Citotoxicidad in vitro del polipéptido antimicrobiano nisina sobre células tumorales sanguíneas / In vitro cytotoxicity of the antimicrobial polypeptide nisin on blood tumor cells

RESUMEN: Las bacteriocinas son péptidos antimicrobianos de síntesis ribosomal secretadas por bacterias. Dentro de estas destaca nisina que posee potenciales usos en terapias antibióticas, como biopreservante de alimentos y probióticos. También se ha descrito que nisina posee citotoxicidad sobre líneas celulares neoplásicas, pero existe poca información de su efecto sobre células tumorales sanguíneas. Debido al potencial uso que presenta nisina, es relevante determinar la toxicidad que presenta sobre líneas celulares tumorales del tipo sanguíneo. Para esto, se realizaron ensayos de actividad hemolítica sobre eritrocitos humanos y de toxicidad sobre células mononucleares de sangre periférica humanas, determinándose que nisina no posee efecto citotóxico sobre este tipo de células normales humanas sanguíneas. Se realizaron también, ensayos de citotoxicidad con líneas celulares tumorales (K562 y U937), con el fin de determinar dosis, tiempo de exposición y selectividad en el efecto tóxico de nisina sobre las células tumorales humanas. Estos ensayos muestran que nisina presenta actividad citotóxica sobre líneas celulares K562 y U937 a las 72 h de exposición, a una concentración de 40 µg/mL, que corresponde a 100 veces la concentración mínima inhibitoria (MIC) usada para su acción sobre bacterias. Al comparar el efecto de nisina sobre células mononucleares de sangre periférica humanas con las líneas tumorales linfoides y mieloides (K562 y U937 respectivamente), se observa un efecto selectivo de nisina sobre las células tumorales sanguíneas.

SUMMARY: Bacteriocins are antimicrobial peptides of ribosomal synthesis secreted by bacteria. Among these, nisin stands out, which has potential uses in antibiotic therapies, as a food bio preservative and probiotics. Nisin has also been reported to have cytotoxicity on neoplastic cell lines, but there is little information on its effect on blood tumor cells. Due to the potential use that nisin presents, it is relevant to determine the toxicity it presents on tumor cell lines of the blood type. For this, hemolytic activity tests were carried out on human erythrocytes and toxicity on human peripheral blood mononuclear cells, determining that nisin does not have a toxic effect on this type of normal human blood cells. Cytotoxicity tests were also carried out with tumor cell lines (K562 and U937), to determine dose, exposure time and selectivity in the toxic effect of nisin on human tumor cells. These tests show that nisin shows cytotoxic activity on K562 and U937 cell lines at 72 h of exposure, at a concentration of 40 µg / mL, which corresponds to 100 times the minimum inhibitory concentration (MIC) used for its action on bacteria. When comparing the effect of nisin on human peripheral blood mononuclear cells with lymphoid and myeloid tumor lines (K562 and U937 respectively), a selective effect of nisin on blood tumor cells is observed.

Encapsulação de antimicrobianos naturais em nanolipossomas para inibição de bactérias causadoras de surtos alimentares / Encapsulation of natural antimicrobials in nanoliposomas for the inhibition of bacterials causing foodborne disease

Avaliou-se ação bactericida e caracterização físico-química de duas diferentes formulações de nanolipossomas preparados utilizando técnica de hidratação do filme lipídico. Nanolipossomas contendo carvacrol apresentaram diâmetro médio de 270,83 nm, PDI de 0,20 e potencial zeta de + 8,64 mV. Nanolipossomas contendo carvacrol e nisina apresentaram diâmetro médio de 205,25 nm, PDI de 0,31 e potencial zeta de - 22,48 mV. Para ambas formulações a concentração bactericida mínima foi de 3,53 mg/mL para Salmonella e 5,3 mg/mL para Escherichia coli e Staphylococcus aureus. Não ocorreu efeito sinérgico entre carvacrol e nisina, porém os nanolipossomas contendo carvacrol apresentaram ação bactericida contra os microrganismos testados, demonstrando potencial para sua utilização no desenvolvimento de um sanitizante para uso em indústrias de alimentos.

Antibacterial efficacy of nisin, bacteriophage P100 and sodium lactate against Listeria monocytogenes in ready-to-eat sliced pork ham

ABSTRACT The effectiveness of bacteriophage P100, nisin and sodium lactate, individually and in combination, in inhibiting Listeria monocytogenes in ready-to-eat pork ham slices was assessed. The antimicrobials were applied to the surfaces of ready-to-eat pork ham slices, which were inoculated with a mixture of L. monocytogenes. Among the individual antimicrobial treatments, bacteriophage P100 was the most effective, decreasing L. monocytogenes to undetectable levels at zero and 72 h post-infection. Sodium lactate was the least effective treatment. Treatment with nisin at zero h significantly reduced initial cell density (p < 0.05). However, this pattern was not observed at 72 h of storage. A significant difference (p < 0.05) existed between the results of separate bacteriophage and nisin treatments after refrigerated storage, but not immediately upon inoculation of the bacteria. The results showed that the use of bacteriophage P100 is the method of choice for the control of bacteria.

