Isolation and Purification of Enterocin EL1, a Bacteriocin Produced by a Strain of Enterococcus faecium †

Partial Characterization of Bacteriocins Produced by Two New Enterococcus faecium Isolated from Human Intestine

This study aimed at characterizing two novel bacteriocin-producing enterococcal strains isolated from human intestine. A total of 200 lactic acid bacteria were isolated from a woman stool sample. Two of them were selected for characterization due to their high antimicrobial activity against five strains of Listeria monocytogenes. The selected bacteria were identified as two different strains of Enterococcus faecium and designated MT 104 and MT 162. The bacteriocins produced by MT 104 and MT 162 were stable at different pH ranging from 2 to 11 and were active after different treatments such as heat, enzymes, detergents, and γ-irradiation. The two isolated strains exhibited some probiotic properties such as survival in simulated gastric fluid and intestinal fluid, lack of expression of bile salt hydrolase or hemolytic activity, adhesion to Caco-2 cells efficiently, and sensitivity to clinical antimicrobial agents. Thus, the two isolated strains of E. faecium could become new probiotic bacteria and their bacteriocins could be used for controlling L. monocytogenes in combination with irradiation for food preservation.

Purification and partial amino acid sequence of pentocin 31-1, an anti-Listeria bacteriocin produced by Lactobacillus pentosus 31-1

Pentocin 31-1, an anti-Listeria bacteriocin produced by Lactobacillus pentosus 31-1 from the traditional Chinese fermented Xuan-Wei ham, was successfully purified by the pH-mediated cell adsorption-desorption method and then purified by gel chromatography with Sephadex G-10. The purification resulted in a 1,381.9-fold increase in specific activity with a yield of 76.8% of the original activity. Using Tricine-sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE), the molecular mass of the purified peptide was found to be between 3,500 and 6,400 Da, and bacteriocin activity was confirmed by overlayer techniques. When subjected to mass spectrometry analysis, the protein was highly pure and its molecular mass was 5,592.225 Da. The partial N-terminal sequence of pentocin 31-1 was the following: NH2-VIADYGNGVRXATLL. Compared with the sequence of other bacteriocins, pentocin 31-1 has the consensus sequence YGNGV in its N-terminal region, and therefore it belongs to the class IIa of bacteriocins.

Bacteriocin: safest approach to preserve food products

Start of the 21st century with its universal call to feed the hungry is an appropriate time to refocus attention on food security and especially the impact of biopatenting on poor communities who are the primary victims of hunger in our world. Antibacterial metabolites of lactic acid bacteria and Bacillus spp have potential as natural preservatives to control the growth of spoilage and pathogenic bacteria in food. Among them, bacteriocin is used as a preservative in food due to its heat stability, wider pH tolerance and its proteolytic activity. Due to thermo stability and pH tolerance it can withstand heat and acidity/alkanity of food during storage condition. Bacteriocin are ribosomally synthesized peptides originally defined as proteinaceous compound affecting growth or viability of closely related organisms. Research is going on extensively to explore the nascent field of biopreservation. Scientists all over the world are showing their keen interest to isolate different types of bacteriocin producing strains and characterize bacteriocin produced by them for food preservation.

Identification and characterization of Enterococcus spp. in Greek spontaneous sausage fermentation

A total of 108 enterococcal strains previously isolated from spontaneously fermented sausages were identified using phenotypic traits, pulsed-field gel electrophoresis (PFGE), and sequencing of the 16S rRNA gene. The proteolytic and lipolytic activities of these isolates and their ability to decarboxylate lysine, tyrosine, ornithine, and histidine and to produce antimicrobial compounds also were assessed. All strains were identified as Enterococcus faecium, and a lack of correlation between data derived from phenotypic and those derived from genotypic techniques was evident. Wide strain diversity was revealed by both phenotypic properties and PFGE strain typing results. Few strains were present in all batches, suggesting a possible persistence in the respective production plants. Neither proteolytic nor lipolytic activities were detected, and none of the strains decarboxylated lysine, tyrosine, ornithine, or histidine. A total of 42 E. faecium strains inhibited in vitro growth of Listeria monocytogenes, which suggests possible contribution of these strains to the safety of the end product and possible utilization of these strains as protective cultures.

