双歧杆菌体外对Caco-2的黏附及其表面性质分析

【目的】体外测定双歧杆菌的黏附能力并对其表面性质进行分析。【方法】利用Caco-2细胞作为黏附模型体外测定七株菌的黏附能力,同时分析其自动聚集能力和表面疏水性,通过采用不同酶及化学物质处理双歧杆菌菌体细胞表面初步确定双歧杆菌细胞表面黏附相关化合物的类型,并对双歧杆菌表面蛋白进行电泳分析。【结果】自动聚集能力和表面疏水性均高的双歧杆菌菌株,其黏附能力高于自动聚集能力和表面疏水性均低的菌株,表现出明显的正相关。此外,受试菌株的黏附能力对蛋白酶和高碘酸钠敏感,利用LiCl对菌体表面蛋白进行提取后,其黏附能力明显下降,SDS-PAGE结果表明LiCl提取物中含有分子量大小不等的多个蛋白。【结论】双歧杆菌体外对Caco-2细胞的黏附具有菌株特异性,其黏附能力与表面疏水性质和自动聚集能力相关,此外,推测双歧杆菌表面可能含有能调节其黏附的糖蛋白类物质。     

婴幼儿粪便中双歧杆菌的分离及其菌株特性研究

为筛选具有潜在益生功能的双歧杆菌,本研究采用改良MRS培养基,从婴幼儿粪便中分离到5株菌株:AR499,AR667,AR668,AR669和AR610。通过16S r DNA测序分别鉴定为两歧双歧杆菌,短双歧杆菌,动物双歧杆菌,长双歧杆菌和假小链双歧杆菌。对其耐酸耐胆盐能力和黏附性能进行测试,结果表明,菌株AR499耐酸性较好,菌株AR610有较强的耐胆盐能力,菌株AR499的自动聚集能力和细胞表面疏水性都较高。实验表明,菌株AR499可作为一株耐受性和黏附性能较好的益生菌进一步深入研究,以期应用于优良双歧杆菌产品的开发。     

呼吸道潜在益生菌D-19表面疏水性及自动聚集能力的研究

目的 从健康儿童口咽部筛选出多株具有抑菌作用的链球菌D-19,探究链球菌D-19表面疏水性及自动聚集能力的影响因素.方法 利用菌体对碳氢化合物的黏附测定多株链球菌D-19的表面疏水率,紫外分光光度法测定D-19的自动聚集能力,并采用不同环境条件和蛋白酶处理菌体表面来确定菌体表面疏水率及自动聚集能力的影响因素.结果 链球...     

应用实时荧光定量PCR方法定量检测双歧杆菌对Caco-2细胞的黏附

【目的】采用实时荧光定量PCR的方法定量分析黏附于Caco-2细胞的双歧杆菌,并建立一种快速有效分离黏附于细胞的细菌的方法。【方法】采用Triton X-100溶液处理黏附于Caco-2细胞上的菌体,确定获得最佳分离效果的处理时间;建立实时荧光定量PCR定量检测双歧杆菌的方法,获得标准曲线,进行特异性、灵敏度、重复性评价;应用建立的方法分析11株双歧杆菌对Caco-2细胞的黏附能力。【结果】Triton X-100处理黏附于Caco-2细胞的双歧杆菌的最佳作用时间为10 min。实时荧光定量PCR定量检测双歧杆菌的方法重复性好、特异性强、灵敏度高;起始模板浓度范围在104?108 CFU/mL之间具有良好的线形关系,相关系数>99%,在该浓度范围线性方程为：y=?3.345 2x+37.637 0。应用建立的方法定量分析双歧杆菌的黏附能力,与直接镜检法相比差异不显著(P>0.05),检测时间由48 h缩短至4 h。【结论】Triton X-100分离处理结合实时荧光定量PCR方法是一种快速、有效的检测双歧杆菌对Caco-2细胞黏附能力的方法。     

