Histamine production by wine lactic acid bacteria: isolation of a histamine-producingstrain of Leuconostoc oenos

Populations of Leuconostoc œnos were harvested from wines containing a relatively high concentration of biogenic amines. Cultivation of the biomass in synthetic media and wine showed that it consisted of histamine-producing strains. Histamine levels after culture depended on the quantity of precursor available and on the presence of yeast lees, which certainly enriched the medium in histidine. Ethanol and pH, which control bacterial growth rate and total population, were also significant factors: pH and low ethanol concentration enhanced histamine production.
Strain Leuc. œnos 9204 was isolated and studied since it retained its ability to produce histamine after several transfers. In synthetic medium this strain produced large amounts of histamine especially in the poorest nutritional conditions (no glucose, no L-malic acid). These results clearly demonstrate that Leuc. œnos involvedin wine-making might play a role in biogenic amine production. The vinification method might also influence the final amine concentration in wine.     

Safety properties and molecular strain typing of lactic acid bacteria from slightly fermented sausages

AIM: To evaluate the biodiversity of lactobacilli from slightly fermented sausages (chorizo, fuet and salchichon) by molecular typing, while considering their safety aspects. METHODS AND RESULTS: Species-specific PCR, plasmid profiling and randomly amplified polymorphic DNA (RAPD)-PCR were used to characterize 250 lactic acid bacteria (LAB) isolated from 21 low acid Spanish fermented sausages. Lactobacillus sakei was the predominant species (74%) followed by Lactobacillus curvatus (21.2%) and Leuconostoc mesenteroides (4.8%). By plasmid profiling and RAPD-PCR 144 different strains could be differentiated, 112 belonging to Lact. sakei, 23 to Lact. curvatus and 9 to Leuc. mesenteroides. Ion-pair high performance liquid chromatography was used to detect biogenic amine production. Tyramine and phenylethylamine were produced by 14.4 and 12.4% of the isolates, respectively, all belonging to the species Lact. curvatus. The production of tyramine was stronger than that of phenylethylamine. Partial sequencing of the tyrosine decarboxylase gene from Lact. curvatus was achieved. A specific PCR assay to detect the Lact. curvatus tyramine-producers was designed. The disc diffusion test was used to detect antibiotic resistance among the isolates. Most isolates displayed resistance to vancomycin and gentamicin. Only four strains were resistant to most of the antibiotics tested. None of the isolates were resistant to erythromycin. CONCLUSIONS: Lactobacillus sakei would be the species of choice for further use as starter culture in fermented sausage production. Strain typing and characterization of biogenic amine production together with antibiotic susceptibility testing for the selection of starter cultures could help to increase the quality and safety of the products. SIGNIFICANCE AND IMPACT OF THE STUDY: Species-specific PCR, RAPD and plasmid profiling proved to be efficient at typing LAB at species and strain level. Information on biogenic amine production and transferable antibiotic resistance is important in order to avoid selection of strains with undesirable properties as starter cultures.     

Formation of biogenic amines as criteria for the selection of wine yeasts

This work deals with biogenic amine production by yeast strains isolated from grapes and wines. A total of 50 strains were tested for their capacity to produce biogenic amines in wine. In general, all the species produced very low or non-detectable amounts of histamine, whereas methylamine and agmatine were formed by all the species considered. The highest concentration of total biogenic amines was formed by Brettanomyces bruxellensis, with an average value of 15 mg/l, followed by Saccharomyces cerevisiae with an average of 12.14 mg/l. The other species formed less than 10 mg of total biogenic amines per litre. Wines fermented with the most fermentative strains of S. cerevisiae species had the highest contents of ethanolamine, from 2.3 to 16 mg/l, and of agmatine, from 3.1 to 7.5 mg/l. The strains of the other species, which exhibited a low fermentative ability, Kloeckera apiculata, B. bruxellensis and Metschnikowia pulcherrima, varied in the production of agmatine and phenylethylamine. A significant variability in the production of cadaverine was characteristic of Candida stellata strains, which varied also in ethanolamine production. Our results emphasize the importance of using selected strains of S. cerevisiae, not only for the expression of desirable technological traits, but also to avoid potentially negative effects on human health. Therefore, the characterization of strains of S. cerevisiae for the 'production of biogenic amines' becomes of applicative interest.     