Inactivation of Listeria monocytogenes ATCC 7644 on fresh-cut tomato using nisin in combinations with organic salts

ABSTRACT The inhibition of Listeria monocytogenes ATCC 7644 on fresh-cut tomato was investigated using nisin alone, and in combinations with organic salts. Nisin at a concentration of 5000 UI/mL was introduced alone or in combination with an organic salt (sodium citrate or sodium acetate each at 3 and 5 g/100 mL each) on fresh-cut tomato previously inoculated with 108 CFU/mL of L. monocytogenes ATCC 7644. Chlorine at 200 ppm was used as a control. The inoculated samples were incubated at different temperatures (4, 10 and 25 °C) and examined at 0, 24, 48 and 72 h. The effects of the antimicrobial treatments on quality parameters of tomato (pH, soluble solids, titratable acidity and vitamin C) were also evaluated, and colour parameters were observed at the lowest storage temperature for 10 days. Both nisin and the organic salts inhibited growth of L. monocytogenes, but the combinations of two compounds were more effective. The nisin-sodium citrate (5%) combination was significantly (p ≤ 0.05) effective, while chlorine was least effective against L. monocytogenes. The quality parameters were substantially retained, especially at 4 °C, suggesting good shelf stability at a low temperature. These results substantiate the use of the cheap and eco-friendly approach to reducing this pathogen of health concern in common fresh produce.

Efeito da composição de bactérias láticas e da suplementação do soro de leite na cinética de acidificação, crescimento celular e produção de nisina / Effect of lactic acid bacteria composition and the supplementation of milk whey on acidification kinetics, cell growth and nisin production

As bactérias ácido-láticas (BAL) são micro-organismos que auxiliam nas características organolépticas, funcionais e de bioconservação de produtos fermentados. A utilização do soro de leite como meio de cultivo natural enaltece o conceito da produção de biomoléculas de alto valor agregado, como bacteriocinas, já que é um subproduto gerado por indústrias de laticínios e considerado um agente poluidor. A inulina é um ingrediente prebiótico que promove seletivamente o crescimento de culturas probióticas. Nesse âmbito, o objetivo deste estudo foi avaliar o efeito da composição da cultura de Lactococcus lactis (LL) em cocultura com Streptococcus thermophilus (ST) e da suplementação da base de soro de leite com inulina: (i) nos parâmetros cinéticos de acidificacão, (ii) no crescimento celular, (iii) na viscosidade do produto e (iv) na atividade antimicrobiana da nisina. A fermentação do soro de leite com Lactococcus lactis em cocultura com Streptococcus thermophilus proporcionou a maior taxa de acidificação (Vmax=7,93x10-3 upH/min), assim como apresentou o menor tempo para atingir a velocidade máxima de acidificação (Tvmax=1,13 h). A adição de 2% de inulina ao soro de leite fermentado pela cocultura binária fez com que o tempo para completar o cultivo fosse o mais curto (TpH4,5=4,43 h) quando comparado aos demais ensaios. Quanto ao crescimento celular, pode-se observar que a inulina não afetou significativamente a contagem microbiológica, quando as cepas ST e LL foram utilizadas separadamente no processo fermentativo. Em particular, a adição de 4% de inulina reduziu em 1,2 LogUFC/mL e 0,92 LogUFC/mL a contagem de ST e LL (em monocultura), respectivamente. Por outro lado, em coculturas binárias (ST-LL), percebeu-se ganho na contagem microbiológica nos ensaios que receberam suplementação do ingrediente prebiótico, ou seja, quando adicionados 2% e 4% de inulina, houve aumento de 1 LogUFC/mL e de 1,34 LogUFC/mL na contagem de ST, respectivamente. No caso da cepa LL em cocultura com ST, a suplementação de 2% e 4% do prebiótico aumentou em 0,31 LogUFC/mL e 0,75 LogUFC/mL, respectivamente. A concentração de ácido lático também foi mais elevada nos cultivos realizados com a cocultura binária, sendo 4,56 g/L (na ausência de inulina), 5,28 g/L (com adição de 2% de inulina) e 5,71 g/L (com suplementação de 4% de inulina). A viscosidade foi influenciada tanto pela adição de inulina como pelo efeito sinérgico da cocultura, sendo que o maior valor (7,38 mPas) foi obtido pela cocultura ST-LL e pela adição de 4% do ingrediente prebiótico. Quanto à produção de nisina, observou-se que, no cultivo em cocultura (ST-LL), a concentração de 2% de inulina aumentou em 102% a atividade antimicrobiana quando comparada com a cultura pura LL. Vale ressaltar que ambas as cepas satisfizeram os requisitos tecnológicos relativos à produção de laticínios funcionais

