Effect of benzylpenicillin on the viability and osmotic sensitivity of Listeria monocytogenes

L.-J. CHEN, J. WANG AND R.E. LEVIN. 1996. Growth in the presence of 100 ppm benzylpenicillin (BP) for 2 h failed to result in a detectable reduction in cfu. Cells grown and incubated for 24 h in 0, 1, 10 and 100 ppm BP underwent reductions in cfu of 0%, 0%, 90% and 99% respectively of maximum cfu values.     

Effects of benzylpenicillin on glucose utilization, macromolecule synthesis and cell wall proteins of Listeria monocytogenes

L.-J. CHEN, J. WANG AND R.E. LEVIN. 1996. When growing cells were incubated in the presence of 100 ppm benzylpenicillin (BP) for 30 min and then harvested for metabolic studies, the initial rate of glucose utilization by resting cells was reduced by 19.6% compared to control cells, whereas the rates of protein, DNA and RNA synthesis were reduced by 40.7%, 55.0% and 87.5% respectively. Growth in the presence of 100 ppm BP for 2 h was found to result in a marked depletion of cell wall proteins.     

Primary structure of colicin M, an inhibitor of murein biosynthesis.

The DNA sequence of the colicin M activity gene cma was determined. A polypeptide consisting of 271 amino acids was deduced from the nucleotide sequence. The amino acid sequence agreed with the peptide sequences determined from the isolated colicin. The molecular weight of active colicin M was 29,453. The primary translation product was not processed. In the domain required for uptake into cells, colicin M contained the pentapeptide Glu-Thr-Leu-Thr-Val. A similar sequence was found in all colicins which are taken up by a TonB-dependent mechanism and in outer membrane receptor proteins which are constituents of TonB-dependent transport systems. The structure of colicin M in the carboxy-terminal activity domain had no resemblance to the pore-forming colicins or colicins with endonuclease activity. Instead, the activity domain contained a sequence which exhibited homology to the sequence around the serine residue in the active site of penicillin-binding proteins of Escherichia coli. The colicin M activity gene was regulated from an SOS box upstream of the adjacent colicin B activity gene on the natural plasmid pColBM-Cl139.     

Interactions between Listeria monocytogenes and host mammalian cells

Bacterial pathogens have developed a variety of strategies to induce their own internalization into mammalian cells which are normally nonphagocytic. The Gram-positive bacterium Listeria monocytogenes enters into many cultured cell types using two bacterial surface proteins, InlA (internalin) and InlB. In both cases, entry takes place after engagement of a receptor and induction of a series of signaling events.     

Monoclonal antibody specific for Listeria monocytogenes, Listeria innocua, and Listeria welshimeri

Eight hundred fifty-nine murine hybridomas were produced from eight fusions, and 27 were characterized for secretion of antibodies reactive to Listeria monocytogenes. One monoclonal antibody (MAb), P5C9, reacted with all test strains of L. monocytogenes (31 of 31), L. innocua (3 of 3), and L. welshimeri (1 of 1) but not with any strains of the other four Listeria species or with any of 22 gram-positive or 11 gram-negative species of bacteria when tested in microtiter and dot blot enzyme immunoassays. Of the other 26 antibodies, 20 reacted with either L. monocytogenes Scott A or V7 and with some or all of the other six Listeria species but also cross-reacted with some or all of the non-Listeria bacteria tested. MAb P5C9 is of the immunoglobulin G1 murine subclass. In Western blot (immunoblot) analyses, this MAb reacted with a single antigen with a molecular weight of 18,500, and it is shared in common with all three reactive species, L. monocytogenes, L. innocua, and L. welshimeri. This antigen was extracted with detergent and appeared to be cell bound.     