Physiological and oenological traits of different Dekkera/Brettanomyces bruxellensis strains under wine-model conditions

Contamination of wine by Dekkera/Brettanomyces bruxellensis is mostly due to the production of off-flavours identified as vinyl- and especially ethyl-phenols, but these yeasts can also produce several other spoiling metabolites, such as acetic acid and biogenic amines. Little information is available about the correlation between growth, viability and off-flavour and biogenic amine production. In the present work, five strains of Dekkera bruxellensis isolated from wine were analysed over 3 months in wine-like environment for growth, cell survival, carbon source utilization and production of volatile phenols and biogenic amines. Our data indicate that the wine spoilage potential of D. bruxellensis is strain dependent, being strictly associated with the ability to grow under oenological conditions. 4-Ethyl-phenol and 4-ethyl-guaiacol production ranged between 0 and 2.7 and 2 mg L(-1), respectively, depending on the growth conditions. Putrescine, cadaverine and spermidine were the biogenic amines found.     

Biogenic amine production by lactic acid bacteria isolated from cider

AIMS: To study the occurrence of histidine, tyrosine and ornithine decarboxylase activity in lactic acid bacteria (LAB) isolated from natural ciders and to examine their potential to produce detrimental levels of biogenic amines. METHODS AND RESULTS: The presence of biogenic amines in a decarboxylase synthetic broth and in cider was determined by reversed-phase high-performance liquid chromatography (RP-HPLC). Among the 54 LAB strains tested, six (five lactobacilli and one oenococci) were biogenic amine producers in both media. Histamine and tyramine were the amines formed by the LAB strains investigated. Lactobacillus diolivorans were the most intensive histamine producers. This species together with Lactobacillus collinoides and Oenococcus oeni also seemed to produce tyramine. No ability to form histamine, tyramine or putrescine by Pediococus parvulus was observed, although it is a known biogenic amine producer in wines and beers. CONCLUSIONS: This study demonstrated that LAB microbiota growing in ciders had the ability to produce biogenic amines, particularly histamine and tyramine, and suggests that this capability might be strain-dependent rather than being related to a particular bacterial species. SIGNIFICANCE AND IMPACT OF THE STUDY: Production of biogenic amines by food micro-organisms has continued to be the focus of intensive study because of their potential toxicity. The main goal was to identify the microbial species capable of producing these compounds in order to control their presence and metabolic activity in foods.     

The effect of biogenic amine production by single bacterial cultures and metabiosis on cold-smoked salmon

AIM: Biogenic amines are important indicators of spoilage in vacuum-packed cold-smoked salmon. It is the aim of this study to identify bacteria responsible for biogenic amine production in cold-smoked salmon. METHODS AND RESULTS: The present study identified spoilage microflora from cold-smoked salmon and determined biogenic amine production of single and co-cultures growing in cold-smoked salmon. Photobacterium phosphoreum was the only species that produced histamine when inoculated on sterile cold-smoked salmon. Production of putrescine was enhanced 10-15 times when cultures of Serratia liquefaciens or Hafnia alvei were grown with Carnobacterium divergens or Lactobacillus sakei subsp. carnosus. This phenomenon was explained by interspecies microbial metabolism of arginine, i.e., metabiosis. CONCLUSIONS: The amounts of biogenic amines produced by single and co-cultures corresponded to those observed during spoilage of naturally-contaminated cold-smoked salmon. Photobacterium phosphoreum and Lact. curvatus were identified as the specific spoilage organisms in cold-smoked salmon. SIGNIFICANCE AND IMPACT OF THE STUDY: Determination of the specific spoilage organism is needed before a model can be developed for shelf-life predictions of cold-smoked salmon.     