Lactic acid bacteria (LAB) are microorganisms that help in the organoleptic and functional characteristics and in the biopreservation of fermented products. The use of milk whey as a culture medium extols the concept of the production of high value-added biomolecules, such as bacteriocins, since it is a by-product generated by the dairy industry and considered a pollutant. Inulin is a prebiotic ingredient that promotes selectively the growth of probiotic cultures. In this context, the aim of this study was to evaluate the effect of culture composition Lactococcus lactis (LL) in co-culture with Streptococcus thermophilus (ST) and the supplementation of milk whey with inulin on: (i) the acidification kinetic parameters, (ii) the cell growth, (iii) the product viscosity, and (iv) the antimicrobial activity of nisin. The fermentation of milk whey by Lactococcus lactis in coculture with Streptococcus thermophilus provided the highest acidification rate (Vmax = 7.93x10-3 upH/min) and the shortest time to reach the maximum acidification rate ( TVmax = 1.13 h). The addition of 2% inulin in the binary coculture binary led to the shorter time to complete the fermentation (TpH4,5 = 4.43) compared to the other tests. With regard to cell growth, it can be observed that the addition of inulin did not affect the microbiological count of pure cultures of ST and LL strains in the fermentation process. In particular, the addition of 4% inulin reduced by 1.2 Log CFU/mL and 0.92 Log CFU/mL the counts of ST and LL (monoculture), respectively. In the other hand, the binary co-cultures cultivations (ST-LL) with the addition of 2% and 4% inulin increased by 1 LogCFU/mL and 1.34 Log CFU/mL in the case of the ST counts and 0.31 log CFU/mL and 0.75 log CFU/mL the counts of LL, respectively. Lactic acid concentration was higher in cultivations carried out by binary cocultures, thus being 4.56 g/L (in the absence of inulin), 5.28 g/L (with addition of 2% inulin) and 5.71g/L (supplemented with 4% inulin). The viscosity was influenced by the addition of prebiotic ingredient and by the synergistic effect of binary coculture, being the highest value (7.38 mPas) obtained by the addition of 4% inulin. Finally, as regards the production of nisin noted that in the binary coculture cultivations (ST-LL), the concentration of 2% inulin increased at 102% the antimicrobial activity when compared to the pure culture LL. It is worth mentioning that both strains met the technological requirements as regards the production of functional dairy products

Preparation and characterization of polyhydroxyalkanoate bioplastics with antibacterial activity / 生物工程学报

Polyhydroxyalkanoates (PHAs), as a novel class of biopolymer, are attracting more attention due to their diverse material properties and environment-independent biodegradability. Here we report the preparation of PHA exhibiting efficient antibacterial activity by embedding Nisin, a food additive generally recognized as safe, into poly(3-hydroxybutyrate-co-3-hydroxyhexanoate) (PHBHHx), a type of PHA with high biocompatibility. We first prepared Nisin-containing PHBHHx films using solvent casting method. Confocal laser scanning microscopy analysis showed that a well-mixed integrated structure of the films with an even distribution of the Nisin particles in the PHBHHx matrices. Then the antimicrobial activity of PHBHHx/Nisin films against Micrococcus luteus was quantified on agar plate by measuring the size of inhibition zone. Cultivation in liquid media further confirmed the releasing of Nisin from the films and the long-time antibacterial activity. Results showed that the threshold of Nisin concentration for long-time and effective inhibition against bacteria growth is 25 μg/g. These results altogether establish a technological foundation for the application of PHA in biomedicine and food industry.

Combined effect of a mixture of tetracycline, acid, and detergent, and Nisin against Enterococcus faecalis and Actinomyces viscosus biofilms

To evaluate the combined effect of a mixture of tetracycline, acid, and detergent [MTAD] and Nisin against Enterococcus faecalis [E. faecalis] and Actinomyces viscosus [A. viscosus] biofilms. This study was conducted between June and December 2013 in collaboration with Dental Caries Research Chair, College of Dentistry, King Saud University, Riyadh, Saudi Arabia. Single-species biofilms [n=9/species/observation period] were generated on membrane filter discs and subjected to 5, 10, or 15 minute incubation with MTADN [MTAD with 3% Nisin], 5.25% sodium hypochlorite [NaOCl], or normal saline. The colony forming units were counted using the Dark field colony counter. A 100% bactericidal effect of 5.25% NaOCl was noted during the 3 observation periods; a significant reduction [p=0.000] in mean survival rates of E. faecalis [77.3+13.6] and A. viscosus [39.6+12.6] was noted after 5 minutes exposure to MTADN compared with normal saline [78000000+5291503] declining to almost no growth after 10 and 15 minutes. The survival rates of the E. faecalis and A. viscosus biofilm were no different after treatment with MTADN and 5.25% NaOCl at the 3 observation periods [p=1.000]. A combination of MTAD and Nisin was as effective as NaOCl against E. faecalis and A. viscosus biofilms

Survey study of lipid effect on nisin nanoliposome formation and application in pasteurized milk as a food model

