益生菌降胆固醇功能研究进展

本文对益生菌在动物及人体上的降胆固醇功能及可能机理进行了综述。益生菌是一类能够对人体健康起到促进作用的活体微生物。现已发现某些乳杆菌、双歧杆菌和肠球菌属的一些菌株具有降低血清胆固醇水平的能力。由于实验动物和人体在生理学上存在差异,因此同一菌株在实验动物和人体上获得的结论可能不同。关于益生菌降胆固醇功能的机理,研究者提出了不同的假说。这些假说包括:(1)益生菌将胆固醇吸收至细胞膜或细胞质中;(2)益生菌将胆固醇吸附到细胞表面;(3)胆固醇和游离胆盐在酸性环境下发生共沉淀;(4)结合胆盐被益生菌的胆盐水解酶水解成了游离胆盐,后者具有较低的溶解度,不易被肠道回收;(5)胆酸被益生菌的荚膜胞外多糖黏附到了细胞表面;(6)益生菌发酵肠道食源性未消化的碳水化合物产生丙酸,后者能够抑制肝脏胆固醇的生物合成,从而导致血清胆固醇水平降低;(7)益生菌通过下调NPC1L1蛋白基因表达来降低小肠细胞对胆固醇的吸收;(8)益生菌抑制胆固醇乳化胶束的形成。这些假说将为我们认识益生菌的降胆固醇机制及潜在降胆固醇功能菌株的筛选提供了依据。     

益生菌产生的细菌素及其功能机制

细菌素是细菌核糖体合成的具有抑菌活性的小肽.细菌素的产生是益生菌重要的益生特性,它们天然无毒,不仅对食品腐败菌和人体致病菌有很好的抑菌活性,还具有有助益生菌定殖和调节肠道菌群等益生特性.本文综述了益生菌产生的细菌素的种类、条件性合成、益生功能及其作用机理等,以期为深入认识益生菌的益生功能及其作用方式,研究开发对人体有益...     

双歧杆菌胞外多糖研究进展

双歧杆菌是一种众所周知、使用范围很广的商用益生菌,其生长繁殖贯穿人的整个生命过程。有研究表明双歧杆菌具有益生功能的主要分子机制依赖于双歧杆菌自身分泌的胞外多糖。尽管一些细菌胞外多糖已经商业化用于食品和医药保健品等领域,如黄原胶、透明质酸和右旋糖苷等,但双歧杆菌等常用益生菌的胞外多糖还鲜见有商业化应用的报道。本文综述了双歧杆菌胞外多糖的合成分子机制、单糖组成及其理化性质,分析了双歧杆菌胞外多糖对肠道菌群的调节作用,阐述了双歧杆菌胞外多糖在抗氧化、改善和提高宿主免疫、抗过敏、抗肿瘤以及降低胆固醇等方面所体现出的益生功能。同时也对双歧杆菌胞外多糖分子机制研究和产业化开发方面存在的一些问题进行了讨论。     

乳杆菌胞外多糖合成基因簇及构效关系

肠道菌群稳态对维护人体的健康具有至关重要的作用。作为肠道天然微生物群“守卫兵”,益生菌参与改善体内微生态平衡。乳杆菌(Lactobacillus)是一种肠道益生菌的代表,其合成的胞外多糖(exopolysaccharide, EPS)既可通过增益肠道内其他益生菌的生长来优化肠道微生态,还具有抗肿瘤、抗氧化、降胆固醇、降血压和增强机体免疫力等益生功能。本文对近年来乳杆菌胞外多糖的遗传、生物学活性、构效关系等方面的研究进展,进行综述和展望。     

罗伊氏乳杆菌的益生功能

罗伊氏乳杆菌是目前已报道的几乎可存在于所有脊椎动物和哺乳动物肠道内的乳酸杆菌,是具有益生功效的肠道益生菌.通过对罗伊氏乳杆菌良好的肠道定植能力和其产生的罗伊氏菌素的介绍,阐明其可能的益生作用机理.重点论述了罗伊氏乳杆菌促进人类和动物健康功能的研究进展,并探讨了今后罗伊乳杆菌益生菌制剂的工业化发展趋势.     