Anchor structure of cell wall surface proteins in Listeria monocytogenes

Many surface proteins of Gram-positive bacteria are anchored to the cell wall by a mechanism requiring a COOH-terminal sorting signal with a conserved LPXTG motif. In Staphylococcus aureus, surface proteins are cleaved between the threonine and the glycine of the LPXTG motif. The carboxyl of threonine is subsequently amide linked to the amino group of the pentaglycine cell wall crossbridge. Here we investigated the anchor structure of surface proteins in Listeria monocytogenes. A methionine and six histidines (MH(6)) were inserted upstream of the LPXTG motif of internalin A (InlA), a cell-wall-anchored surface protein of L. monocytogenes. The engineered protein InlA-MH(6)-Cws was found anchored in the bacterial cell wall. After peptidoglycan digestion with phage endolysin, InlA-MH(6)-Cws was purified by affinity chromatography. COOH-terminal peptides of InlA-MH(6)-Cws were obtained by cyanogen bromide cleavage followed by purification on a nickel-nitriloacetic acid column. Analysis of COOH-terminal peptides with Edman degradation and mass spectrometry revealed an amide linkage between the threonine of the cleaved LPXTG motif and the amino group of the m-diaminopimelic acid crossbridge within the listerial peptidoglycan. These results reveal that the cell wall anchoring of surface proteins in Gram-positive bacteria such as S. aureus and L. monocytogenes occurs by a universal mechanism.     

Effect of enterocin CCM 4231 on Listeria monocytogenes in Saint-Paulin cheese

The bacteriocin production byEnterococcus faecium strain in cheese milk and cheese was demonstrated. Purified enterocin CCM 4231 exhibited an anti-listerial effect during Saint-Paulin cheese manufacture. During cheese production the strain grew to a final concentration of 10.1±0.01 log CFU per mL per g in cheese. Then only a slight decrease of the cell concentration was noticed during ripening and was almost stable for 8 weeks. No significant differences in pH were observed between the experimental and reference cheeses. Bacteriocin production during cheese manufacture was detected only in milk samples and curd, reaching a level of 100 AU/mL. After addition of purified enterocin CCM 4231 (concentration 3200 AU/mL) into the experimental cheese, the initial concentration of 6.7±0.06 log CFU per mL ofListeria monocytogenes Ohio was reduced up to 1.9±0.01 log CFU per mL per g. After 6 weeks and at the end of the experiment the difference of surviving cells ofL. monocytogenes Ohio in ECH was only one or 0.7 log cycle compared to the control cheese. Although enterocin CCM 4231 partially inhibitedL. monocytogenes in Saint-Paulin cheese manufacture, an inhibitory effect of enterocin added was shown in 1-week cheese; however, it was not possible to detect bacteriocin activity by the agar spot test. The traditional fermentation and ripening process was not disturbed, resulting in acceptable end-products, including sensory aspects.     

Effect of tempering on the heat resistance of Listeria monocytogenes

Cultures of Listeria monocytogenes were preheated at 48°C for 1 h in broth and UHT milk before heating at 60°C. Preheating resulted in a marked increase in heat resistance compared with untreated controls.     

Effect of temperature, sodium chloride, and pH on growth of Listeria monocytogenes in cabbage juice

Human illness and death have resulted from the consumption of milk, cheese, and cole slaw contaminated with Listeria monocytogenes. Since the effects of temperature, NaCl, and pH on the growth of the organism in cabbage were unknown, a series of experiments was designed to investigate these factors. Two strains (LCDC 81-861 and Scott A, both serotype 4b) were examined. At 30 degrees C, the viable population of the LCDC 81-861 strain increased in sterile unclarified cabbage juice (CJ) containing 0 to 1.5% NaCl; a decrease in the population of both strains occurred in juice containing greater than or equal to 2% NaCl. At 5 degrees C, the population of the Scott A strain in CJ containing up to 5% NaCl was reduced by about 90% over a 70-day period; the LCDC 81-861 strain was more sensitive to refrigeration but remained viable in CJ containing less than or equal to 3.5% NaCl for 70 days. Growth in CJ at 30 degrees C resulted in a decrease in pH from 5.6 to 4.1 within 8 days. Death of L. monocytogenes occurred at 30 degrees C when the organism was inoculated into sterile CJ adjusted to pH less than or equal to 4.6 with lactic acid. No viable cells were detected after 3 days at pH less than or equal to 4.2. At 5 degrees C, the rate of death at pH less than or equal to 4.8 was slower than at 30 degrees C.(ABSTRACT TRUNCATED AT 250 WORDS)     

Differentiation of Listeria monocytogenes, Listeria innocua, Listeria ivanovii, and Listeria seeligeri by pulsed-field gel electrophoresis.