The use of bacteriocins, mainly nisin, is one of the most significant preservation technologies in food industries. Nisin encapsulation can improve stability and homogenous distribution in food matrices. In this study, liposomes of four various lipids [lipoid S 100, lipoid S PC-3, lipoid S PC and lipoid PC [DPPC]] were prepared by dehydration-rehydration method, compared for entrapment efficiency and lipid with the highest entrapment efficiency [DPPC] was characterized. Inhibitory effects of encapsulated [DPPC nanoliposomes] and free nisin on spoilage of pasteurized milk were also studied. Entrapment efficiency ranged from 14% [lipoid S 100] to 49% [DPPC]. DPPC nanoliposomes were large unilamellar vesicles [LUV] and had an asymmetric oval shape [elliptical] with a mean diameter of 136 nm. Our study revealed that pasteurized milk spoilage was delayed by both of free and encapsulated nisin, but free nisin [with 38 days] was significantly more efficient in comparison with encapsulated nisin [14 days]

Anti-listerial synergism of leaf essential oil of Metasequoia glyptostroboides with nisin in whole, low and skim milks

OBJECTIVE@#To examine the individual and synergistic anti-listerial effect of nisin and leaf essential oil of Metasequoia glyptostroboides (M. glyptostroboides) against one of the leading foodborne pathogens Listeria monocytogenes (L. monocytogenes) ATCC 19116 in milk samples.@*METHODS@#The whole (8%), low (1%) and skim (no fat content) milk samples were inoculated with L. monocytogenes ATCC 19116 along with leaf essential oil of M. glyptostroboides or nisin alone as well in combinations.@*RESULTS@#In this study, the leaf essential oil at the concentrations of 2% and 5% revealed strong anti-listerial effect against L. monocytogenes ATCC 19116 in all categories of milk samples. Nisin at the concentrations of 250 and 500 IU/mL displayed a strong inhibitory effect against ATCC 19116 as compared to the control group. Additionally, synergistic combinations of leaf essential oil (1%) and nisin (62.5, 125, 250 and 500 IU/mL) also had a remarkable anti-listerial synergism in all the tested milk samples including whole, low and skim milk after 14 days.@*CONCLUSIONS@#As a major finding, the leaf essential oil of M. glyptostroboides might be a useful candidate for using in food industry to control the growth of foodborne pathogenic bacteria as confirmed by its potent anti-listerial synergistic effect with nisin against L. monocytogenes ATCC 19116 in different milk samples.

Evaluación de la nisina como sustancia inactivadora de Bacillus licheniformis en el extracto líquido de café / Evaluation of the nisin as inactivator substance of Bacillus licheniformis to coffee liquid extract

Objetivo. Evaluar el efecto de la nisina en la inactivación de Bacillus licheniformis en el extracto líquido de café. Materiales y métodos. Se evaluó la acción de la nisina sobre Bacillus licheniformis en extractos líquidos de café variando su concentración, tiempo de incubación, concentración de solidos solubles (grados Brix) y la concentración bacteriana contaminante. Resultados. Se observó que la concentración de nisina, para obtener un efecto inhibitorio del 55%, sin alterar las propiedades fisicoquímicas y sensoriales del producto, es 500 UI/ml que corresponden a 12.5 mg/L. Además, se determinó que la concentración de nisina 1000 UI/ml puede actuar satisfactoriamente en poblaciones bacterianas menores de 5x10(4) UFC/ml en un período de 48 horas. Con relación al efecto de concentración de sólidos solubles en la inactivación del microorganismo, no se encontraron diferencias significativas para un rango entre 15 y 45°Brix. Conclusiones. A partir de este estudio se puede concluir que la nisina puede ser usada como preservante del extracto de líquido de café sin afectar sensorialmente el producto, teniendo en cuenta la concentración bacteriana contaminante y el tiempo de incubación.

Objective. To evaluate the effect of nisin on the inactivation of Bacillus licheniformis to coffee liquid extract. Materials and methods. The action of nisin on Bacillus licheniformis into liquid coffee extracts was evaluated by varying its concentration, incubation time, concentration of soluble solids (°Brix) and bacterial contaminant concentration. Results. The results indicated that the concentration of nisin to achieve the inhibitory effect without affecting the physicochemical and sensory properties of the product is 500 IU/ml corresponding to 12.5 mg/L. Additionally, High levels of nisin 1000 IU/ml can act successfully in bacterial populations lower than 5x10(4) CFU/ml over a period of 48 hours. Furthermore, the concentration of soluble solids did not show a statistically significant effect for values from 15 to 45 °Brix. Conclusions. From this study it can be concluded that nisin may be used as a preservative in liquid coffee extract without sensorially affecting the product, taking into account the bacterial contaminant concentration and incubation time.

