food sources of resistant bacteria continues to be reported in many countries. Resistance to QAC in clinical strains of staphylococci is encoded by one of at least three resistance genes, designated qacA, qacB and qacC. Using hybridisation analysis, we have shown that these QAC resistance genes are also distributed among staphylococcal strains in the food industry. In addition, we have discovered two new resistance determinants in these food isolates, which are now being characterised and sequenced. Although the general level of resistance of pure cultures is low, the resistant strains have originally been isolated after exposure to the recommended user concentration of a commercial brand of QAC.We have also studied resistance to QAC in pseudomonads isolated from the food industry. Their level of resistance is much higher than that found in staphylococci. About 30% of the collected strains were able to grow in 200 μg·ml⁻¹ benzalkonium chloride, the lowest recommended use concentration for this commonly used type of QAC.     

Characterization, Production, and Purification of Leucocin H, a Two-Peptide Bacteriocin from Leuconostoc MF215B

Leuconostoc MF215B was found to produce a two-peptide bacteriocin referred to as leucocin H. The two peptides were termed leucocin Hα and leucocin Hβ. When acting together, they inhibit, among others, Listeria monocytogenes, Bacillus cereus, and Clostridium perfringens. Production of leucocin H in growth medium takes place at temperatures down to 6°C and at pH below 7. The highest activity of leucocin H in growth medium was demonstrated in the late exponential growth phase. The bacteriocin was purified by precipitation with ammonium sulfate, ion-exchange (SP Sepharose) and reverse phase chromatography. Upon purification, specific activity increased 10⁵-fold, and the final specific activity was 2 × 10⁷ BU/OD₂₈₀. Amino acid composition analyses of leucocin Hα and leucocin Hβ indicated that both peptides consisted of around 40 amino acid residues. Their N-termini were blocked for Edman degradation, and the methionin residues of leucocin Hβ did not respond to Cyanogen Bromide (CNBr) cleavage. Absorbance at 280 nm indicated the presence of tryptophan residues and tryptophan-fracturing opened for partial sequencing by Edman degradation. From leucocin Hα, the sequence of 20 amino acids was obtained; from leucocin Hβ the sequence of 28 amino acid residues was obtained. No sequence homology to other known bacteriocins could be demonstrated. It also appeared that the two peptides themselves shared little or no sequence homology. The presence of soy oil did not affect the activity of leucocin H in agar. Received: 10 February 1999 / Accepted: 15 March 1999