MINIATURIZED ANALYTICAL METHOD FOR THE DETECTION OF AMINE PRODUCTION BY MICROORGANISMS

Histamine, the result of histidine decarboxylation, has been associated with allergic reactions due to the consumption of certain foods. Other biogenic amines, such as putrescine and cadaverine, have been related to quality deterioration in foods. A quantitative miniaturized method for the detection of biogenic amines produced by microorganisms in culture media, was designed. The reaction takes place in microplates containing microquantities of inoculated media and reagents. Amine production is determined spectrophotometrically by monitoring changes in the acid phase of the pH indicator at 405 nm. Using the following amino acids: histidine, phenylalanine, tyrosine, tryptophan, arginine, lysine and ornithine, 44 microorganisms were tested for amine production. Sensitivity of the method is 10 μM of amine.     

Biogenic amine production by wild lactococcal and leuconostoc strains

Two qualitative and one quantitative HPLC methods were evaluated for the detection of biogenic amine producers among wild dairy lactococcal and leuconostoc strains. High tyramine producers ranging from 370 to 807 mg l⁻¹ were detected by qualitative methods and confirmed by HPLC analysis. Tyramine levels detected throughout the incubation time depended on the concentration of the amino acid precursor available and no tyramine production was observed when strains were grown in milk. However, increasing amounts of tyramine were detected in cultures grown in milk supplemented with different concentrations of tyrosine. Qualitative methods failed to detect weak producers so that tryptamine production (<7 mg l⁻¹) could only be determined by HPLC. None of the tested strains was able to produce histamine. Simultaneous production of different amines was observed by HPLC although no colour change was observed in the specific decarboxylase media. Thus, it was concluded that the amine forming ability should be taken into account when selecting starters for milk fermentations. Qualitative methods could be used as a first screening step to eliminate the highest amine producers while the quantitative methods would detect any producing strain.     

Interspecies diversity,safety and probiotic potential of bacteriocinogenic <Emphasis Type="Italic">Enterococcus faecium</Emphasis> isolated from dairy food and human faeces

In the present study 14 bacteriocinogenic strains of Enterococcus faecium isolated from dairy foods and faecal sample were evaluated for the presence of virulence determinants, production of biogenic amines and their susceptibility to various antibiotics. Genetic diversity among them was evaluated by RAPD-PCR method. Further, they were evaluated for their probiotic potential under in vitro trials. The efaAfm was the only virulence trait detected in all E. faecium and tyramine was the only biogenic amine produced by 9 tested strains. No strain was resistant to all antibiotics and for some strains, multiple resistances were observed. E. faecium FH 99 showed highest good ability to tolerate acid and bile, while good bile salt hydrolase activity and were able to assimilate cholesterol from growth media. These results suggest that the tested E. faecium are generally free from virulence traits and having good probiotic potential and may be exploit in dairy industry and probiotic preparations.     

Tyrosine-containing peptides are precursors of tyramine produced by lactobacillus plantarum strain IR BL0076 isolated from wine

ABSTRACT: BACKGROUND: Biogenic amines are molecules with allergenic properties. They are found in fermented products and are synthesized by lactic acid bacteria through the decarboxylation of amino acids present in the food matrix. The concentration of biogenic amines in fermented foodstuffs is influenced by many environmental factors, and in particular, biogenic amine accumulation depends on the quantity of available precursors. Enological practices which lead to an enrichment in nitrogen compounds therefore favor biogenic amine production in wine. Free amino acids are the only known precursors for the synthesis of biogenic amines, and no direct link has previously been demonstrated between the use of peptides by lactic acid bacteria and biogenic amine synthesis. RESULTS: Here we demonstrate for the first time that a Lactobacillus plantarum strain isolated from a red wine can produce the biogenic amine tyramine from peptides containing tyrosine. In our conditions, most of the tyramine was produced during the late exponential growth phase, coinciding with the expression of the tyrDC and tyrP genes. The DNA sequences of tyrDC and tyrP in this strain share 98% identity with those in Lactobacillus brevis consistent with horizontal gene transfer from L. brevis to L. plantarum. CONCLUSION: Peptides amino acids are precursors of biogenic amines for Lactobacillus plantarum strain IR BL0076.     