灭活的双歧杆菌对EPEC的黏附抑制作用

目的：研究灭活的青春双歧杆菌DMS8504对肠致病灶大肠埃希菌（EPEC）黏附抑制作用。方法：通过与活菌比较,观察灭活的双歧杆菌粘附于人大肠癌CCL－229细胞后对EPEC的黏附抑制作用。结果：用SCS或pH5.0新鲜BS肉汤悬浮的双歧杆菌能够安全抑制EPEC的黏附,而仅用SCS或pH5.0新鲜BS肉汤均不能抑制其黏附。     

长寿老人源双歧杆菌优良菌株的筛选*

以人结肠腺癌细胞系HT-29细胞为试材,对来源于广西巴马百岁以上长寿老人肠道的24株双歧杆菌进行了体外黏附试验。结果发现,双歧杆菌均具有一定的黏附能力,其中TTF、Z2、TZ5和J-1菌株具有较高的黏附能力。进一步对4株初筛双歧杆菌耐胃酸、胆汁酸和合成B族维生素能力的试验发现,双歧杆菌TTF菌株不仅能合成较高的B1、B2、B6、B12等多种B族维生素,而且在pH 3.0的条件下处理120m in存活率达93.11%,同时在2%胆盐浓度下处理24h有较好的存活,具有显著的综合优势。     

蒙脱石对细菌黏附Caco-2细胞的影响

采用Caco-2细胞培养模型,观察两歧双歧杆菌、嗜酸乳杆菌、嗜水气单胞菌、副溶血弧菌、大肠杆菌、鼠伤寒沙门菌的黏附率,并在培养液中加入蒙脱石,计算蒙脱石对细菌黏附的阻断率,探讨蒙脱石对上述细菌黏附作用的影响。结果表明:所试菌与Caco-2细胞均有不同程度的黏附作用;蒙脱石对细菌黏附Caco-2细胞均有不同程度的阻断作用,对病原菌黏附Caco-2细胞的阻断作用要明显大于其对益生菌的阻断效果,其中对大肠杆菌、鼠伤寒沙门菌、嗜水气单胞菌、副溶血弧菌黏附的阻断率分别为54.22%、48.41%、60.53%、50.64%,而对两歧双歧杆菌、嗜酸乳杆菌黏附的阻断率分别为25.64%和21.49%。结果提示蒙脱石可有效阻断病原菌黏附,从而防治肠道细菌感染和细菌移位。     

木棉花对乳酸菌生长及保存活力的影响

通过实验研究木棉花对与人类关系密切的植物乳杆菌、两歧双歧杆菌、嗜热链球菌的生长及保存活力的影响。结果表明:木棉花对植物乳杆菌和两歧双歧杆菌的生长及保存活力有较大促进作用,而且此促进作用随着木棉花浓度的增大而增大。木棉花对嗜热链球菌的生长和保存活力的促进作用很小。因此,可考虑将木棉花适当添加到含有植物乳杆菌、两歧双歧杆菌的食品中,用以促进菌体的生长及保存活力,还可考虑利用木棉花制微生态制剂。     

细菌对肉鸡肠粘液的粘附作用

研究两歧双歧杆菌、嗜酸乳杆菌、禽大肠杆菌O78、大肠杆菌 ATCC 25922、鸡白痢沙门氏菌和鼠伤寒沙门氏菌与肉鸡不同部位肠粘液糖蛋白的粘附性能,探讨两歧双歧杆菌和嗜酸乳杆菌对所试病原菌的抗粘附作用。结果表明：在不同的肠道部位,两歧双歧杆菌、嗜酸乳杆菌、鸡白痢沙门氏菌和鼠伤寒沙门氏菌与肠粘液糖蛋白均有不同的粘附作用,而禽大肠杆菌O78、大肠杆菌 ATCC 25922在各肠段粘液上的粘附性能则相近;在相同的肠道部位,所试益生菌的粘附能力大于病原菌;两歧双歧杆菌和嗜酸乳杆菌对所试病原菌的粘附有不同的阻断作用,同时二者有时还存在互补抗粘附作用。     