The role and application of enterococci in food and health

The genus Enterococcus is the most controversial group of lactic acid bacteria. Studies on the microbiota of many traditional cheeses in the Mediterranean countries have indicated that enterococci play an important role in the ripening of these cheeses, probably through proteolysis, lipolysis, and citrate breakdown, hence contributing to their typical taste and flavour. Enterococci are also present in other fermented foods, such as sausages and olives. However, their role in these products has not been fully elucidated. Furthermore, the production of bacteriocins by enterococci is well documented. Moreover, enterococci are nowadays used as probiotics. At the same time, however, enterococci have been associated with a number of human infections. Several virulence factors have been described and the number of vancomycin-resistant enterococci is increasing. The controversial nature of enterococci has prompted an enormous increase in scientific papers and reviews in recent years, where researchers have been divided into two groups, namely pro and contra enterococci. To the authors' impression, the negative traits have been focused on very extensively. The aim of the present review is to give a balanced overview of both beneficial and virulence features of this divisive group of microorganisms, because it is only acquaintance with both sides that may allow their safe exploitation as starter cultures or co-cultures.

Characterization of faecal enterococci from rabbits for the selection of probiotic strains

AIMS

To characterize the facultative anaerobic intestinal microbiota of healthy rabbits, especially enterococci, for the selection of potential probiotic strains.

METHODS AND RESULTS

Phenotypic and molecular methods were used to identify enterococcal isolates. Results obtained indicated that enterococcal microbiota widely varied among individuals both in size and in composition. Antibacterial and haemolytic activities, and resistance to acid and bile salts were determined. A small group of strains produced bacteriocins active against listeriae and indigenous clostridia and therefore they were selected as potential probiotics. One such strain, 8G, was assayed for colonization capacity. Results obtained suggested that the fate of the introduced strain depended on the composition of the enterococcal indigenous microbiota.

CONCLUSIONS

Enterococcus faecalis and Ent. faecium are the predominant enterococcal species in the gut of rabbits. Other species of lactic acid bacteria were not recovered.

SIGNIFICANCE AND IMPACT OF THE STUDY

The enterococcal intestinal microbiota of healthy rabbits has been characterized in detail. Monitoring the fate of an introduced probiotic in vivo is required in order to evaluate potential probiotic strains.

Isolation and biochemical characterisation of enterocins produced by enterococci from different sources

AIMS

Comparison of enterocins produced by six Enterococcus faecium strains and one Ent. faecalis strain isolated from different origin with regard to their microbiological and biochemical characteristics in view of their technological potential and practical use.

METHODS AND RESULTS

The seven enterococci were sensitive to the glycopeptide antibiotics vancomycin and teicoplanin and did not show haemolytic activity. The absence of the glycopeptide-resistant genotypes and the genes involved in the production of the lantibiotic cytolysin was confirmed by PCR. The enterocins were active towards Listeria innocua and other lactic acid bacteria. Their temperature stability was dependent on the pH and their activity was higher at acidic pH. A bactericidal and bacteriolytic effect was shown. PCR analyses revealed that the gene of enterocin A was present in the genome of Ent. faecium CCM 4231, Ent. faecium 306 I.2.20 and Ent. faecalis Y; both enterocin A and B genes were present in the genome of Ent. faecium LMG 11423T, Ent. faecium RZS C5 and Ent. faecium RZS C13. Enterocin P was detected in the genome of Ent. faecium RZS C5 and Ent. faecium RZS C13. No signal was found for Ent. faecium SF 68. Enterocins from Ent. faecium RZS C5, Ent. faecium RZS C13 and Ent. faecium SF 68 were purified to homogeneity.

CONCLUSIONS

Ent. faecium RZS C5 and Ent. faecium RZS C13 produced an enterocin with a molecular mass of 5460 and 5477 Da, respectively, which was in the range of that of enterocin B. The amino acid sequence analysis of the enterocin from Ent. faecium RZS C13 revealed 24 N-terminal residues, which were identical to those of enterocin B. The enterocin from Ent. faecium SF 68 had a molecular mass of 4488 Da, which did not correspond to any enterocin known so far.

