灭活的青春双歧杆菌对人大肠癌细胞的粘附

针对灭活的青春双歧杆菌DM850 4与人大肠癌CCL 2 2 9细胞之间的粘附现象及粘附机制进行研究。结果发现灭活的双歧杆菌具有与活菌相同的粘附定植能力 ,两者粘附于体外培养的肠上皮细胞均依赖于耗尽培养上清 (SCS)的存在。青春双歧杆菌粘附素有可能是存在于细胞壁中及分泌至SCS中的脂磷壁酸 (LTA)。LTA与细菌细胞壁耐热蛋白相互粘连 ,并且伸出胞壁之外。此外 ,肠上皮细胞表面的粘附素受体可能为糖类或糖蛋白。     

灭活双歧杆菌调整小鼠抗生素相关性菌群失调

目的：观察灭活的双歧杆菌及其耗尽培养上清液（SCS）对小鼠肠道生理菌群的影响。方法：应用腹腔注射青霉素造成肠菌群失调动物模型,分别以灭活的双歧杆菌菌液,耗尽培养上清液以及活菌菌液对菌群失调小鼠进行灌胃治疗。结果：活菌组、死菌组及SCS组同自然恢复组的肠道生理菌群相比差异均有显著性,死菌组与SCS组相比,差异也有显著性。结论：灭活的双歧杆菌及其SCS对小鼠肠道菌群失调的恢复具有调整作用,尤其对双歧杆菌和乳酸杆菌有更明显的扶持作用。     

灭活的双歧杆菌对小鼠血清中细胞因子水平的影响

目的：观察灭活的双歧杆菌对小鼠血清中I-—1β、IL-6和IFN-γ水平的影响。方法：小鼠腹腔注射环磷酰胺造成免疫低下动物模型,分别以新鲜BS肉汤培养基、耗尽培养上清(SCS)以及灭活的和活的双歧杆菌菌液进行灌胃。采用ELISA法检测血清中IL-1β、IL-6和IFN-γ的含量。结果：灭活的双歧杆菌与双歧杆菌活菌均可提高免疫低下小鼠血清中IL-1β、IL-6和IFN-γ的含量,二者的作用效果差异无显著性(P＞0．05),SCS也具有一定的免疫促进作用,但与双歧杆菌活菌相比差异有显著性(P＜0．05)。结论：灭活的双歧杆菌具有与双歧杆菌活菌相同或相近的免疫学活性,两者均可提高小鼠血清中细胞因子水平。     

由蛋白质介导的双歧杆菌对体外培养肠上皮细胞的粘附

本文对双歧杆菌和体外肠上皮细胞系Ｌｏｖｏ细胞间的粘附进行了研究。结果表明,双歧杆菌能特异性地粘附于肠上皮细胞周围,并且具有浓度和时间效应;各株双歧杆菌的粘附力存在着差异,新分离株高于标准株,胰蛋白酶处理耗尽培养液上清可完全抑制其粘附;高温也能降低粘附力;而白蛋白对粘附无影响。提示,双歧杆菌粘附素可能是一种不耐热的蛋白质,主要存在于耗尽培养液上清中     

两种生物状态肠道益生菌的粘附和粘附拮抗效应的对比研究

目的:研究活菌和灭活菌两种生物状态的肠道主要益生菌--德氏乳杆菌、双歧杆菌和肠球菌对肠黏膜上皮细胞粘附性及其对肠道几种常见病原菌的粘附拮抗效应.方法:用光镜和电镜技术分析了两种生物状态的三种益生菌对肠黏膜上皮细胞的粘附指数,通过排除实验、竞争实验和替代实验研究了两种生物状态益生菌对侵袭性大肠埃希菌、产毒性大肠埃希菌和痢疾志贺菌的粘附拮抗效应,应用平板扩散法观察了三种益生菌的代谢乏液对上述肠道病原菌的抑制能力.结果:德氏乳杆菌和肠球菌的灭活状态较活菌状态对肠黏膜上皮细胞的粘附性显著增高,双歧杆菌经灭活后对细胞的粘附性与活菌相比差异无显著性,两种生物状态的三种益生菌对肠道致病菌均具有粘附拮抗作用.滤过后的德氏乳杆菌、双歧杆菌和肠球菌的代谢乏液对侵袭性大肠埃希菌、产毒性大肠埃希菌和痢疾志贺菌均具有较明显的抑制作用,经42℃、65℃和100℃加热不影响德氏乳杆菌和双歧杆菌代谢乏液的抑菌作用.结论:灭活状态的德氏乳杆菌、双歧杆菌和肠球菌是具有潜在开发价值的微生态制剂.     

