Preventive effects of Bifidobacterium lactis Probio-M8 on ovalbumin-induced food allergy in mice

Food allergy is a significant public health concern globally.Certain probiotics have been found to enhance food allergy by regulating immune-microbe interactions in animal models and patients.However,the effects of Bifidobacterium lactis Probio-M8 on food allergy have not been thoroughly investigated.The present study examined the anti-allergic properties of Probio-M8,particularly in relation to immune response and gut microbiota composition.Results demonstrate that oral administration of Probio-M8 effectively mitigated the allergy symptoms triggered by ovalbumin(OVA)by ameliorating the morphological damage in the jejunum,reducing OVA-specific IgE and histamine levels in the serum,and suppressing Th2 cytokines(interleukin(IL)4 and IL-13)while increasing Th1 cytokines(interferon(IFN)γ)and regulatory T(Treg)cytokines(IL-10 and transforming growth factor(TGF)β1)in the culture supernatants of splenic cells.Furthermore,Probio-M8 effectively altered the diversity and composition of gut microbiota,particularly the relative abundances of Akkermansia_muciniphila in OVA-induced mice.Compared to the OVA group,the Probio-M8 group showed a decrease in the relative abundance of Akkermansia_muciniphila.In conclusion,Probio-M8 demonstrates the potential to alleviate food allergy by regulating the Th1/Th2 response and modulating gut microbiota,thereby offering a novel therapeutic strategy for patients with food allergy.

仿刺参(Apostichopus japonicus)肠道源乳酸乳球菌(Lactococcus lactis)的分离鉴定及其益生特性分析

利用MRS固体培养基从南移仿刺参肠道中分离得到1株优势乳酸菌,命名为AJC-XP-15,其最适生长温度为30℃,最适生长pH为6.5;其表面疏水性和自聚率分别为34.56%和35.61%,经16S RNA基因序列分析,并结合形态学和生理生化特性将其鉴定为乳酸乳球菌(Lactococcus lactis)。拮抗实验结果显示,菌株AJC-XP-15及其发酵上清液对塔氏弧菌(Vibriotubiashii)、哈维氏弧菌(V.harveyi)、副溶血弧菌(V.parahaemolyticus,VP)和嗜水气单胞菌(Aeromonas hydrophila)等病原菌具有很好的抑制作用;体外益生实验表明,菌株AJC-XP-15对人工胃肠液的耐受性很好,在pH3.0的模拟人工胃液处理3 h后的存活率为71.43%,在pH 6.8的模拟人工肠液处理3 h后的存活率为92.1%;抗氧化能力结果显示,菌株AJC-XP-15的无细胞提取物对DPPH自由基和羟自由基的清除能力最强,分别为(82.67±6.92)%和(15.36±2.95)%,其发酵上清液对超氧阴离子自由基的清除能力最强,为(26.36±2.58)%;药物敏感性分析结果显示,菌株AJC-XP-15对四环素、恩诺沙星、盐酸多西环素等抗生素敏感,对氟苯尼考、复方新诺明、庆大霉素等抗生素不敏感。研究结果可为仿刺参肠道源乳酸菌的分离鉴定和候选益生菌种筛选提供参考依据。

Lactococcus lactis谷氨酸脱羧酶的分离纯化及部分酶学性质

采用溶菌酶处理、超声破碎、硫酸铵分级、3次DEAE SepharoseCL 6B层析、SephacrylS 200凝胶过滤等手段,从乳酸菌细胞中分离纯化得到谷氨酸脱羧酶(GAD;EC4.1.1.15).纯化酶的比活力为14.4U/mg,纯化倍数31,回收率3.8%,SDS PAGE得到亚基的相对分子质量为65000.L 谷氨酸是测试的18种氨基酸中的惟一作用底物,表明乳酸菌GAD具有高度的底物专一性.酶在pH值3.6～5.4时具有活性,pH值4.7时活性最高,pH值6.0以上时没有活力.耐热性实验表明,pH值4.7条件下处理5h后,60℃时该酶仍能保持80%以上的活性,80℃以上迅速失活,由Lineweaver Burk作图得到的GAD的Km值为1.9mmol/L.