一种益生菌组合的降胆固醇能力研究

目的 研究一种由乳双歧杆菌HN019和鼠李糖乳杆菌HN001构成的益生菌组合的降胆固醇能力。方法 分别采用体外测定胆固醇脱除率和灌胃高脂模型大鼠的方法,考察该益生菌组合物的降胆固醇能力。结果 该益生菌组合物体外的胆固醇脱除率达到78.82%,能够显著降低高脂模型大鼠的血清总胆固醇（TC）、甘油三酯（TG）和低密度脂蛋白胆固醇（LDL-C）,且差异有统计学意义（P<0.01）。该组合物的降胆固醇能力均优于单一菌株。结论 该益生菌组合物具有较强的降胆固醇能力,可考虑进一步开发为降胆固醇微生态制剂或保健食品。     

益生菌调控幼龄畜禽消化道微生物研究进展

益生菌是一类对宿主(人类或动物)有益的活性微生物,包括细菌、真菌(如酵母)等,具有促进动物生长、提高免疫力的作用,是潜在的抗生素替代品。益生菌可能通过与动物消化道微生物互作来发挥益生作用,但具体机制仍不明确。综述了基于高通量测序技术研究益生菌调控幼龄畜禽(仔猪、雏鸡、反刍动物)消化道微生物群落组成的最新进展,并提出了未来研究方向,包括益生菌如何通过与消化道微生物互作影响其功能,益生菌对于幼龄畜禽不同健康状态下肠道微生物的影响,以及宿主因素如何影响益生菌对于幼龄畜禽消化道微生物的作用效果。     

拟杆菌的研究及应用

拟杆菌大量存在于宿主体内,对宿主的健康起着重要的作用。当宿主微生态平衡被破坏时它又是条件致病菌,使宿主患病。主要总结了最近10年来国内外学者对拟杆菌的研究状况,重点对拟杆菌的致病及益生机理进行了阐述。此外,还介绍了几株有重要应用价值的拟杆菌,并就以后的研究趋势作了展望。     

基因工程双歧杆菌的研究及其应用

双歧杆菌（Bifidobacterium）是哺乳动物体内重要益生菌群之一,主要定植在下消化道,在长期进化过程中与宿主形成了一个和谐的依存关系,对维持肠道的微生态平衡起重要作用。它在体内具有预防和治疗腹泻、减轻便秘和乳糖不耐性症状、提高机体免疫力、抑制肿瘤发生和减少胆固醇、抗感染等多方面作用。     

益生菌的研究进展及其在食品中的应用

益生菌是一类能够促进宿主肠内微生物菌群的生态平衡,对宿主健康和／或生理功能产生有益作用的活性微生物。本文就益生茸概念的发展演变、益生菌种类及其在食品中的应用研究进展进行了综述,旨在为读者提供益生菌在食品领域研究应用的基本情况及其发展趋势。     

Bile salt hydrolase and cholesterol removal effect by Bifidobacterium bifidum NRRL 1976

Summary Growing cells of Bifidobacterum bifidum NRRL 1976 exhibited an ability to remove cholesterol in the presence of bile salts. The cholesterol removal by Bifidobacterium bifidum was due to a co-precipitation together with unconjugated bile acids, which was linked to the bile salt hydrolase (BSH) activity of the cells at pH values lower than 5.0 and the cholesterol removed was partially recovered when the cells were washed with phosphate buffer at pH 7, while the remaining cholesterol was extracted from the cells. It is concluded that the removal of cholesterol from the growth medium by Bifidobacterium bifidum strain is due to both bacterial assimilation and precipitation of cholesterol.     

Relationship between bile salt hydrolase activity, changes in the internal pH and tolerance to bile acids in lactic acid bacteria

The effect of the conjugated bile acid (BA) on the microbial internal pH (pHin) values in lactic acid bacteria with and without ability to hydrolyze bile salts (BSH[+] and BSH[-] strains, respectively) was evaluated. BSH(+) strains showed a gradual increase in the pHin following the addition of conjugated BA; this behavior was more pronounced with GDCA than with TDCA may be due to the higher affinity of BSH for the glyco-conjugates acids. Conversely, the BSH(-) strains showed a decrease in internal pH probably as a consequence of weak acid accumulation. As expected, a decrease in the cytoplasmatic pH affected the cell survival in this last group of strains, while the BSH(+) strains were more resistant to the toxic effect of BA. PURPOSE OF WORK: To evaluate bile salt hydrolase activities, changes in the internal pH and cell survival to bile acids in lactic acid bacteria to establish the relationship between these parameters.     