双歧杆菌对小鼠肠道树突状细胞数量的影响

目的研究双歧杆菌对小鼠肠道树突状细胞(dendritic ce ll,DC)数量的影响。方法分别采用活双歧杆菌菌液(1×109CFU/m l)、灭活双歧杆菌菌液(1×109CFU/m l)、双歧杆菌耗尽培养上清(Spen t cu lturesupernatan t,SCS)、无菌生理盐水给BALB/c小鼠灌胃,均为0.5 m l/(只.d),连续7 d,取小肠空、回肠段,SP免疫组织化学法分析检测肠道DC数量。结果DC分布于整个空、回肠的黏膜固有层。细胞大小不一,外形不规则,胞核外形亦不规则,多数呈偏心位,且DC有不规则突起,与周围细胞有紧密的接触。计数发现,双歧杆菌灌胃后小鼠小肠黏膜固有层DC数量增加(P<0.05),以活菌作用最明显,死菌次之,培养上清作用最弱,经统计学处理差异有显著性(P<0.05)。结论外源性双歧杆菌能增加小鼠小肠黏膜固有层中DC的数量,活菌作用最明显。提示双歧杆菌通过胃肠道途径可能影响DC的分化、发育;对DC的作用可能就是双歧杆菌影响机体免疫功能的重要环节;且保持活菌状态对机体免疫有重要作用。     

双歧杆菌乳剂对正常人红细胞免疫功能的影响

双歧杆菌乳剂对正常人红细胞免疫功能的影响解放军１５０医院洛阳４７１０３１徐禹林,郭军凌近年研究表明,双歧杆菌活菌制品具有免疫增强作用,可明显刺激小鼠腹腔巨噬细胞,提高其吞噬功能。红细胞膜表面的Ｃ３ｂ受体（ＣＲ１）具有免疫粘附特性,籍此与白细胞相互作用...     

双歧杆菌粘附对肠上皮癌细胞酶的影响

目的 研究双歧杆菌粘附对肠道细胞生理功能和能理代谢的影响。方法 以婴儿型双直菌ＤＮＭ９２２７菌株粘附大肠癌ＣＣＬ－１８７细胞为实验模型。结果 婴儿以歧杆菌ＤＭ９２２７菌株在适宜的条件下与培养的大肠癌ＣＣＬ－１８７细胞共同培养１ｈ后,ＣＣＬ０１８６细胞的碱性磷酸酶以及琥珀脱氢酶的以反应均有所增强。结论 双歧杆菌对被粘附的大肠癌细胞的生理功能和能量代谢具有正向影响。     

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。     

双歧杆菌乳剂对正常人红细胞免疫功能的影响

双歧杆菌乳剂对正常人红细胞免疫功能的影响解放军１５０医院洛阳４７１０３１徐禹林，郭军凌近年研究表明，双歧杆菌活菌制品具有免疫增强作用，可明显刺激小鼠腹腔巨噬细胞，提高其吞噬功能。红细胞膜表面的Ｃ（３ｂ），受体（ＣＲ１）具有免疫粘附特性，籍此与白细胞相...     

Protein-mediated adhesion of Lactobacillus fermentum strain 737 to mouse stomach squamous epithelium

The mechanism of adhesion of Lactobacillus fermentum strain 737 to mouse stomach squamous epithelium was investigated. Adhesion inhibition tests involving chelators, monosaccharides, periodate and concanavalin A and the use of bacteria grown in the presence of tunicamycin failed to clarify the adhesive mechanism. Washed bacterial cells had reduced adhesive capacity, except in the presence of spent broth culture supernatant fraction or cell washings. Spent culture supernatant fractions of erythrosine-supplemented broth did not enhance adhesion of washed cells. The adhesion-promoting factor(s) in the spent broth culture supernatant fractions and cell washings bound to both bacterial and epithelial cell surfaces, but did not promote adhesion of two other Lactobacillus strains which were not of mouse origin, thereby indicating host specificity for the adhesion-promoting activity. Chemical characteristics of the adhesion-promoting factor were determined by pretreatment of the dialysis retentate of spent broth culture supernatant fractions with proteolytic enzymes, concanavalin A-Sepharose or periodate before the adhesion assay. The adhesin was non-dialysable, pronase-sensitive, heat sensitive at 100 degrees C, had no affinity for concanavalin A-Sepharose and contained no carbohydrate groups active in the adhesion process. The protein profiles of dialysis retentates of spent broth culture supernatant fractions after bacterial growth in the absence and presence of erythrosine were determined by 2-dimensional SDS-PAGE. Gel filtration by HPLC was used for purification of an adhesion-promoting fraction. The host-specific adhesion of L. fermentum strain 737 was mediated by a protein, with an Mr of 12-13000, that was not detectable in cells grown in the presence of erythrosine. A model for the mode of binding of the adhesin to host epithelia and bacterial surfaces is proposed.     