Antibacterial activity of bacteriocin-like substance P34 on Listeria monocytogenes in chicken sausage

The antimicrobial activity of the bacteriocin-like substance (BLS) P34 against Listeria monocytogenes was investigated in chicken sausage. The BLS was applied to chicken sausages (256 AU g-1) previously inoculated with a suspension of 10² cfu g-1 of L. monocytogenes. BLS P34 inhibited the indicator microorganism in situ in all incubation times for up to 10 days at 5 °C. The effectiveness of BLS P34 was increased when it was added in combination with nisin. The bacteriocin was also tested in natural eatable natural bovine wrapping (salty semi-dried tripe) against the same indicator microorganism, also showing inhibitory capability in vitro. BLS P34 showed potential to control L. monocytogenes in refrigerated meat products.

Antimicrobial activity of the Nisin Z producer Lactococcus lactis subsp. lactis Lc08 against Listeria monocytogenes in skim milk / Atividade antimicrobiana de Lactococcus lactis subsp. lactics Lc08 produtor de Nisina Z contra Listeria monocytogenes em leite desnatado

The presented study aimed to verify the effect of different pH values, enzyme solutions and heat treatments on the antimicrobial activity of the bacteriocinogenic strain Lactococcus lactis subsp. lactis Lc08 and to test their antimicrobial activity against Listeria monocytogenes in reconstituted skim milk at refrigeration temperatures. This strain was previously described as a nisin Z producer and capable of inhibiting L. monocytogenes growth in in vitro tests. The antimicrobial activity of the bacteriocin cell-free supernatant of Lc08 was sensitive to enzyme treatments (except papain). The pH values and heating (65ºC for 30min, 75ºC for 15s) had no apparent effect on the antimicrobial activity of the bacteriocin produced by Lc08. Only treatment at autoclave conditions result in loss of their antimicrobial activity. Lc08 presented antimicrobial activity against L. monocytogenes in the milk system after 12h at 25ºC. No effect was found at 7ºC. The results show the application viability of the Lc08 in food systems as a biopreservative against L. monocytogenes.

O presente estudo teve como objetivo verificar o efeito de diferentes valores de pH, soluções enzimáticas e tratamentos térmicos na atividade antimicrobiana da cepa bacteriocinogênica Lactococcus lactis subsp. lactis Lc08 e testar sua atividade antagonista contra Listeria monocytogenes em leite desnatado reconstituído em diferentes temperaturas de estocagem. Essa cepa já foi descrita como produtora de nisina Z e capaz de inibir o desenvolvimento de L. monocytogenes em testes in vitro. A atividade antimicrobiana do sobrenadante de Lc08 contendo a bacteriocina produzida e livre de células foi sensível ao tratamento pelas enzimas testadas (exceto papaína). A aplicação de diferentes valores de pH e o tratamento térmico (65ºC por 30 min, 75ºC por 15s) não influenciaram na atividade antimicrobiana da bacteriocina produzida por Lc08. Apenas o tratamento em autoclave resultou em perda da sua capacidade em inibir o desenvolvimento de L. monocytogenes. A cepa Lc08 apresentou atividade antagonista contra L. monocytogenes em leite após período de estocagem de 12h a 25ºC. Não foi observado efeito a 7ºC. Os resultados mostram a viabilidade de aplicação da cultura Lc08 ou de sua bacteriocina em produtos lácteos como bioconservador contra L. monocytogenes.

Antibacterial efficacy of Nisin, Pediocin 34 and Enterocin FH99 against Listeria monocytogenes and cross resistance of its bacteriocin resistant variants to common food preservatives

Antilisterial efficiency of three bacteriocins, viz, Nisin, Pediocin 34 and Enterocin FH99 was tested individually and in combination against Listeria mononcytogenes ATCC 53135. A greater antibacterial effect was observed when the bacteriocins were combined in pairs, indicating that the use of more than one LAB bacteriocin in combination have a higher antibacterial action than when used individually. Variants of Listeria monocytogenes ATCC 53135 resistant to Nisin, Pediocin 34 and Enterocin FH99 were developed. Bacteriocin cross-resistance of wild type and their corresponding resistant variants were assessed and results showed that resistance to a bacteriocin may extend to other bacteriocins within the same class. Resistance to Pediocin 34 conferred cross resistance to Enterocin FH 99 but not to Nisin. Similarly resistance to Enterocin FH99 conferred cross resistance to Pediocin 34 but not to Nisin. Also, the sensitivity of Nisin, Pediocin 34 and Enterocin FH99 resistant variants of Listeria monocytogenes to low pH, salt, sodium nitrite, and potassium sorbate was assayed in broth and compared to the parental wild-type strain. The Nisin, Pediocin 34 and Enterocin FH99 resistant variants did not have intrinsic resistance to low pH, sodium chloride, potassium sorbate, or sodium nitrite. In no case were the bacteriocin resistant Listeria monocytogenes variants examined were more resistant to inhibitors than the parental strains.

