益生菌和致病菌对肠道的黏附及其相互作用研究进展

探讨益生菌及致病菌对肠道上皮细胞的黏附机制,比较其黏附后的生物学效应差异,重点对二者之间的竞争性黏附作用进行了概述.在上述基础上对益生菌抑制致病菌的研究前景和发展趋势进行了展望.     

数学模型法研究L．casei LC2W对H.pylori SS1黏附MKN-45细胞的抑制作用

目的研究干酪乳杆菌LC2W对幽门螺杆菌（H.pylori）SS1黏附MKN-45的抑制作用,探讨益生菌对致病菌拈抗的机制。方法体外培养人胃癌细胞MKN-45,采用平板计数的方法研究2株细菌的黏附性质;引入数学模型,比较LC2W与H.pylori SS1的竞争、排除和替代作用。结果运用模型可以估算出LC2W和H.pylori SS1对MKN-45最大黏附数和亲和力的大小,并可以预测在混合体系中2种菌黏附的比例;实验发现LC2W对H.pylori SS1的黏附具有很强的竞争作用和排除作用,且这2种作用存在明显的量效关系。LC2W对H.pylori SS1的黏附的替代作用不明显或过程非常缓慢。结论所采用的数学模型能较好的模拟LC2W和H.pylori SS1黏附及LC2W对H.pylori SS1黏附抑制作用,这种抑制作用主要是通过竞争性占位形成的。     

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。     

嗜酸乳杆菌黏附鸡胚肠黏膜上皮细胞能力的研究

目的建立肠黏膜上皮细胞模型和测定嗜酸乳杆菌的黏附能力。方法将嗜酸乳杆菌用胃蛋白酶和HCl-H2O低pH以及反复冻融、灭活等方法处理后测定其黏附能力。结果成功地建立了鸡胚肠黏膜上皮细胞模型;经胃蛋白酶和HCl-H2O低pH以及灭活处理后,嗜酸乳杆菌的黏附能力和对照组差异有显著性。反复冻融后的嗜酸乳杆菌黏附能力与对照组差异无显著性。结论胃蛋白酶和HCl-H2O pH2.0会使嗜酸乳杆菌黏附肠黏膜上皮细胞能力下降,热灭活可使嗜酸乳杆菌的黏附能力提高,反复冻融对嗜酸乳杆菌的黏附能力无明显影响。     

白念珠菌黏附基因研究进展

白念珠菌具有很强的黏附和侵袭能力,其黏附特性是致病力的重要原因,与白念珠菌黏附相关的基因称为黏附基因。对黏附基因的研究不仅有助于更好地解读白念珠菌的致病机制,而且也为研制新的抗真菌药物和真菌疫苗提供了理论依据。     

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。     

影响黏红酵母黏附牙鲆肠黏液的因素研究

目的研究pH、温度、二价阳离子对黏红酵母黏附作用的影响以及不同生长阶段的黏红酵母对牙鲆肠黏液的黏附特点。方法以牙鲆肠黏液作为黏附模型,采用MTT比色法测定黏红酵母在上述影响因素作用下的黏附能力。结果在10~30℃黏红酵母对牙鲆肠黏液的黏附随温度升高而增强,中性偏酸的环境有利于黏红酵母的黏附;Ca2 能显著增加黏红酵母的黏附,但Mg2 促黏附作用不明显;处于对数生长期的黏红酵母对牙鲆肠黏液的黏附能力最强,其次是延滞期的酵母,而稳定期和衰亡期的黏红酵母黏附能力显著减弱。结论黏红酵母对牙鲆肠黏液的黏附作用不仅受多种环境因子的影响,也受其自身生理状态的影响,其黏附作用具有可控性,这对黏红酵母在牙鲆肠道内黏附、定植的调控有一定的参考价值。     