Clamped homogeneous electric field analysis of Listeria DNA with ApaI, AscI, SmaI, or NotI revealed species- and serotype-specific differences in genomic fingerprints. Clamped homogeneous electric field analysis may prove useful, therefore, in epidemiologic studies. Also, the summation of individually sized AscI fragments of genomic DNA from L. monocytogenes serotype 4b 101M and Scott A indicated genome lengths of 2,925 and 3,046 kb, respectively.     

Antibiotic resistance among Listeria, including Listeria monocytogenes, in retail foods

AIMS: In the past eight to 10 years, reports of antibiotic resistance in food-borne isolates in many countries have increased, and this work examined the susceptibility of 1001 food isolates of Listeria species. METHODS AND RESULTS: Susceptibility/resistance to eight antibiotics was determined using the Bauer-Kirby disc diffusion assay, and 10.9% of the isolates examined displayed resistance to one or more antibiotics. Resistance to one or more antibiotics was exhibited in 0.6% of Listeria monocytogenes isolates compared with 19.5% of Listeria innocua isolates. Resistance was not observed in Listeria seeligeri or Listeria welshimeri. Resistance to tetracycline (6.7%) and penicillin (3.7%) was the most frequently observed, and while resistance to one antibiotic was most common (9.1%), isolates resistant to two or more antibiotics (1.8%) were also observed. CONCLUSION: While resistance to the antibiotics most commonly used to treat human listeriosis was not observed in L. monocytogenes, the presence of such resistance in other Listeria species raises the possibility of future acquisition of resistance by L. monocytogenes. SIGNIFICANCE AND IMPACT OF THE STUDY: The higher level of resistance in L. innocua compared with L. monocytogenes suggests that a species-related ability to acquire resistance to antibiotics exists.     

UDP-N-acetylmuramylpentapeptide as acceptor in murein biosynthesis in Escherichia coli membranes and ether-permeabilized cells

Two widely used in vitro systems of Escherichia coli capable of synthesizing murein were evaluated by using high-pressure liquid chromatography for murein analysis. Comparison of the composition of murein synthesized by either a membrane preparation or ether-treated cells with native murein revealed that both in vitro systems failed to synthesize murein that was identical to murein formed in vivo. Furthermore, neither system attached the lipoprotein to the murein. Ether-treated cells, however, were superior to the membrane preparation in catalyzing the formation of the remarkable A2pm-A2pm cross-linkage. In both systems an atypical transpeptidation reaction was found to take place in which exogenously supplied UDP-N-acetylmuramylpentapeptide was directly linked to the murein without participation of the bactoprenol lipid carrier. The direct transpeptidation yields preferentially trimeric peptide bridges with the UDP-linked muramylpentapeptide serving as the acceptor.     

Differentiation of Listeria monocytogenes, Listeria innocua, Listeria ivanovii, and Listeria seeligeri by pulsed-field gel electrophoresis.

Clamped homogeneous electric field analysis of Listeria DNA with ApaI, AscI, SmaI, or NotI revealed species- and serotype-specific differences in genomic fingerprints. Clamped homogeneous electric field analysis may prove useful, therefore, in epidemiologic studies. Also, the summation of individually sized AscI fragments of genomic DNA from L. monocytogenes serotype 4b 101M and Scott A indicated genome lengths of 2,925 and 3,046 kb, respectively.     

Plasmids in Listeria monocytogenes and other Listeria species.

One hundred and twenty-two food, clinical, and veterinary strains of Listeria monocytogenes were examined for the presence of plasmids. Twenty-five (20%) contained plasmids, which varied from 1.3 to 66 MDa in size. Of 10 strains of other Listeria species (L. innocua, L. ivanovii, L. welshimeri, L. seeligeri, L. grayi, and L. murrayi) examined, seven (70%) contained plasmids, varying from 38 to 53 MDa. No strains with multiple plasmids were found. Plasmids of identical size were isolated from related strains in some, although not all, cases. The presence of a plasmid in a strain was not related to phenotypic characters of known extrachromosomal inheritance.     