Adhesion of human bifidobacterial strains to cultured human intestinal epithelial cells and inhibition of enteropathogen-cell interactions.

Thirteen human bifidobacterial strains were tested for their abilities to adhere to human enterocyte-like Caco-2 cells in culture. The adhering strains were also tested for binding to the mucus produced by the human mucus-secreting HT29-MTX cell line in culture. A high level of calcium-independent adherence was observed for Bifidobacterium breve 4, for Bifidobacterium infantis 1, and for three fresh human isolates from adults. As observed by scanning electron microscopy, adhesion occurs to the apical brush border of the enterocytic Caco-2 cells and to the mucus secreted by the HT29-MTX mucus-secreting cells. The bacteria interacted with the well-defined apical microvilli of Caco-2 cells without cell damage. The adhesion to Caco-2 cells of bifidobacteria did not require calcium and was mediated by a proteinaceous adhesion-promoting factor which was present both in the bacterial whole cells and in the spent supernatant of bifidobacterium culture. This adhesion-promoting factor appeared species specific, as are the adhesion-promoting factors of lactobacilli. We investigated the inhibitory effect of adhering human bifidobacterial strains against intestinal cell monolayer colonization by a variety of diarrheagenic bacteria. B. breve 4, B. infantis 1, and fresh human isolates were shown to inhibit cell association of enterotoxigenic, enteropathogenic, diffusely adhering Escherichia coli and Salmonella typhimurium strains to enterocytic Caco-2 cells in a concentration-dependent manner. Moreover, B. breve 4 and B. infantis 1 strains inhibited, dose dependently, Caco-2 cell invasion by enteropathogenic E. coli, Yersinia pseudotuberculosis, and S. typhimurium strains.     

Protein-mediated adhesion of Lactobacillus acidophilus BG2FO4 on human enterocyte and mucus-secreting cell lines in culture.

The adhesion of Lactobacillus acidophilus BG2FO4, a human stool isolate, to two human enterocytelike cell lines (Caco-2 and HT-29) and to the mucus secreted by a subpopulation of mucus-secreting HT29-MTX cells was investigated. Scanning electron microscopy revealed that the bacteria interacted with the well-defined apical microvilli of Caco-2 cells without cell damage and with the mucus secreted by the subpopulation of HT29-MTX cells. The adhesion to Caco-2 cells did not require calcium and involved an adhesion-promoting factor that was present in the spent supernatant of L. acidophilus cultures. This factor promoted adhesion of poorly adhering human Lactobacillus casei GG but did not promote adhesion of L. casei CNRZ 387, a strain of dairy origin. The adherence components on the bacterial cells and in the spent supernatant were partially characterized. Carbohydrates on the bacterial cell wall appeared to be partly responsible for the interaction between the bacteria and the extracellular adhesion-promoting factor. The adhesion-promoting factor was proteinaceous, since trypsin treatment dramatically decreased the adhesion of the L. acidophilus strain. The adhesion-promoting factor may be an important component of Lactobacillus species that colonize the gastrointestinal tract.     

Protein-mediated adhesion of Lactobacillus acidophilus BG2FO4 on human enterocyte and mucus-secreting cell lines in culture.

The adhesion of Lactobacillus acidophilus BG2FO4, a human stool isolate, to two human enterocytelike cell lines (Caco-2 and HT-29) and to the mucus secreted by a subpopulation of mucus-secreting HT29-MTX cells was investigated. Scanning electron microscopy revealed that the bacteria interacted with the well-defined apical microvilli of Caco-2 cells without cell damage and with the mucus secreted by the subpopulation of HT29-MTX cells. The adhesion to Caco-2 cells did not require calcium and involved an adhesion-promoting factor that was present in the spent supernatant of L. acidophilus cultures. This factor promoted adhesion of poorly adhering human Lactobacillus casei GG but did not promote adhesion of L. casei CNRZ 387, a strain of dairy origin. The adherence components on the bacterial cells and in the spent supernatant were partially characterized. Carbohydrates on the bacterial cell wall appeared to be partly responsible for the interaction between the bacteria and the extracellular adhesion-promoting factor. The adhesion-promoting factor was proteinaceous, since trypsin treatment dramatically decreased the adhesion of the L. acidophilus strain. The adhesion-promoting factor may be an important component of Lactobacillus species that colonize the gastrointestinal tract.     