乳酸菌在肠道内黏附定殖的研究进展

乳酸菌是一类无芽孢的革兰氏阳性菌,能利用碳水化合物发酵产酸。由于其具有安全高效,易获取的优势,在食品、医疗及动物生产方面得到广泛运用。在动物肠道内,它利用糖类物质,生成酸性代谢物,降低肠道pH,改善肠道微生物环境。要实现乳酸菌在动物体内的良好定殖,首先要实现黏附,而黏附过程主要分为特异性结合与非特异性结合。黏附机制的相关研究中黏附素理论被普遍认可,包含了粘附蛋白学说、磷璧酸学说及细菌表面分子学说。本文就乳酸菌的黏附相关因子,体外黏附模型及黏附的影响因素做了阐述。     

双歧杆菌黏附的研究进展

双歧杆菌是人体肠道正常菌群中的优势菌种 ,黏附和定植于肠黏膜上皮细胞后 ,对宿主发挥生物屏障、营养、免疫、抗肿瘤、抗衰老等生理作用。黏附 (ａｄｈｅｓｉｏｎ)是指微生物与宿主上皮细胞通过生物化学作用特异性地连接在一起。由于黏附是微生物与微生物、微生物与宿主相互关系的先决条件之一 ,是定植的第一步。因此 ,有关双歧杆菌黏附的研究越来越受到人们的重视。本文现就这一方面的研究进展作一综述。1　双歧杆菌对肠上皮细胞黏附的特点　　双歧杆菌进入肠道后能否黏附于宿主肠道黏膜上皮细胞表面 ,形成稳定的菌群 ,是关系到其是否能发…     

白念珠菌对宿主的黏附机制

白念珠菌对宿主的黏附是白念珠菌感染过程的关键的第一步,因此阐明白念珠菌对宿主的黏附机制对探索新的方法预防和治疗白念珠菌感染至关重要。近年来,研究者们从白念珠菌的表面结构、黏附素以及黏附相关基因等方面对白念珠菌与宿主的黏附机制进行了大量研究。该文就白念珠菌对宿主的黏附机制进行综述。     

The effect of probiotic bacteria on the adhesion of pathogens to human intestinal mucus

Human intestinal glycoproteins extracted from faeces were used as a model for intestinal mucus to investigate adhesion of pathogenic Escherichia coli and Salmonella strains, and the effect of probiotics on this adhesion. S-fimbriated E. coli expressed relatively high adhesion in the mucus model, but the other tested pathogens adhered less effectively. Probiotic strains Lactobacillus GG and L. rhamnosus LC-705 as well as a L. rhamnosus isolated from human faeces were able to slightly reduce S-fimbria-mediated adhesion. Adhesion of S. typhimurium was significantly inhibited by probiotic L. johnsonii LJ1 and L. casei Shirota. Lactobacillus GG and L. rhamnosus (human isolate) increased the adhesion of S. typhimurium suggesting that the pathogen interacts with the probiotic.     

Probiotics for the skin: a new area of potential application?

AIMS: The current study aimed at assessing, in vitro, the potential use of probiotics for the skin. METHODS AND RESULTS: Propionibacteria were chosen as potential probiotics as they are members of the normal cutaneous microbiota. Dairy strains were chosen because of their documented safe use. Production of anti-microbial substances was assessed, against selected skin pathogens. Only production of organic acids was detected. Two of the tested strains were found to exhibit high adhesion to human keratin, in vitro. Despite this high adhesion, no inhibition of skin pathogen adhesion to human keratin was observed. CONCLUSIONS: The current strains assessed may not be optimal for use as skin probiotics. However, the results of the study show that the methodology works for investigating this kind of application. SIGNIFICANCE AND IMPACT OF THE STUDY: Methods for selecting probiotics for potential application on the skin are presented.     