酸胁迫对乳酸链球菌素产生菌Lactococcus lactis LN26的影响

为研究乳酸链球菌素产生菌Lactococcus lactis LN26在酸胁迫条件下的应激反应,本试验测定了在不同pH值梯度条件下,Lactococcus lactis LN26菌体浓度、胞内pH、H+-ATPase活性、胞内ATP浓度、细菌素产量。结果表明:随着酸度的增加Lactococcus lactis LN26生长受到明显抑制,在pH值3.0条件下,菌体浓度最低;酸胁迫增强了H+-ATPase活性,在pH值3.0处理时,H+-ATPase活性最高;酸胁迫对乳酸链球菌素的合成具有抑制作用。pH值为6.0时最适合乳酸链球菌素产生菌Lactococcus lactis LN26的生长以及乳酸链球菌素的合成。

离子束注入提高Trichosporon lactis T立体拆分布洛芬水平的研究

以从土壤中分离筛选到的可立体选择性水解布洛芬乙酯生成S-布洛芬的菌株Trichosporon lactis T为出发菌株，对其进行能量30KeV，剂量1×10^15-5×10^15 ions／cm^2的低能N^＋注入，筛选立体选择性水解布洛芬乙酯活性高的诱变株。菌株T．1actis T，在4×10^15 ions／cm^2的诱变剂量下突变率最高，正向和负向突变率分别达32．9％和37．1％，因此选定该荆量为T．lactis T的最佳N^＋离子注入剂量。经离子束诱变，通过初筛和复筛，共筛选到7株水解布洛芬乙酯的高产菌株，其中诱变株K1培养24h时酶活力比出发菌株T高50％，且具有较好的遗传稳定性。将菌株K1和出发菌株T培养24h，分别加入布洛芬乙酯水解24h，二者水解布洛芬乙酯生成S-布洛芬旋光度均为＋54．1°，对映体过量值ee％均为98％，K1菌株水解的产量达6．96g／L，而出发株仅为4．24g／L。

Lactobacillus delbrueckii subsp. bulgaricus和Streptococcus thermophilus接种比例对Bifidobacterium lactis益生菌发酵乳品质的影响

将Lactobacillus delbrueckii subsp.bulgaricus ND02(LB-ND02)和Streptococcus thermophilus ND03(ST-ND03)按1∶1、1∶10、1∶100、1∶1000接种于脱脂乳中,同时接入益生菌Bifidobacterium lactis V9(B.lactis V9,接种量为2.0×107g-1),于42℃进行发酵。通过对发酵及贮藏过程中发酵乳指标的测定,评价LB-ND02和ST-ND03的接种比例对发酵乳品质的影响。结果表明,随着LB-ND02接种比例减小,凝乳时间显著延长,B.lactis V9活菌数显著提高。4℃贮藏28 d后,随LB-ND02接种比例减小,B.lactis V9存活率差异显著,后酸化也显著减弱。研究发现,LB-ND02和ST-ND03的接种比例,显著影响发酵乳的发酵时间、B.lactis V9活菌数、后酸化及黏度。

益生菌Lactobacillus casei Zhang和Bifidobacterium lactis V9接种比例及乳固形物含量对其活菌数的影响

将益生菌Lactobacillus casei Zhang和Bifidobacterium lactis V9按1∶3、1∶1、3∶1(总接种量为2×106cfu/g)接种于总固形物含量为10%、12%、14%、16%的脱脂牛乳中,37℃恒温发酵至pH 4.5,于4℃贮藏28 d。测定发酵及贮藏结束2株益生菌活菌数。试验结果表明,发酵结束,当研究固形物质量分数相同,接种比例为3∶1时,L.casei Zhang和B.lactis V9的活菌数最高。贮藏结束,当接种比例相同,所含乳固形物质量分数为14%时,两株益生菌存活率显著高于其他固形物含量组(P<0.05)。本研究显示,L.casei Zhang和B.lactis接种比例为3∶1,乳固形物质量分数为14%时,两株益生菌生长良好且存活率高,适宜生产应用。