Lactobacillus acidophilus LAP5 able to inhibit the Salmonella choleraesuis invasion to the human Caco-2 epithelial cell

The mechanisms for lactic acid bacteria (LAB) to inhibit Salmonella invasion appear to be multifactorial and include the adhesion of LAB to host intestine epithelium, the production of organic acids, or bacteriocin by LAB cells. Previously, we found a strain of Lactobacillus acidophilus isolated from swine, i.e. strain LAP5, was with antagonistic effect against Salmonella typhimurium. This strain LAP5 was also found to meet the requirements for probiotic use. In this study, we evaluate the potential of LAP5 strain to protect the human or swine from infection by Salmonella choleraesuis. We present evidence that the culture of LAP5 was able to inhibit the invasion of S. choleraesuis to human Caco-2 cell line. The LAP5 cell culture showed a higher inhibitory effect on the invasion of S. choleraesuis to Caco-2 cells than the spent culture supernatant (SCS) of LAP5 did. Also, the pH, organic acids or the bacteriocin, which act at low pH conditions, may play the role of antagonistic effect. The addition, adhesion of LAP5 cells to Caco-2 cell line may also play roles to reduce the invasion of S. choleraesuis.     

昂立植物乳杆菌粘附肠上皮细胞的研究

目的研究益生菌粘附肠上皮细胞机制,探讨益生菌的生物屏障机制,筛选益生菌.方法研究昂立植物乳杆菌(LP-Onlly)培养上清液,对病原菌和自身菌粘附Lovo细胞的影响.结果培养12 h的LP-Onlly发酵上清液在一定程度上能抑制病原菌的粘附,同时耗尽培养上清液,有促进自身菌粘附的作用.结论耗尽培养上清液中存在粘附素成分,能介导该菌的粘附.     

Direct in situ viability assessment of bacteria in probiotic dairy products using viability staining in conjunction with confocal scanning laser microscopy

The viability of the human probiotic strains Lactobacillus paracasei NFBC 338 and Bifidobacterium sp. strain UCC 35612 in reconstituted skim milk was assessed by confocal scanning laser microscopy using the LIVE/DEAD BacLight viability stain. The technique was rapid (<30 min) and clearly differentiated live from heat-killed bacteria. The microscopic enumeration of various proportions of viable to heat-killed bacteria was then compared with conventional plating on nutrient agar. Direct microscopic enumeration of bacteria indicated that plate counting led to an underestimation of bacterial numbers, which was most likely related to clumping. Similarly, LIVE/DEAD BacLight staining yielded bacterial counts that were higher than cell numbers obtained by plate counting (CFU) in milk and fermented milk. These results indicate the value of the microscopic approach for rapid viability testing of such probiotic products. In contrast, the numbers obtained by direct microscopic counting for Cheddar cheese and spray-dried probiotic milk powder were lower than those obtained by plate counting. These results highlight the limitations of LIVE/DEAD BacLight staining and the need to optimize the technique for different strain-product combinations. The minimum detection limit for in situ viability staining in conjunction with confocal scanning laser microscopy enumeration was approximately 10(8) bacteria/ml (equivalent to approximately 10(7) CFU/ml), based on Bifidobacterium sp. strain UCC 35612 counts in maximum-recovery diluent.     

The extracellular proteome of Bifidobacterium animalis subsp. lactis BB-12 reveals proteins with putative roles in probiotic effects

Probiotics are live microorganisms that exert health-promoting effects on the human host, as demonstrated for numerous strains of the genus Bifidobacterium. To unravel the proteins involved in the interactions between the host and the extensively used and well-studied probiotic strain Bifidobacterium animalis subsp. lactis BB-12, proteins secreted by the bacterium, i.e. belonging to the extracellular proteome present in the culture medium, were identified by 2-DE coupled with MALDI-TOF MS. Among the 74 distinct proteins identified, 31 are predicted to carry out their physiological role either outside the cell or on its surface. These proteins include solute-binding proteins for oligosaccharides, amino acids and manganese, cell wall-metabolizing proteins, and 18 proteins that have been described to interact with human host epithelial cells or extracellular matrix proteins. The potential functions include binding of plasminogen, formation of fimbriae, adhesion to collagen, attachment to mucin and intestinal cells as well as induction of immunomodulative response. These findings suggest a role of the proteins in colonization of the gastrointestinal tract, adhesion to host tissues, or immunomodulation of the host immune system. The identification of proteins predicted to be involved in such interactions can pave the way towards well targeted studies of the protein-mediated contacts between bacteria and the host, with the goal to enhance the understanding of the mode of action of probiotic bacteria.