SIGNIFICANCE AND IMPACT OF THE STUDY

The number of characterized enterocins is increasing. As this type of work is tedious and time-consuming, it may be interesting to include PCR as a first step to know if the Enterococcus strain in study produces either a known or a new enterocin. Also, it is important to check the absence of cytolysin and resistance to vancomycin for a further application of the Enterococcus strain in food or health applications.

Enterocin 416K1, an antilisterial bacteriocin produced by Enterococcus casseliflavus IM 416K1 isolated from Italian sausages

Enterococci (118) from Italian sausages were tested for the production of antimicrobial substances. Of these, 7.6% showed antibacterial activity against one or several closely related microorganisms used as indicators. Enterococcus casseliflavus IM 416K1 in particular produced a bacteriocin (Enterocin 416K1) with strong anti-listerial antagonistic activity. The bacteriocin withstood heating at 90 degrees C for 120 min and storage at 4 degrees C for 6 months. The mode of action was identified as bactericidal. The crude activity of Enterocin 416K1 was linked to a molecule with an apparent molecular weight smaller than 5 kDa. Plasmid analysis of E. casseliflavus IM 416K1 revealed the presence of four plasmids with different molecular weights (34, 11, 7 and 3.3 MDa). All the Bac- variants produced by curing experiments showed loss of the single plasmid of 34 MDa. Bacteriocin activity and immunity production may be linked to genes located on that same plasmid.

Anti-Listeria effect of enterocin A, produced by cheese-isolated Enterococcus faecium EFM01, relative to other bacteriocins from lactic acid bacteria

Enterocin A produced by Enterococcus faecium EFM01 displayed a narrow antimicrobial spectrum, mainly directed against Listeria spp. In particular, the bacteriocin was extremely active against 13 Listeria monocytogenes strains. This high specificity of action of enterocin A for Listeria spp. relative to lactic acid bacteria, together with its broad range of activity from pH 4.0 to pH 9.0, are factors which may be of great interest with respect to the potential antilisterial use of this bacteriocin in fermented foods. Assessment of the effect of enterocin A concentration on the extent and kinetics of bactericidal activity on L. monocytogenes Lm 6 (107 cfu ml-1 in culture broth), suggested that viability losses of higher than 5 log10, and time intervals necessary for maximum loss of viability of less than 2 h, could not be obtained. Moreover, it was shown that both parameters are closely dependent on the Listeria strain used. On the other hand, at concentrations inducing destruction of approximately 2 log10 cycles, maximum loss of viability was achieved within time intervals which varied widely from one lactic acid bacteria bacteriocin to another.

Purification and some characteristics of enterocin ON-157, a bacteriocin produced by Enterococcus faecium NIAI 157

Bacteriocin-like activity (BLA) was screened in 690 strains of lactic acid bacteria isolated from plant materials such as silages and fermented vegetables. Among them, a strain identified as Enterococcus faecium NIAI 157 showed a clear BLA against the indicator strain, Ent. faecium IFO 13712. The proteinaceous nature and antimicrobial activity against closely related species strongly indicated that this BLA was a bacteriocin and was designated enterocin ON-157. The bacteriocin activity of this strain was extracellularly produced in the logarithmic growth phase in MRS broth and purified by ultrafiltration, ammonium sulphate precipitation and cation-exchange chromatography. Purified enterocin ON-157 had a molecular weight of approximately 2500 Da in SDS-PAGE analysis and was easily inhibited by treatment with alpha-amylase and proteolytic enzymes. Enterocin ON-157 had a bactericidal mode of action and inhibited the growth of the enterococci, Lactobacillus sake and Listeria monocytogenes. Enterococcus faecium NIAI 157 harboured two plasmids, 49.0 kb and 43.7 kb, and a variant missing a larger plasmid by curing with novobiocin lost the bactriocin activity.