益生菌Lactobacillus casei Zhang和Bifidobacterium lactis V9在活性乳酸菌饮料中的应用

以L.casei Zhang和B.lactis V9为发酵菌株制备活性乳酸菌饮料,评价2株益生菌对活性乳酸菌饮料感官品质的影响及在货架期内的存活稳定性,为L.casei Zhang和B.lactis V9在产品中的应用提供基础数据。研究结果显示,利用L.casei Zhang单独发酵制备活性乳酸菌饮料的最适添加量为1.0×107CFU/g,4℃28 d贮藏期内保持高于3.0×108CFU/g水平;最佳复配发酵组合为L.casei Zhang+B.animalis V9(1∶1,2.0×107CFU/g),4℃28 d贮藏期内样品中总的益生菌活菌数保持5.0×108CFU/g以上,且在口感和滋气味方面感官评价分值最高;B.animalis V9与L.casei Zhang共同发酵发生协同效应,B.animalis V9的添加可促进L.casei Zhang的增殖,且有利于改善L.casei Zhang单株发酵样品的感官品质。

Lactobacillus casei Zhang和Bifidobacterium lactis V9在益生菌酸乳中的应用

益生菌在酸乳中的应用已非常普遍,将Lactobacillus casei Zhang单独(样品A)以及与Bifidobacterium lactis V9复合(样品B),同酸乳发酵剂(G027)共同发酵益生菌酸乳,于4℃贮藏21 d。结果表明,整个贮藏期间2组样品间的黏度和持水性差异不显著;贮藏期间2组样品间L.casei Zhang的活菌数没有差异,且L.casei Zhang和B.lactis V9的活菌数不随贮藏时间而降低;L.casei Zhang和B.lactis V9复合益生菌酸奶感官评价优于单独添加L.casei Zhang酸乳。L.casei Zhang和B.lactis V9复合添加,更适合于益生菌酸乳的生产。

过量表达purC基因对Lactococcus lactis NZ9000酸胁迫抗性的影响

通过在乳酸乳球菌Lactococcus lactis NZ9000中过量表达嘌呤代谢途径中编码磷酸核糖基氨基咪唑-琥珀酰胺合酶的pur C基因,测定了重组菌株在酸胁迫条件下的存活率,经p H 4. 0胁迫培养4 h后,重组菌株的存活率为对照菌株的83. 2倍。采用ATP测定试剂盒和高效液相色谱分别考察菌株胞内ATP和氨基酸含量。结果表明,重组菌株在酸胁迫条件下维持了更高的胞内ATP和氨基酸(天冬氨酸、苏氨酸、谷氨酸和γ-氨基丁酸)含量,分别通过为细胞提供能量和消耗胞内质子的方式,帮助乳酸乳球菌抵御酸胁迫。研究发现,在乳酸乳球菌中过表达pur C基因能够明显提高菌株的酸胁迫抗性,同时为进一步通过改造嘌呤代谢途径提高乳酸菌酸胁迫耐受性提供了新的思路。

Non-Fusion and Fusion Expression of β-Galactosidase from Lactobacillus bulgaricus in Lactococcus lactis

Objective To construct four recombinant Lactococcus lactis strains exhibiting high β-galactosidase activity in fusion or non-fusion ways, and to study the influence factors for their protein expression and secretion. Methods The gene fragments encoding β-galactosidase from two strains of Loctobacillus bulgaricus, wch9901 isolated from yogurt and 1.1480 purchased from the Chinese Academy of Sciences, were amplified and inserted into lactococcal expression vector pMG36e. For fusion expression, the open reading frame of the β-galactosidase gene was amplified, while for non-fusion expression, the open reading frame of the β-galactosidase gene was amplified with its native Shine-Dalgarno sequence upstream. The start codon of the β-galactosidase gene partially overlapped with the stop codon of vector origin open reading frame. Then, the recombinant plasmids were transformed into Escherichia coli DH5α and Lactococcus lactis subsp, lactis MG1363 and confirmed by determining β-galactosidase activities. Results The non-fusion expression plasmids showed a significantly higher β-galactosidase activity in transformed strains than the fusion expression plasmids. The highest enzyme activity was observed in Lactococcus lactis transformed with the non-fusion expression plasmids which were inserted into the β-galactosidase gene from Lactobacillus bulgaricus wch9901. The β-galactosidase activity was 2.75 times as high as that of the native counterpart. In addition, β-galactosidase expressed by recombinant plasmids in Lactococcus lactis could be secreted into the culture medium. The highest secretion rate （27.1%） was observed when the culture medium contained 20 g/L of lactose. Conclusion Different properties of the native bacteria may have some effects on the protein expression of recombinant plasmids. Non-fusion expression shows a higher enzyme activity in host bacteria. There may be a host-related weak secretion signal peptide gene within the structure gene of Lb. bulgaricus β-galactosidase, and its translation product may introduce the enzyme secretion out of cells in special hosts.