The effect of bile salts on survival and morphology of a potential probiotic strain Lactobacillus acidophilus M92

Bile tolerance is an important criterion in the selection of microbial strains for probiotic use. The survival and morphological changes of a potential probiotic strain, Lactobacillus acidophilus M92, in the presence of bile salts were examined. Lactobacillus acidophilus M92 has shown a satisfactory degree of tolerance against oxgall and individual bile salts tested, especially to taurocholate. The higher resistance of L. acidophilus M92 against taurine-conjugated bile salts relative to deconjugated and glycine-conjugated bile salts was attributed to its reaction to the stronger acidity of the former. Furthermore, bile salt hydrolase (BSH) was active when L. acidophilus M92 was grown in the presence of sodium taurocholate. The rate of BSH activity was highest at the exponential growth phase. It was hypothesised that BSH activity may be important for the bile salt resistance of this strain. The colonial and cellular morphology may also be a valuable parameter in the selection of bile salt-resistant Lactobacillus strains for probiotic use. Smooth (S) and rough (R) colonies, appeared in the original L. acidophilus M92 bacterial culture and demonstrated a different degree of bile tolerance. Rough colonies were more sensitive to bile salts than smooth ones. The R colony cells assumed a round form, probably induced by gaps in the cell wall caused by the cytotoxicity of glycodeoxycholate. This revised version was published online in July 2006 with corrections to the Cover Date.     

The assumed assimilation of cholesterol by Lactobacilli and Bifidobacterium bifidum is due to their bile salt-deconjugating activity.

To study the mechanism of the propsed assimilation of cholesterol, we cultured various strains of Lactobacillus acidophilus and a Bifidobacterium sp. in the presence of cholesterol and oxgall. During culturing, both cholesterol and bile salts were precipitated. Because of bacterial bile salt deconjugation, no conjugated bile salts were observed in either the culture fluids or the pellets. During incubation, the cell count and optical density decreased. The degree of precipitation of bile salts and of cholesterol was dependent on the culture conditions. If L. acidophilus RP32 was cultured under acidifying conditions, the degree of precipitation of deconjugated bile salts was higher than if the pH was maintained at 6.0. Under acidifying conditions, cholesterol was coprecipitated with the bile salts, whereas in pH-controlled cultures, no coprecipitation of cholesterol was observed. From control experiments with different mixtures of bile salts, it appeared that coprecipitation of cholesterol during culturing was a result of formation of deconjugated bile salts, which have a decreased solubility at pH values lower than 6.0. It is concluded that the removal of cholesterol from the culture medium by L. acidophilus RP32 and other species is not due to bacterial uptake of cholesterol, but results from bacterial bile salt-deconjugating activity.     

Quantitative determination of bile salt hydrolase activity in bacteria isolated from the small intestine of chickens

A quantitative assay based on high-performance liquid chromatography analysis of bile salts and bacterial protein determination was established for investigating bile salt hydrolase (BSH) activity in bacteria isolated from the small intestine of chickens. Bacteria were isolated using various media and were subsequently grouped according to cell morphology, fermentation profile, and 16S ribosomal DNA sequence. Representative isolates from each bacterial group were assayed for BSH activity. The isolates differed in BSH activity with respect to the state of growth and preculturing with and without taurochenodeoxycholate. The highest levels of BSH activity were found with Enterococcus faecium and Clostridium perfringens.     

降胆固醇乳酸菌的筛选和分析比较

目的 比较7株乳酸菌各项生理特性,筛选高效、安全降解胆固醇的益生菌株,为后期开发应用奠定基础。方法 对选定菌株依次进行体外降胆固醇、胆盐水解酶（BSH）活力、人工胃肠液及胆盐耐受性、细胞粘附性能的测定和比较,并分析抗生素耐药性和抑制病原菌活性,最后利用16S rRNA基因测序确定细菌种属。结果 不同菌株各项生理指标存在差异。其中菌株ZL-2、JQI-7和PC-26的BSH酶活分别为0.010、0.015和0.030 U,可高效清除体外胆固醇,3株菌体外降解胆固醇率在58%以上;并且耐酸、耐胆盐,具备较好的HT-29细胞粘附性,不存在抗生素耐药性,可有效抑制大肠埃希菌、金黄色葡萄球菌、铜绿假单胞菌和阴沟肠杆菌生长。结论 菌株ZL-2、JQI-7和PC-26满足降胆固醇益生菌株的生物学特性,可用于进一步研究和开发。     

Bile salts and cholesterol induce changes in the lipid cell membrane of Lactobacillus reuteri