新生婴儿源植物乳杆菌HLPL03的环境耐受性及其代谢功能低聚糖的生物学活性

【目的】解析健康新生婴儿胎便中植物乳杆菌HLPL03的益生功能,评价其环境耐受性及代谢功能低聚糖的生物学活性。【方法】通过耐受胃肠道条件、过氧化氢和抗生素试验,评估植物乳杆菌HLPL03对极端环境的耐受性;利用改良培养基,评价植物乳杆菌HLPL03代谢功能低聚糖的能力;同时,探究功能低聚糖对植物乳杆菌HLPL03抑菌活性、疏水性和黏附能力的影响。【结果】植物乳杆菌HLPL03在pH 2.5条件下培养3 h后,活菌数仍在10⁴ CFU/mL以上;在0.30%胆盐中培养6 h后,活菌数接近10⁷ CFU/mL;在1.0 mmol/L H₂O₂强氧化剂条件下培养6 h,活菌数显著升高(P<0.001);除低聚木糖外,植物乳杆菌HLPL03能代谢多种功能低聚糖,并对常见食源性致病菌具有较强的抑制能力;棉子糖是改善植物乳杆菌HLPL03生物学活性的最佳低聚糖,其能提高菌株表面疏水性达36.1%,且促进菌株在Caco-2细胞上的黏附率由16.78%提高至42.11%。【结论】健康新生婴儿源植物乳杆菌HLPL03具有良好的抗环境胁迫能力,且其生物学活性能被棉子糖等功能低聚糖有效促进,可作为特色乳酸菌进行研究和开发。     

Influence of cell surface properties on adhesion ability of bifidobacteria

Adhesion ability of bifidobacteria to the intestinal mucosa is considered to be the prerequisite for colonization of bifidobacteria and can protect against gastrointestinal pathogens infection. The aim of this study was to investigate bifidobacterial surface traits related to adhesion ability in vitro and characterize the cell surface substances that may be involved in the adhesion process of bifidobacteria. Twelve strains of Bifidobacterium spp. were studied for the correlation among their adhesion ability, autoaggregation ability and surface hydrophobicity. The strain that exhibited good adhesion ability also showed high degree of hydrophobicity and strong autoaggregation ability. Pepsin treatment had negative effect on the surface traits and adhesion ability of B. bifidum KLDS2.0603 (P < 0.01), it revealed that hydrophobicity, autoaggregation and adhesion process maybe mediated by proteinaceous components on the surface of cell. Moreover, the adhesion and autoaggregation ability decreased after extraction of B. bifidum KLDS2.0603 with 5 mol l⁻¹ LiCl, and an unreported 50-kDa surface protein which can bind to Caco-2 cell was observed by western blotting. Our results indicated that surface hydrophobicity and autoaggregation ability can be used together for preliminary screening the strains with high adhesion ability, and the present of the surface proteinaceous components would contribute to understand the interactions between bifidobacteria and human intestinal mucosa.     

Effects of environmental stresses on the physiological characteristics,adhesion ability and pathogen adhesion inhibition of Lactobacillus plantarum KLDS 1.0328

Changes in the physiological state and adhesion of probiotics under stresses affect their interaction with the host. The effects of osmotic (3% NaCl, 6% NaCl, and 3% NaCl + 3% KCl), acid (pH 5.0), and alkali (pH 8.0) stress on the physiological characteristics, adhesion ability and pathogen adhesion inhibition of Lactobacillus plantarum KLDS 1.0328 were investigated. The results showed that 6% NaCl resulted in lower acid production, growth and antimicrobial activity of cells compared to control and 3% NaCl treatment. Reduced surface hydrophobicity, aggregation ability, adhesion ability and pathogen adhesion inhibition were observed when L. plantarum KLDS 1.0328 was exposed to 6% NaCl. These changes were weakened when NaCl was partially replaced by KCl. Exposure to stresses other than alkali stress significantly increased the ratio of unsaturated fatty acid to saturated fatty acid in the cell membrane. The autoaggregation and adhesion ability of cells were increased under pH 5.0 treatment. The results demonstrated that the abilities of cells to adhere and inhibit pathogen adhesion were significantly positively correlated with the ability to coaggregate with pathogens. This study provides a basis for our understanding of the response of L. plantarum to stresses and the related molecular mechanisms.     