Autolytic and Proteolytic Properties of Strains of<i>Lactococcus lactis</i>Isolated from Different Vegetables, Raw-Milk Cheeses and Commercial Starter Cultures

The autolysis and proteolysis are important features in the strains of L. lactis used in the manufacture of cheese. The autolytic and proteolytic activity of L. lactis has been linked with the development of flavor and texture in the cheese. On the other hand, there is a growing interest in new strains isolated from raw-milk cheeses and vegetables. These wild-strains have showed different features of industrial importance in comparison with those observed in commercial cultures. However, it still not clear if the autolytic and proteolytic properties of these wild-strains differ from the industrial strains. The objective of this work was to assess the autolytic and proteolytic activities of 21 strains of L. lactis isolated from diverse sources. The rates of autolysis and proteolysis observed in vitro were highly strain-dependent. The pH and the NaCl concentration in the media affected significantly the autolysis of L. lactis. The strains isolated from vegetable showed in general low and medium autolytic activity, whereas the strains isolated from raw-milk cheeses had medium to high autolytic activity. The strain with highest proteolytic activity was a strain isolated from corn leaves. Although still not clear how this strain acquired this pronounced characteristic.

Construction and Immunogenicity of Recombinant Lactococcus lactis Expressing S1 Protein of Porcine Epidemic Diarrhea Virus(PEDV)

To evaluate the specific immune responses induced by recombinant Lactococcus lactis（L.lactis） which expresses porcine epidemic diarrhea virus（PEDV） S1 protein through oral administration,the spike gene fragment of PEDV was amplified from PEDV SDLY strain to construct p MG36 e-S1 recombinant plasmid.The recombinant plasmid was then electro-transferred into competent cells of L.lactis MG1363,to prepare the recombinant L.lactis expressing S1 protein of PEDV.The expression of target protein was identified by SDS-PAGE and Western-blot.New Zealand white rabbits were orally administered with the recombinant strain;the antibody titer in intestinal mucosa and serum was detected by neutralizing test;and the specific Ig G in serum was evaluated by indirect ELISA.The results showed that the recombinant L.lactis could effectively induce high level of Ig G in serum and high level of mucosal immune antibody.The recombinant L.lactis is qualified to be a potential oral vaccine because it could successfully stimulate both humoral and mucosal immune responses against PEDV.

重组L.lactis的研究进展及在兽用疫苗中的应用

乳酸乳球菌(L.lactis)被公认为食品安全级微生物,以其抗原性弱、不产生胞外酶和不在胃肠道内定植的优点在疫苗研发方面具有天然的优势。近年来,构建重组乳酸乳球菌已成为生物制药、疫苗研究的热点。本文对重组乳酸乳球菌的研究及其在兽用疫苗的应用进展进行了介绍。

Charge Transport in Bifidobacterium animalis subsp.lactis BB-12 under Various Atmospheres

The influence of relative humidity (RH) on quasistatic current-voltage (I-V) characteristics of Bifidobacterium animalis subsp. lactis BB-12 thin layers was studied for the first time. The value of electrical conductivity in 75% RH was found to be in the order of 10-7 (ohm·cm)-1, which was 106 orders of magnitude higher than that observed in dry atmosphere. It was concluded that RH played a key role in hysteresis behavior of the measured (I-V) characteristics. FTIR measurements showed that under water moisture environment, the associated bonds between amine and carboxyl group were greatly strengthened that was the source of free charge carries after ionization. The surface charge of Bifidobacterium animalis subsp. lactis BB-12 was found to be negative by zeta potential measurements, claiming that electrons were the charge carriers.