[Antimicrobial efficacy of Mentha spicata essential oil and nisin in combination on Listeria monocytogenes]

Natural biopreservative are as alternative approach for controlling growth of food borne microorganisms such as Listeria monocytogenes. Essential oils [EOs] possess antibacterial properties. Mentha is one of the most common aromatic plants that widely used as medicinal and biopreservative in food. Nisin a well known antibacterial peptide to effectively antagonize a broad spectrum of bacteria, and is widely used as preservative in food. The aim of this work was to investigate the antimicrobial efficacies of nisin and Mentha spicata essential oil in combination against Listeria monocytogenes. The effects of different temperatures [4, 9 and 14°C], pH [5, 6 and 7] and NaCl concentrations [0, 1, 2 and 4%] were determinate. Description study. Essential oil content of M. Spicata had 18 components. The dominant active components were carvone [78.76%], limonene [11.50%] and menthol [1%]. Minimum inhibitory concentrations for the essential oil and nisin were 160 micro ml and 320IU/ml, respectively. A synergy of low pH values, high temperatures and high NaCl concentrations was observed. Our results found that the combination effects of M. Spicata and nisin in all experimental concentrations significantly reduced the numbers of L. monocytogenes

[Effects of nisin and thyme essential oil, individually and in combination, on inoculated populations of Listeria monocytogenes in minced silver carp]

Food poisoning caused by Listeriamonocytogenes results in death in 30% of the cases. Considering the high probability of L. monocytogenes contamination of local fish, the present study aimed at investigating the effects of thyme [Zataria multiflora Boiss] essential oil [EO] and nisin, individually and in combination, on the growth of L. monocytogenes in minced silver carp during refrigerated storage. Minced fish samples were inoculated with 1x10[4] cfu/g of L. monocytogenes. A total of 11 samples were inoculaetd with thyme EO at a concentration [weight/volume]of 0.3%, 0.8% or 1.2%, nisin at a concentration of 500 or 1000 IU/g, or a combination of the two. The treated and control samples were packaged in plastic bags and kept at refrigerator temperature for 12 days.. Samples were cultured on CHROMagarTM Listeria every 2 days and the bacteri counted. Nisin at two different levels [500 and 1000 IU/g]could not inhibit the growth of L.monocytogenes to a level below the acceptable level in raw food [100 cells/g]. The antibacterial activity of nisin decreased during the storage period, while simultaneous use of nisin and thyme EO at a concentartion of 0.8 and 1.2% reduced L. monocytogenes viable count to a level below the acceptable limit during 12 days. A combination of 0.8% thyme [weight/volume]and 1000 IU/g nisin has the best inhibitory effect on growth of L. monocytogenes in minced silver carp during cold [4[degree sign] C] storage

Heterologous expression of stearoyl-CoA desaturase-1 in Lactococcus lactis NZ3900 / 生物工程学报

The possibility of heterologous expression of human Stearoyl-CoA Desaturase (scd1) was investigated. The scd1 encoding sequence was inserted into the pNZ8149 to generate the pNZ8149-scd1 expression plasmids. Then we introduced the pNZ8149-scd1 construct into the Lactococcus lactis NZ3900 to investigate its enzyme activity. The results show that heterologous expressed SCD1 enzyme resulted in a 92%-169% increase in the C16:1n-7 and a 53-127% increase in the C18:1n-7 (P<0.05). The SCD1 enzyme was capable of producing n-7 fatty acids in Lactococcus lactis efficiently. It also suggests that the fatty acid desaturases can be heterologous expressed in Lactococcus lactis to produce the helpful fatty acids.

Effect of overexpressing Nisin A structural gene nisA on Nisin A production / 生物工程学报

Nisin is an antimicrobial peptide widely used in food industry. In this study, Nisin A production in Lactococcus lactis ATCC 11454 was improved by overexpression of Nisin A structural gene nisA through introducing a shuttle expression vector pMG36ek-nisA and an integrated vector pDG780-nisA into the host strain. The differences of growth profiles and Nisin A production level between the two obtained genetic engineering strains FMM1/FMM2 and the parent strain were investigated. Our results show that while the growth profile (the growth rate, biomass and pH) of FMM1 was similar to the parent strain, its Nisin A production increased 31%. In contrast, the biomass of FMM2 was notably lower than the parent strain, while its yield of Nisin A enhanced slightly. The transcription level of genes involved in Nisin A biosynthesis in both engineering strains was further detected by RT-PCR. We found that all the 11 Nisin A biosynthetic genes in FMM1 and FMM2 had a higher transcription level than those in the parent strain, and these genes exhibited more significant increasing degree of transcription level in FMM1 which hosted the autonomous replicating nisA gene. These data suggest that expression of nisA may act as a rate-limit factor in Nisin A biosynthesis. In conclusion, this work provides a new method to improve Nisin A production by increasing the transcription level of nisA, paving the way to further large-scale industrial production of Nisin A.