Strain- and matrix-dependent adhesion of Lactobacillus plantarum is mediated by proteinaceous bacterial compounds

AIMS: The ability of 31 Lactobacillus plantarum strains to adhere to biological matrixes was evaluated, and the molecules involved in adherence were studied. METHODS AND RESULTS: Mucin, basement membrane proteins and Caco-2 cells were used in adhesion tests. These in vitro assays, together with a yeast agglutination test, were found to be discriminative for screening Lact. plantarum strains for adhesion. Some strains, such as 299v, CBE, BMCM12, Col4S and T25, were shown to possess interesting adhesion properties in at least two models. The adhesion of these strains was strongly inhibited when the bacterial cells were pretreated with trypsin. Lithium chloride and methyl-alpha-D-mannoside also inhibited adhesion to a lower extent. CONCLUSIONS: The adhesion of Lact. plantarum depends on both the model and the strain used. The chemical and enzymatic pretreatments applied to the bacterial cells suggested that lectin-like adhesins and other proteinaceous cell-surface structures are involved in adhesion of these strains. SIGNIFICANCE AND IMPACT OF THE STUDY: We found a great diversity in the adhesion properties between Lact. plantarum strains. Based upon the adhesive property of these strains interesting candidates were identified, that will undergo further study as potential probiotics.     

Specific probiotic strains and their combinations counteract adhesion of Enterobacter sakazakii to intestinal mucus

Enterobacter sakazakii is an opportunistic pathogen and an occasional contaminant in powdered infant formula. Interaction between specific probiotics and E. sakazakii may reduce the risk of infection. The aim of this study was to characterize in vitro the ability of probiotics (alone and in combinations) to inhibit, compete with and displace the adhesion of E. sakazakii to immobilized human mucus and to assess their capacity to aggregate with pathogen. Specific probiotic strains have proved to aggregate E. sakazakii cells and, through competitive exclusion, inhibition and displacement of the adhered pathogen, were able to inhibit E. sakazakii action on intestinal mucus. The ability to inhibit and to displace adhered pathogen depended on both the probiotic and the pathogen, suggesting that several complementary mechanisms are involved in the processes. We suggest that the selection of specific probiotic strains and their combinations may be a useful means of counteracting E. sakazakii contamination in infant formula and thus to reduce the risk of emerging infection. This approach may also allow the development of new probiotic combinations to counteract the risks associated with other pathogens by improving the intestinal barrier against pathogens.     

The effect of growth media and physical treatments on the adhesion properties of canine probiotics

Aims

The manufacturing processes have been reported to influence the properties of probiotics with potential impact on health properties. The aim was to investigate the effect of different growth media and inactivation methods on the properties of canine‐originated probiotic bacteria alone and in combination mixture.

Methods and Results

Three established dog probiotics, Lactobacillus fermentum VET9A, Lactobacillus plantarum VET14A and Lactobacillus rhamnosus VET16A, and their combination mixture were evaluated for their adhesion to dog mucus. The effect of different growth media, one reflecting laboratory and the other manufacturing conditions, and inactivation methods (95°C, 80°C and UV irradiation) on the mucus adhesion of the probiotic strains was characterized. Evaluation of dog probiotics was supported by cell visualization using transmission electron microscopy (TEM). Higher adhesion percentage was reported for probiotic strains growing in laboratory rather than in manufacturing conditions (P < 0·05). Inactivation by heat (95°C, 80°C) decreased the adhesion properties when strains were cultivated in soy‐based growth media compared with those grown in MRS broth (P < 0·05). TEM observations uncovered differences in cell‐surface components in nonviable forms of probiotic strains as compared with their viable forms.

Conclusions

Manufacturing process conditions such as growth media and pretreatment methods may significantly affect the adhesive ability of the tested strains.

Significance and Impact of the Study

Growth conditions, growth media, pretreatment methods and different probiotic combinations should be carefully considered for quality control of existing probiotics and for identification of new probiotics for dogs. These may also have an impact on health benefits for the host.     