A proteomic approach to studying biogenic amine producing lactic acid bacteria

All fermented foods are subject to the risk of biogenic amine contamination. Histamine and tyramine are among the most toxic amines for consumers' health, exerting undesirable effects on the central nervous and vascular systems, but putrescine and cadaverine can also compromise the organoleptic properties of contaminated foods. These compounds are produced by fermenting microbial flora that decarboxylate amino acids to amines. Little is known of the factors which induce biosynthesis of decarboxylating enzymes and/or which modulate their catalytic activity: the accumulation of amines is generally considered to be a mechanism that contrasts an acidic environment and/or that produces metabolic energy through coupling amino acid decarboxylation with electrogenic amino acid/amine antiporters. Two Lactobacillus strains, Lactobacillus sp. 30a (ATCC 33222), and a Lactobacillus sp. strain (w53) isolated from amine-contaminated wine, carrying genetic determinants for histidine decarboxylase (HDC) and ornithine decarboxylase (ODC), were studied and the influence of some environmental and nutritional parameters on amine production and protein biosynthesis was analyzed through a proteomic approach; this is the first report of a proteomic analysis of amine-producing bacteria. HDC and ODC biosynthesis were shown to be closely dependent on the presence of high concentrations of free amino acids in the growth medium and to be modulated by the growth phase. The stationary phase and high amounts of free amino acids also strongly induced the biosynthesis of an oligopeptide transport protein belonging to the proteolytic system of Lactic Acid Bacteria. At least two isoforms of glyceraldehyde-3-phosphate dehydrogenase, with different M(r), pI and expression profiles, were identified from Lactobacillus sp. w53: the biosynthesis of one isoform, in particular, is apparently repressed by high concentrations of free amino acids. Other proteins were identified from the Lactobacillus proteome, affording a global knowledge of protein biosynthesis modulation during biogenic amine production.     

产生物胺乳酸菌的筛查与检测

目的对上海市场上食品和药品中分离出的20株乳杆菌,13株链球菌,3株乳球菌和3株肠球菌的产生物胺能力进行检测,以揭示其潜在的安全性问题。方法检测的生物胺共包括6种：分别为酪胺、精胺、尸胺、组胺、腐胺和色胺。利用添加了前体氨基酸的氨基酸脱羧酶筛选培养基对各菌株的产胺能力进行初筛,通过培养基中指示剂的颜色变化判定产胺能力。结果在检测的39株菌中,8株菌具有产酪胺的能力,7株菌具有产精胺的能力,1株菌具有产组胺的能力,1株菌具有产腐胺的能力。尤其是精胺和酪胺的产量较为引人关注。结论生物胺的危害水平取决于个体解毒的能力,但在筛选食品药品用菌株时应运用规范的方法来检测其产生物胺的能力,以保障相应食品药品的安全问题。     

Putrescine Accumulation in Wine: Role of Oenococcus oeni

Putrescine, the most abundant biogenic amine in wine, was proved to be produced by Oenococcus oeni strains in wine not only from ornithine but also from arginine. In this case, putrescine may originate from strains possessing the complete enzyme system to convert arginine to putrescine or by a metabiotic association, with an exchange of ornithine, between strains capable of metabolizing arginine to ornithine but unable to produce putrescine and strains capable of producing putrescine from ornithine but unable to degrade arginine. Putrescine production by this metabiotic association occurred once the malolactic fermentation was completed, whereas conversion of ornithine to putrescine by a single culture of the ornithine decarboxylating strain concurred with the degradation of malic acid. Moreover, in the former case, putrescine formation proceeded more slowly than in the latter. Metabiosis may play an important role in the accumulation of putrescine in wine, arginine being one of the major amino acids found in wine.     