Produção de nisina em leite desnatado diluído por Lactococcus lactis subsp. lactis ATCC 11454 em biorreator / Nisin production in diluted skimmed milk utilizing Lactococcus lactis subsp. lactis ATCC 11454 in bioreactor

Nisina é um peptídeo antimicrobiano natural produzido por Lactococcus lactis subsp. lactis ATCC 11454 durante a fase exponencial de crescimento. A bacteriocina é usada como conservante natural de alimentos, uma vez que mostra atividade antimicrobiana contra bactérias Gram-positivas e esporos. Tem potencial aplicação em inúmeros campos (farmacêutico, veterinário e cosméticos). O objetivo deste trabalho foi estudar a cinética de crescimento bacteriano e a produção de nisina em biorreator, utilizando leite desnatado diluído, como um meio de cultura a baixo custo. Também foram avaliados os consumos de açúcar e proteína, formação de ácido lático e adsorção de nisina nas células produtoras durante os processos de produção de nisina. Pré-cultivos com 107 UFC.mL-1 de Lactococcus lactis foram cultivados em biorreator de 2 L contendo 25 por cento de leite desnatado diluído em água (1,5 L, pH 6,7). Os ensaios foram esenvolvidos a 30°C por 52 horas, variando a agitação e aeração: (i) 200 rpm (0,0, 0,5, 1,0 e 2,0 L.min-1) e (ii) 100 rpm (0,0 e 0,5 L.min-1). A atividade de nisina foi avaliada pelo método de difusão em ágar, utilizando Lactobacillus sakei ATCC 15521 como microrganismo sensível à ação de nisina. A melhor concentração de nisina (62,68 mg.L-1 ou 2511,89 AU.mL-1), foi obtida em 16 horas, 200 rpm e sem aeração (kLa = 5,29 x 10-3 h-1). A adsorção de nisina nas células produtoras foram baixas (6,8 - 15,1 por cento), quando comparadas com a atividade do sobrenadante. Estes resultados mostraram que o meio de cultivo composto por leite desnatado diluído favoreceu o crescimento celular e produção associada ao crescimento da nisina. Foram realizados estudos preliminares de liofilização (bioconservação) e purificação por cromatografia da nisina produzida em biorreator. A liofilização apresentou perda da atividade de nisina (24,8 por cento), enquanto a purificação por cromatografia de interação hidrofóbica com resina Butyl-Sepharose,...

Nisin is a natural antimicrobial peptide produced by Lactococcus lactis subsp. lactis ATCC 11454 during its exponential growth phase. The bacteriocin is used as natural food preservative due to its antimicrobial activity against Gram-positive bacteria and outgrowth of spores. This property allows its application in numerous fields (pharmaceutical, veterinary and cosmetic). The aim of this work was to study the bacterial growth kinetics of L. lactis and respective nisin production in bioreactor, using diluted skimmed milk as an inexpensive medium. During the production, the consumption of sugar and protein, lactic acid formation and nisin adsorption on the producer strain cells were evaluated. Pre-cultivation with 107 UFC.mL-1 of L. lactis were expanded in a 2 L bioreactor containing 25 percent diluted skimmed milk in water (1.5 L, pH 6.7). The assays were performed at 30°C for 52 hours, varying agitation and airflow rate: (i) 200 rpm (0.0, 0.5, 1.0 and 2.0 L.min-1) and (ii) 100 rpm (0.0, 0.5 L.min-1). Nisin activity was evaluated through diffusion assays using Lactobacillus sakei ATCC 15521 as sensitive strain. The best nisin concentration (62.68 mg.L-1 or 2511.89 AU.mL-1), was achieved at 16 hours, 200 rpm and with no airflow rate (kLa = 5.29 x 10-3 h-1). The quantity of nisin adsorbed by the producer cells were low (6.8 -15.1 percent) when compared to the quantity released in the supernatant. These results showed that diluted skimmed milk supported cell growth and growth-associated nisin. Preliminary assays of lyophilization (biopreservation) and purification by chromatography of nisin produced in bioreactor were performed. Lyophilization presented a loss of nisin activity (24.8 percent) while purification by hydrophobic interaction chromatography with Butyl-Sepharose column recovered 40 percent of the activity, showing that both processes can be applied to the bacteriocin.

Caracterização da bacteriocina produzida por Lactococcus lactis subsp. lactis MK02R isolado de rúcula (Euruca sativa Mill.) e avaliação do seu potencial probiótico utilizando o modelo dinâmico TIM-1 / Characterization of the bacteriocin produced by Lactococcus lactis subsp. lactis isolated MK02R rocket salad (Euruca sativa Mill.) and evaluation of its potential probiotic using the dynamic model TIM-1