Role of commercial probiotic strains against human pathogen adhesion to intestinal mucus

AIMS: The aims of this study present were to assess and to evaluate in vitro the abilities of commercial probiotic strains derived from fermented milk products and related sources currently marketed in European countries, to inhibit, compete and displace the adhesion of selected potential pathogens to immobilized human mucus. METHODS AND RESULTS: The adhesion was assessed by measuring the radioactivity of bacteria adhered to the human mucus. We tested 12 probiotic strains against eight selected pathogens. All strains tested were able to adhere to mucus. All probiotic strains tested were able to inhibit and displace (P<0.05) the adhesion of Bacteroides, Clostridium, Staphylococcus and Enterobacter. In addition, the abilities to inhibit and to displace adhered pathogens depended on both the probiotic and the pathogen strains tested suggesting that several complementary mechanisms are implied in the processes. CONCLUSIONS: Our results indicate the need for a case-by-case assessment in order to select strains with the ability to inhibit or displace a specific pathogen. Probiotics could be useful to correct deviations observed in intestinal microbiota associated with specific diseases and also, to prevent pathogen infections. SIGNIFICANCE AND IMPACT OF THE STUDY: The competitive exclusion properties of probiotics as well as their ability to displace and inhibit pathogens are the most importance for therapeutic manipulation of the enteric microbiota. The application of such strategies could contribute to expand the beneficial properties on human health against pathogen infection.     

In vitro activity of potential probiotic Lactobacillus murinus isolated from the dog

Aims:  The aim of this study was to isolate and identify Lactobacillus spp. isolates from faeces of a healthy dog, and to characterize their potential as probiotics in order to evaluate their possible use as probiotics for dogs.
Methods and Results:  An in vitro approach was used to characterize the isolates as potential probiotics including the evaluation of pH and bile salts tolerance, production of antimicrobial substances, biofilm formation on glass and polystyrene surfaces, aggregation ability and adhesion to canine intestinal mucus. The isolates survived to different pH and bile salts conditions, inhibited the in vitro growth of Escherichia coli and Clostridium perfringens , and adhered to glass and intestinal mucus.
Conclusions:  The properties shown by these isolates may indicate that they could colonize and persist in the gastrointestinal tract and induce beneficial effects to the host.
Significance and Impact of Study:  The evaluation of native canine isolates and future exprimental feeding assays may be useful tools to develop probiotics to improve animal health and reduce the risk of gastrointestinal disorders.     

The mucus binding of Bifidobacterium lactis Bb12 is enhanced in the presence of Lactobacillus GG and Lact. delbrueckii subsp. bulgaricus

The ability to adhere to mucosal surfaces is related to many probiotic health effects. In the presence of Lactobacillus GG or Lact. bulgaricus, the adhesion of Bifidobacterium lactis Bb12 to a mucus model was more than doubled. Other tested lactobacilli did not affect the adhesion, nor was the adhesion of the lactobacilli influenced by the bifidobacteria. Co-aggregation between Bif. lactis Bb12 and the tested lactobacilli was insignificant and does not explain the observed effect. The results suggest that combinations of probiotics strains may have synergistic adhesion effects. Such specific strain combinations should also be assessed in clinical studies.     

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。     

One step ahead: Role of filopodia in adhesion formation during cell migration of keratinocytes

Cell adhesion is an essential prerequisite for cell function and movement. It depends strongly on focal adhesion complexes connecting the extracellular matrix to the actin cytoskeleton. Especially in moving cells focal adhesions are highly dynamic and believed to be formed closely behind the leading edge. Filopodia were thought to act mainly as guiding cues using their tip complexes for elongation. Here we show for keratinocytes a strong dependence of lamellipodial adhesion sites on filopodia. Upon stable contact of the VASP-containing tip spot to the substrate, a filopodial focal complex (filopodial FX) is formed right behind along the filopodia axis. These filopodial FXs are fully assembled, yet small adhesions containing all adhesion markers tested. Filopodial FXs when reached by the lamellipodium are just increased in size resulting in classical focal adhesions. At the same time most filopodia regain their elongation ability. Blocking filopodia inhibits development of new focal adhesions in the lamellipodium, while focal adhesion maturation in terms of vinculin exchange dynamics remains active. Our data therefore argue for a strong spatial and temporal dependence of focal adhesions on filopodial focal complexes in keratinocytes with filopodia not permanently initiated via new clustering of actin filaments to induce elongation.