Formation of histamine and tyramine by lactic acid bacteria in decarboxylase assay medium

A modified decarboxylase assay medium (DCA medium) was used for studying the production of biogenic amines by Leuconostoc oenos DSM 20252 and two strains of Lactobacillus buchneri (Lb14 and St2A). The DCA medium contained histidine, lysine, ornithine and tyrosine as precursors of the respective biogenic amines. Under the experimental conditions both strains of Lact. buchneri produced > 90% of the maximum amount of histamine within 24 h. Only tyramine was produced by Leuc. oenos DSM 20252. accountine for 88% of the maximum theoretical amount within 24 h.     

Evolution of microbial populations and biogenic amine production in dry sausages produced in Southern Italy

AIMS: To evaluate the occurrence and evolution of biogenic amines during ripening of fermented sausages and their relationship with physico-chemical and microbiological properties of the product. METHODS AND RESULTS: Salsiccia and Soppressata were obtained from artisanal and industrial plants in Basilicata and pH, aW, microbial counts and biogenic amine content were measured. A high variability in amine content was observed. 2-Phenylethylamine and histamine were rarely found, while the tyramine, putrescine and cadaverine content increased during ripening. No correlation was found between individual biogenic amine content, microbial counts or physico-chemical parameters. CONCLUSION: Starter cultures did not necessarily prevent the production of biogenic amines whose total contents were usually higher in Soppressata, a product with a larger diameter and aW compared with Salsiccia. SIGNIFICANCE AND IMPACT OF THE STUDY: Literature findings on biogenic amine content and the evolution of microbial populations were confirmed. Normal ranges for amine content in Salsiccia and Soppressata are reported.     

Determination of lactic acid bacteria producing biogenic amines in wine by quantitative PCR methods

Aims: To develop rapid methods allowing enumeration of lactic acid bacteria producing biogenic amines in wines and to analyse wine samples by the methods. Methods and Results: Methods based on quantitative PCR targeting bacterial genes involved in histamine, tyramine and putrescine production were developed and applied to detect and quantify the bacteria producing these biogenic amines in wine. Analysis of 102 samples revealed low populations of the targeted bacteria in grape must samples, an increased bacteria biomass in wine samples after alcoholic fermentation, reaching the highest population levels (above 10⁶ cells ml^?1) during spontaneous malolactic fermentation. A minimum of 10³ ml^?1 producing cells was required for production of more than 1 mg l^?1 of biogenic amines. Accumulation of putrescine in wine was correlated with the presence of bacteria carrying an ornithine decarboxylation pathway. Trials of winemaking showed that the use of selected bacteria for inducing malolactic fermentation was efficient to limit the proliferation of undesirable bacteria and the production of biogenic amines. Conclusion: Methods using quantitative PCR are efficient to enumerate biogenic amines‐producing cells in wine. Significance and Impact of the Study: The methods can help to better control and to improve winemaking conditions in order to avoid biogenic amine production.     

Evidence of two functionally distinct ornithine decarboxylation systems in lactic acid bacteria

Biogenic amines are low-molecular-weight organic bases whose presence in food can result in health problems. The biosynthesis of biogenic amines in fermented foods mostly proceeds through amino acid decarboxylation carried out by lactic acid bacteria (LAB), but not all systems leading to biogenic amine production by LAB have been thoroughly characterized. Here, putative ornithine decarboxylation pathways consisting of a putative ornithine decarboxylase and an amino acid transporter were identified in LAB by strain collection screening and database searches. The decarboxylases were produced in heterologous hosts and purified and characterized in vitro, whereas transporters were heterologously expressed in Lactococcus lactis and functionally characterized in vivo. Amino acid decarboxylation by whole cells of the original hosts was determined as well. We concluded that two distinct types of ornithine decarboxylation systems exist in LAB. One is composed of an ornithine decarboxylase coupled to an ornithine/putrescine transmembrane exchanger. Their combined activities results in the extracellular release of putrescine. This typical amino acid decarboxylation system is present in only a few LAB strains and may contribute to metabolic energy production and/or pH homeostasis. The second system is widespread among LAB. It is composed of a decarboxylase active on ornithine and l-2,4-diaminobutyric acid (DABA) and a transporter that mediates unidirectional transport of ornithine into the cytoplasm. Diamines that result from this second system are retained within the cytosol.     