Após a constatação da escassez de estudos realizados com vegetais crus na busca por novas estirpes de bactérias láticas (BAL) produtoras de bacteriocinas e diante do potencial tecnológico da aplicação destas cepas tanto como agentes de conservação em alimento, bem como cultura probiótica em alimentos funcionais, este estudo objetivou isolar e identificar cepas de bactérias láticas potencialmente bacteriocinogênicas de amostras de rúcula obtidas no comércio local de São Paulo, SP - Brasil, identificar e caracterizar as bacteriocinas produzidas pelos isolados e avaliar o potencial probiótico dos isolados testando sua sobrevivência no modelo dinâmico do trato gastrointestinal TNO gastro-Intestinal Model - TIM-1 disponível no TNO (The Netherlands Organization for Applied Scientific Research) divisão Quality of Life (Zeist, Holanda). A produção de bacteriocinas neste modelo também foi avaliada, comparando-se com L. sakei 2a, também produtora de bacteriocinas e ainda avaliou-se a interferência na viabilidade de E. faecium LMA1. A cepa Lactococcus lactis subsp. lactis MK02R de rúcula produziu uma bacteriocina sensível à enzimas proteolíticas, termoestável e não influenciada pelo pH, sendo capaz de inibir Enterococcus faecium, Lactobacillus sakei, Listeria innocua, Lactobacillus delbrueckii e Listeria Monocytogenes de diferentes grupos sorológicos. Os ensaios genéticos utilizando primers Nisf e Nisr confirmaram que a bacteriocina MK02R é uma nisina, apresentando uma alteração dos aminoácidos no peptídeo líder em relação às nisinas A, Z, Q, F e U, porém com a estrutura do peptídeo maduro idêntica ao da nisina F. Estes resultados foram confirmados por espectrometria de massas de amostras purificadas por HPLC. L. lactis MK02R resistiu à passagem no modelo dinâmico TIM-1, apresentando uma alta capacidade de sobreviver nas condições simuladas do trato gastrointestinal humano. Entretanto, não foi capaz de causar a redução no número de E. faecium LMA1. Em contrapartida, L. sakei 2a, mesmo apresentando uma sobrevivência menor, foi capaz de causar uma redução de 70% na população de E. faecium LMA1 no ambiente simulado do TGI. Não foi detectada atividade residual da ação antimicrobiana das bacteriocinas produzidas por L. lactis MK02R ou L. sakei 2a após a passagem pelo modelo dinâmico TIM-1. Estes resultados evidenciam a possível aplicação de L. lactis MK02R como um agente de controle biológico na conservação de alimentos e também como uma cultura potencialmente probiótica

Given the scarcity of studies performed with raw vegetables addressing the search for new bacteriocinogenic strains of lactic acid bacteria (LAB) and considering the technological application of these strains as food preservatives and probiotic cultures in functional foods, this study was aimed at isolation and identification of bacteriocinogenic LAB strains from samples of rocket salad obtained in the local market of São Paulo, SP - Brazil, subsequent characterization of the bacteriocins produced by these LABs and evaluation of their probiotic potential by testing their survival in the dynamic gastrointestinal model TNO gastro- Intestinal-Model - TIM-1, available at the TNO (Netherlands Organization for Applied Scientific Research) Quality of Life division (Zeist, Netherlands). The studies in the TIM-1 model were also done with another bacteriocinogenic strain L. sakei 2a for comparison, evaluating their interference on the viability of E. faecium LMA1. The bacteriocin produced by strain Lactococcus lactis subsp. lactis MK02R isolated from rocket salad was sensitive to proteolytic enzymes, heat-stable and not influenced by the pH. The bacteriocin inhibited the growth of Enterococcus faecium, Lactobacillus sakei, Listeria innocua, Lactobacillus delbrueckii the primers Nisf and Nisr indicated that the bacteriocin produced by the strain MK02R is a nisin, with a change in the amino acid sequence of the leader peptide when compared to nisin A, Z, Q, U and F, but with the structure of the mature peptide homologous to that of nisin F. These results were confirmed by mass spectrometry of purified samples obtained by HPLC. L. lactis MK02R withstood the test in the dynamic model TIM-1, presenting capability to survive in the simulated conditions of the human gastrointestinal tract. However, the strain was not able to cause a reduction in the number of E. faecium LMA1. On the other hand, L. sakei 2a, even presenting lower survival, was able to cause 70% reduction in the population of E. faecium LMA1 in the gut simulated environment. No residual antimicrobial activity of bacteriocin produced by L. lactis MK02R or L. sakei 2a was detected after the transit through the dynamic model TIM-1. These results demonstrate the possible application of L. lactis MK02R both as a biocontrol agent in food preservation and as a potentially probiotic culture

[Study on the growth of Staphylococcus aureus in processed fillets of silver carp with salt and nisin]

There is increasing demand for use of natural preservatives such as bacteriocins to control foodborne pathogens in seafoods. This study was performed to evaluate the antimicrobial effects of Nisin on Staphylococcus aureus in light and heavy salted silver carp fillets [4 and 8% NaCl]. Effect of different concentrations of Nisin [0, 0.15, 0.25, 0.75, 1.5 micro g/ml] on behavior of S.aureurs at unfavourable refrigeration storage temperature [10 [degree sign]C] was determined by evaluation of the bacterial growth in salted fish fillets. The results showed that used concentrations of Nisin had inhibitory effect on the growth of S.aureus in light and heavy salted fish fillets compared to the control [p<0.05]. This study showed inhibitory effect of Nisin on the growth of S.aureus. Therefore it can be considered as a natural preservative in light and heavy salted fish