Live/dead state is not the factor influencing adhesion ability of Bifidobacterium animalis KLDS2.0603

Two essential requirements for probiotic bifidobacteria are that they be “live” and have “colonization” ability, following FAO/WHO guideline recommendations. The amount of research on the adhesion ability of bifidobacteria compares poorly with that of other probiotic bacteria, such as lactobacilli. The aim of the present study was to determine how gastrointestinal conditions affect the adhesion ability of bifidobacteria, and to investigate the relationship between the adhesion ability and the live/dead state of bifidobacteria. The adhesion ability of Bifidobacterium animalis KLDS2.0603 that had been subjected to the digestive enzymes, pepsin, trypsin, and proteinase K, was decreased significantly, but these treatments did not significantly change the strain’s survival rates, which were 98.78%, 97.60%, and 97.63% respectively. B. animalis KLDS2.0603 subjected to LiCl retained its adhesion ability but had a lower survival rate (59.28%) than the control group (P<0.01). B. animalis KLDS 2.0603 subjected to sodium metaperiodate exhibited higher adhesion ability than the control group (P<0.01), but the bacterial cells were killed totally. The results of transmission electron microscopy and laser scanning confocal microscopy showed that live/dead state of bifidobacteria was not one of the main factors that affected the adhesion ability of bifidobacteira, and that the substances affecting the adhesion ability of bifidobacteria were on the outer surface layer of the bifidobacterial cells. Our results also indicated that the substances related to the adhesion ability of bifidobacteria are proteinaceous. The above results will help us to understand the adhesion and colonization processes of bifidobacteria in the human gastrointestinal tract.     

Conditions affecting cell surface properties of human intestinal bifidobacteria

The cell surface properties of human intestinal bifidobacteria have been characterized for 30 strains isolated from a fecal sample. Strain identification to the species level was obtained by restriction analysis of the amplified 16S rRNA gene and confirmed by DNA/DNA reassociation experiments. The isolates were grouped in four genetically homogeneous clusters whose members belonged to Bifidobacterium bifidum, Bifidobacterium adolescentis, Bifidobacterium longum and Bifidobacterium pseudocatenulatum species. Cell surface properties of Bifidobacterium strains were evaluated by determining the level of hydrophobicity, adhesion to hydrocarbons and contact angle measurements, and their autoaggregation ability. The results showed high and homogeneous level of hydrophobicity in all tested strains when contact angle measurements values were considered. On the contrary, autoaggregation assays and bacterial adhesion to hydrocarbons detected interesting differences in cell surface properties among the tested Bifidobacterium strains. The highest levels of autoaggregation, detected in B. bifidum and B. adolescentis strains, were strictly dependent on the pH of the medium. Moreover, protease treatment experiments suggested that proteins had a key role in the autoaggregating ability of B. bifidum and B. adolescentis strains.     