Effect of Octenidine Hydrochloride on Planktonic Cells and Biofilms of Listeria monocytogenes

Listeria monocytogenes is a food-borne pathogen capable of forming biofilms and persisting in food processing environments for extended periods of time, thereby potentially contaminating foods. The efficacy of octenidine hydrochloride (OH) for inactivating planktonic cells and preformed biofilms of L. monocytogenes was investigated at 37, 21, 8, and 4°C in the presence and absence of organic matter (rehydrated nonfat dry milk). OH rapidly killed planktonic cells and biofilms of L. monocytogenes at all four temperatures. Moreover, OH was equally effective in killing L. monocytogenes biofilms on polystyrene and stainless steel matrices in the presence and absence of organic matter. The results underscore OH''s ability to prevent establishment of L. monocytogenes biofilms by rapidly killing planktonic cells and to eliminate preformed biofilms, thus suggesting that it could be used as a disinfectant to prevent L. monocytogenes from persisting in food processing environments.Listeria monocytogenes is a major bacterial pathogen (2), accounting for approximately 28% of the deaths resulting from food-borne illnesses in the United States (22). It is widespread in nature and occurs in soil, vegetation, fecal matter, sewage, water, and animal feed (14). Because it is ubiquitous, L. monocytogenes is frequently isolated from foods and food processing environments (13, 23), thereby presenting a significant challenge to the food industry. Several studies have shown that L. monocytogenes is capable of adhering to food contact surfaces, such as glass, stainless steel, rubber, and polystyrene (6, 11, 28). Upon attachment to such surfaces, L. monocytogenes establishes biofilms and persists for long periods of time in the food processing environment (18, 30). This potentially poses a food safety hazard since biofilms are an important source of contamination of food products that come into contact with them. In addition, biofilms also protect the underlying bacteria from desiccation, antimicrobials, and sanitizing agents (7, 16). Thus, eradication of L. monocytogenes biofilms in processing plants is critical for improving food safety.When problems with persistent L. monocytogenes are encountered in food processing facilities, plant hygiene and sanitation are emphasized (31). This involves preventing the establishment of L. monocytogenes biofilms in the food processing environment and reducing contamination of product contact surfaces. A variety of cleaners and disinfectants, including quaternary ammonium compounds and hypochlorite, have been evaluated for this purpose (20). Although these compounds are approved by the Food and Drug Administration for use as disinfectants in processing plants, they are not effective in killing L. monocytogenes (24, 25), especially in the presence of soil or organic matter and at low temperatures. Therefore, there is a need for an effective disinfectant that can eliminate listerial biofilms in the presence of organic matter at a wide range of temperatures. Octenidine hydrochloride (OH) is a positively charged bispyridinamine that exhibits antimicrobial activity against plaque-producing organisms, such as Streptococcus mutans and Streptococcus sanguis (5). Toxicity studies with a variety of species have shown that OH is not absorbed through mucous membranes and the gastrointestinal tract, and there have been no reports of carcinogenicity, genotoxicity, or mutagenicity of this compound (17, 19, 29).The objective of this study was to investigate the efficacy of OH for inactivating planktonic cells and preformed biofilms of L. monocytogenes at 37, 21, 8, and 4°C in the presence and absence of organic matter on two matrices, polystyrene and stainless steel.     

Effect of temperature, sodium chloride, and pH on growth of Listeria monocytogenes in cabbage juice.

Human illness and death have resulted from the consumption of milk, cheese, and cole slaw contaminated with Listeria monocytogenes. Since the effects of temperature, NaCl, and pH on the growth of the organism in cabbage were unknown, a series of experiments was designed to investigate these factors. Two strains (LCDC 81-861 and Scott A, both serotype 4b) were examined. At 30 degrees C, the viable population of the LCDC 81-861 strain increased in sterile unclarified cabbage juice (CJ) containing 0 to 1.5% NaCl; a decrease in the population of both strains occurred in juice containing greater than or equal to 2% NaCl. At 5 degrees C, the population of the Scott A strain in CJ containing up to 5% NaCl was reduced by about 90% over a 70-day period; the LCDC 81-861 strain was more sensitive to refrigeration but remained viable in CJ containing less than or equal to 3.5% NaCl for 70 days. Growth in CJ at 30 degrees C resulted in a decrease in pH from 5.6 to 4.1 within 8 days. Death of L. monocytogenes occurred at 30 degrees C when the organism was inoculated into sterile CJ adjusted to pH less than or equal to 4.6 with lactic acid. No viable cells were detected after 3 days at pH less than or equal to 4.2. At 5 degrees C, the rate of death at pH less than or equal to 4.8 was slower than at 30 degrees C.(ABSTRACT TRUNCATED AT 250 WORDS)