Selected Schizosaccharomyces pombe Strains Have Characteristics That Are Beneficial for Winemaking

At present, wine is generally produced using Saccharomyces yeast followed by Oenococus bacteria to complete malolactic fermentation. This method has some unsolved problems, such as the management of highly acidic musts and the production of potentially toxic products including biogenic amines and ethyl carbamate. Here we explore the potential of the fission yeast Schizosaccharomyces pombe to solve these problems. We characterise an extensive worldwide collection of S. pombe strains according to classic biochemical parameters of oenological interest. We identify three genetically different S. pombe strains that appear suitable for winemaking. These strains compare favourably to standard Saccharomyces cerevisiae winemaking strains, in that they perform effective malic acid deacidification and significantly reduce levels of biogenic amines and ethyl carbamate precursors without the need for any secondary bacterial malolactic fermentation. These findings indicate that the use of certain S. pombe strains could be advantageous for winemaking in regions where malic acid is problematic, and these strains also show superior performance with respect to food safety.     

The tyrosine decarboxylation test does not differentiate Enterococcus faecalis from Enterococcus faecium

According to the current edition of the Bergey's Manual of Systematic Bacteriology [11] the tyrosine decarboxylation test allows the differentiation of enterococci. Tyrosine is decarboxylated to the biogenic amine tyramine by E. faecalis and not by E. faecium strains. In the present study we sequenced the16S rDNA of two tyramine-producing strains, BIFI-56 and BIFI-58, presumptively classified as E. faecalis. Their 16S rDNA were identical to the same fragment from the E. faecium type strain. Several E. faecium strains were then checked for their ability to decarboxylate tyrosine and also a putative tyrosine decarboxylase-coding gene was PCR amplified from these strains. All the strains confirmed as E. faecium produced tyramine and possessed a DNA fragment coding for a putative tyrosine decarboxylase. The concordance of the two methods allows us to conclude that the tyrosine decarboxylase test cannot be used in the differentiation of E. faecalis from E. faecium since at least some E. faecium strains are tyramine producers.     

Biogenic amine production by Lactobacillus

AIMS: The aim of this work was to demonstrate that strains of Lactobacillus may be able to produce putrescine and agmatine from one of the major amino acids present in fruit juices and wine, arginine, and from amino acid-derived ornithine. METHODS AND RESULTS: Biogenic amines were determined by HPLC. Their production in the culture medium was similar under both microaerophilic and anaerobic conditions. The presence of Mn2+ had a minimal influence on the results, whereas the addition of pyridoxal phosphate increased amine production 10-fold. Lactobacillus hilgardii X1B, isolated from wine, was able to degrade arginine by two pathways: arginine deiminase and arginine decarboxylase. The isolate was able to produce putrescine from ornithine and from agmatine. Lactobacillus plantarum strains N4 and N8, isolated from orange, utilized arginine via the arginine deiminase system. Only the N4 strain was able to produce putrescine from ornithine. CONCLUSION: It has been demonstrated that Lact. hilgardii X1B is able to produce the most important biogenic amine found in wine, putrescine, and also agmatine from arginine and ornithine, and that Lactobacillus plantarum, considered to be an innocuous spoilage micro-organism in fruit juices, is able to produce amines. SIGNIFICANCE AND IMPACT OF THE STUDY: The results have significance in relation to food poisoning caused by beverages that have been contaminated with biogenic amines.