Autoaggregation and surface hydrophobicity of bifidobacteria

Thirteen strains of four different Bifidobacterium spp. were observed for their autoaggregation ability and surface hydrophobicity, and correlation between these two traits was determined. Bifidobacteria were classified into high, medium and low autoaggregation strains according to autoaggregation ratio measured from changes in absorbance of media. High autoaggregation strains showed microscopic clustering of cells, whereas low and medium autoaggregation strains showed no such clustering. Autoaggregation ability decreased in high autoaggregation strains but increased in medium and low autoaggregation strains when the assay was performed at higher temperature (37°C compared with 25 and 10°C). Bacterial strains belonging to the high, medium or low autoaggregation group were correlated in terms of their surface hydrophobicity and evaluated based on changes in absorbance of the bacterial suspension before and after extraction with xylene. These results indicate that autoaggregation ability, together with surface hydrophobicity and microscopic image could be used for evaluating the adhesion ability of potential probiotic bifidobacterial strains. Moreover, a synergistic effect of pH and media may be involved in autoaggregation.     

The role of hemagglutination and effect of exopolysaccharide production on bifidobacteria adhesion to Caco-2 cells in vitro

It is believed that an important criterion for a potential probiotic strain is that it is capable of adhering to mucosal surfaces in the human gastrointestinal tract. The purpose of this study was to investigate a possible relationship between exopolysaccharide production and adhesion to Caco-2 cells by Bifidobacterium breve A28 and Bifidobacterium bifidum A10. In a preselection process, the hemagglutination abilities of these bacteria were determined prior to undertaking adhesion studies. B. breve A28, which produces large amounts of EPS (97.00 ± 2.00 mg/l) and has good hemagglutination abilities (+3) was found to adhere strongly to Caco-2 cells. Under gastrointestinal conditions, the high EPS producing- B. breve A28 was found to have better viability and adhesion to Caco-2 cells than the low EPS producing- B. bifidum A10. Also, B. breve A28 was found to be more effective at inhibiting Escherichia coli ATCC 11229 than B. bifidum A10. This investigation showed that high EPS production and adhesion ability may be important in the selection of bifidobacteria as probiotic strains.     

Adhesion, autoaggregation and hydrophobicity of 13 strains of Bifidobacterium longum

To identify bacterial traits related to adhesion ability in human bifidobacteria, 13 strains of Bifidobacterium longum isolated from human gastric juice and intestine were studied. Strains were tested for their capability to adhere to Caco-2 cells and classified as adhesive (Adh+) or non-adhesive (Adh-). Adh+ and Adh- strains were then investigated for their autoaggregation ability and surface hydrophobicity. Comparing the properties of Adh+ and Adh-, we observed that strains were able to adhere to cell monolayers if they autoaggregate and manifest a good degree of hydrophobicity as determined by microbial adhesion to hydrocarbons. These two traits could be used for preliminary screening to identify potentially adherent isolates.     

Role of extracellular transaldolase from Bifidobacterium bifidum in mucin adhesion and aggregation

The ability of bifidobacteria to establish in the intestine of mammals is among the main factors considered to be important for achieving probiotic effects. The role of surface molecules from Bifidobacterium bifidum taxon in mucin adhesion capability and the aggregation phenotype of this bacterial species was analyzed. Adhesion to the human intestinal cell line HT29 was determined for a collection of 12 B. bifidum strains. In four of them-B. bifidum LMG13195, DSM20456, DSM20239, and A8-the involvement of surface-exposed macromolecules in the aggregation phenomenon was determined. The aggregation of B. bifidum A8 and DSM20456 was abolished after treatment with proteinase K, this effect being more pronounced for the strain A8. Furthermore, a mucin binding assay of B. bifidum A8 surface proteins showed a high adhesive capability for its transaldolase (Tal). The localization of this enzyme on the surface of B. bifidum A8 was unequivocally demonstrated by immunogold electron microscopy experiments. The gene encoding Tal from B. bifidum A8 was expressed in Lactococcus lactis, and the protein was purified to homogeneity. The pure protein was able to restore the autoaggregation phenotype of proteinase K-treated B. bifidum A8 cells. A recombinant L. lactis strain, engineered to secrete Tal, displayed a mucin- binding level more than three times higher than the strain not producing the transaldolase. These findings suggest that Tal, when exposed on the cell surface of B. bifidum, could act as an important colonization factor favoring its establishment in the gut.