AIMS: The objective of this study was to evaluate the effect of bile salts and cholesterol in the lipid profile of Lactobacillus reuteri CRL 1098 and to determine the relationship existing between these changes: the in vitro removal of cholesterol and the tolerance of the cells to acid and cold stress. METHODS AND RESULTS: Lactobacillus reuteri CRL 1098 was grown in the following media: MRS (deMan Rogosa Sharpe; MC, control medium), MB (MC with bile salts), MCH (MC with sterile cholesterol) and MBCH (MC with bile salts and cholesterol). Fatty acids were determined by analytical gas-liquid chromatography, and phospholipids and glycolipids by colorimetric techniques. The cells from different culture media were subjected to cold and acid stress. The MB cultures displayed a decrease in phospholipids and a low ratio of saturated : unsaturated fatty acids. The presence of the unusual C18 : 0,10-OH and C18 : 0,10-oxo fatty acids was the prominent characteristic of the bile salts growing cells. The relative increase in glycolipids and the changes in the fatty acids profiles of the MB cells would be responsible for the cholesterol remotion. The changes induced by bile salts in the lipid profile did not improve the tolerance of L. reuteri CRL 1098 to freezing and acid stress. CONCLUSIONS: The changes in lipid profiles reported in this study would play a key role in the response of Lactobacilli to environmental stress. SIGNIFICANCE AND IMPACT OF THE STUDY: This work provides useful information about the effect of bile salts on the cell membrane of L. reuteri, a probiotic enterolactobacillus. The steady-state response of the cells subjected to bile stress seems to be the appropriate model for evaluating the bacterial behaviour in detergent-containing gastrointestinal tracts, where the bile salts stress would presumably be continuous.     

Molecular cloning,characterization and comparison of bile salt hydrolases from Lactobacillus johnsonii PF01

Aims

To clone, characterize and compare the bile salt hydrolase (BSH) genes of Lactobacillus johnsonii PF01.

Methods and Results

The BSH genes were amplified by polymerase chain reaction (PCR) using specific oligonucleotide primers, and the products were inserted into the pET21b expression vector. Escherichia coli BLR (DE3) cells were transformed with pET21b vectors containing the BSH genes and induced using 0·1 mmol l^?1 isopropylthiolgalactopyranoside. The overexpressed BSH enzymes were purified using a nickel–nitrilotriacetic acid (Ni²⁺‐NTA) agarose column and their activities characterized. BSH A hydrolysed tauro‐conjugated bile salts optimally at pH 5·0 and 55°C, whereas BSH C hydrolysed glyco‐conjugated bile salts optimally at pH 5·0 and 70°C. The enzymes had no preferential activities towards a specific cholyl moiety.

Conclusions

BSH enzymes vary in their substrate specificities and characteristics to broaden its activity. Despite the lack of conservation in their putative substrate‐binding sites, these remain functional through motif conservation.

Significance and Impact of the Study

This is to our knowledge the first report of isolation of BSH enzymes from a single strain, showing hydrolase activity towards either glyco‐conjugated or tauro‐conjugated bile salts. Future structural homology studies and site‐directed mutagenesis of sites associated with substrate specificity may elucidate specificities of BSH enzymes.     

Identification and Characterization of a Bile Salt Hydrolase from Lactobacillus salivarius for Development of Novel Alternatives to Antibiotic Growth Promoters

Antibiotic growth promoters (AGPs) have been used as feed additives to improve average body weight gain and feed efficiency in food animals for more than 5 decades. However, there is a worldwide trend to limit AGP use to protect food safety and public health, which raises an urgent need to discover effective alternatives to AGPs. The growth-promoting effect of AGPs has been shown to be highly correlated with the decreased activity of intestinal bile salt hydrolase (BSH), an enzyme that is produced by various gut microflora and involved in host lipid metabolism. Thus, BSH inhibitors are likely promising feed additives to AGPs to improve animal growth performance. In this study, the genome of Lactobacillus salivarius NRRL B-30514, a BSH-producing strain isolated from chicken, was sequenced by a 454 GS FLX sequencer. A BSH gene identified by genome analysis was cloned and expressed in an Escherichia coli expression system for enzymatic analyses. The BSH displayed efficient hydrolysis activity for both glycoconjugated and tauroconjugated bile salts, with slightly higher catalytic efficiencies (k_cat/K_m) on glycoconjugated bile salts. The optimal pH and temperature for the BSH activity were 5.5 and 41°C, respectively. Examination of a panel of dietary compounds using the purified BSH identified some potent BSH inhibitors, in which copper and zinc have been recently demonstrated to promote feed digestion and body weight gain in different food animals. In sum, this study identified and characterized a BSH with broad substrate specificity from a chicken L. salivarius strain and established a solid platform for us to discover novel BSH inhibitors, the promising feed additives to replace AGPs for enhancing the productivity and sustainability of food animals.