Inhibition mechanisms of secretome proteins from Paenibacillus polymyxa Kp10 and Lactococcus lactis Gh1 against methicillin-resistant Staphylococcus aureus and vancomycin-resistant Enterococcus

Objective:To determine the inhibition mechanisms of secretome protein extracted from Paenibacillus polymyxa Kp10(Kp10)and Lactococcus lactis Gh1(Gh1)against methicillin-resistant Staphylococcus aureus(MRSA)and vancomycin-resistant Enterococcus(VRE).Methods:The sensitivity and viability of MRSA and VRE treated with secretome proteins of Kp10 and Gh1 were determined using minimal inhibitory concentration,minimum bactericidal concentration,and time-to-kill assays.The morphological changes were observed using scanning electron microscopy and transmission electron microscopy.To elucidate the antimicrobial mechanism of secretome protein of Kp10 and Gh1 against MRSA and VRE,2D gel proteomic analysis using liquid chromatography-mass spectrometry was run by comparing upregulated and downregulated proteins,and the proton motive force study including the efflux of ATP,pH gradient,and the membrane potential study were conducted.Results:MRSA and VRE were sensitive to Kp10 and Gh1 secretome protein extracts and displayed apparent morphological and internal composition changes.Several proteins associated with cellular component functions were either downregulated or upregulated in treated MRSA and VRE by changing the membrane potential gradient.Conclusions:Kp10 and Gh1 secretome proteins reduce the growth of VRE and MRSA by damaging the cell membrane.Cell division,cell wall biosynthesis,and protein synthesis are involved in the inhibition mechanism.

Optimization of Medium Composition for Production of Recombinant Calf Chymosin from Kluyveromyces lactis in Submerged Fermentation

Response surface methodology was applied to optimize medium components for production of recombinant calf chymosin by Kluyveromyces lactis GG799.The previous data indicated that the most suitable carbon source,nitrogen source,salt and vitamin were glucose,yeast extract,KH2PO4 and Ca D-Pantothenate,respectively.The concentration of four media components were optimized by using central composite design of response surface methodology.The optimum medium composition for recombinant calf chymosin production was found to contain glucose 29.84 g· L-1,yeast extract 19.85 g·L-1,KH2PO4 0.1 g·L-1 and Ca D-Pantothenate 4.49 mg·L-1.The enzyme activity of recombinant calf chymosin was 722 U· mL-1,which was in an excellent agreement with the predicted value（723 U·mL-1）.The production of recombinant calf chymosin from Kluyveromyces lactis GG799 was effectively increased by response surface methodology.

NisP Is Related to Nisin Precursor Processing and Possibly to Immunity in Lactococcus Lactis

In this study, a plasmid was integrated into nisP, creating the first defined mutation in a nisin biosynthetic gene. The mutant strain secreted fully modified nisin with the N-terminal leader still attached.The presence of the leader was confirmed by N-terminal sequencing of the purified precursor. The dehydration and lanthionine formation of the precursor were already completed as active nisin could be formed by cleaving the leader from the inactive precursor by a trypsin treatment or by incubation with wild type cells. Nisin immunity of the NisP mutant strain was lowered to about 10% of the wild type immunity. The results show that NisP is needed for precursor processing and for development of high immunity of nisin.

Use of <i>Lactococcus lactis</i>Subsp. <i>Lactis</i>Strains to Inhibit the Development of Pathogens

Bovine mastitis affects the udder health and thus causing significant economic losses. Probiotic products based on the use of lactic acid bacteria (LAB) to limit pathogens multiplication and pre-infection risks can be an interesting alternative to post infection allopathic treatment with antibiotics. Lactococcus lactis is one of the most important bacteria used in dairy technology. In this work, a total of 21 Lactococcus lactis subsp. Lactis strains, 20 from goat milk whey and one strain from cow milk were used to evaluate their antibacterial activity against four pathogenic germs responsible for mastitis: Escherichia coli, Staphylococcus aureus, Streptococcus uberis and Streptococcus agalactiae. The nisin-producing cow milk strain was active against St. uberis and Str. Agalactiae using the well diffusion method. For the strains isolated from goat milk whey, no antimicrobial effect was observed against these pathogens. However, a different approach based on the growth of pathogenic bacteria interacting with the Lactococcus lactis strains in a minimum medium was used to study the barrier effect of LAB. The Lactococcus lactis strains S1 and S2 from goat milk whey depleted the growth of Sa. aureus, St. uberis and E. coli during 8 h and stopped the development of St. agalactiae.