Endogenous beta-glucosidase and beta-galactosidase activities from selected probiotic micro-organisms and their role in isoflavone biotransformation in soymilk

AIM: To compare endogenous beta-glucosidases and beta-galactosidases for hydrolysis of the predominant isoflavone glycosides into isoflavone aglycones in order to improve biological activity of soymilk. METHODS AND RESULTS: beta-glucosidase and beta-galactosidase activities of probiotic organisms including Lactobacillus acidophilus ATCC 4461, Lactobacillus casei 2607 and Bifidobacterium animalis ssp. lactis Bb12 in soymilk were evaluated and correlated with the increase in concentration of isoflavone aglycones during fermentation. The concentrations of isoflavone compounds in soymilk were monitored using a Varian model high-performance liquid chromatography (HPLC) with an amperometric electrochemical detector. In all micro-organisms, beta-glucosidase activity was found greater than that of beta-galactosidase. There was an increase in the aglycone concentration with incubation time because of the apparent hydrolytic action on isoflavone glycosides. Aglycone concentration in the soymilk with L. acidophilus 4461, L. casei 2607 and B. animalis ssp. lactis Bb12, increased by 5.37-, 5.52- and 6.10-fold, respectively, after 15 h of fermentation at 37 degrees C. The maximum hydrolytic potential was also observed at 15 h of fermentation for the three micro-organims coinciding with peak activities of the two enzymes. CONCLUSIONS: beta-glucosidase activity was more than 15 times higher than beta-galactosidase activity in soymilk for each of the micro-organisms during fermentation. beta-glucosidase played a greater role in isoflavone glycoside hydrolysis. SIGNIFICANCE AND IMPACT OF THE STUDY: Screening for beta-glucosidase and beta-galactosidase activities among probiotics in soymilk is important for the improvement of biological activity of soymilk and in the selection of micro-organisms for use in the growing industry of functional foods and beverages.     

Hydrolysis of isoflavone glucosides in soymilk fermented with single or mixed cultures of Lactobacillus paraplantarum KM, Weissella sp. 33, and Enterococcus faecium 35 isolated from humans

Lactobacillus paraplantarum KM (Lp), Weissella sp. 33 (Ws), and Enterococcus faecium 35 (Ef) were used in single (Lp, Ws, Ef) or mixed cultures (Lp+Ws, Lp+Ef, Ws+Ef) for soymilk fermentation (37 degrees C, 12 h). After 12 h, the cell numbers, pH, and TA of soymilk were 7.4x108 -6.0x109 CFU/ ml, 3.8-4.5, and 0.59-0.70%, respectively. Changes in the contents of glycitin and genistin in soymilk fermented with Ef were not significant (p<0.05). The contents of isoflavone glucosides in soymilk fermented with the other cultures decreased significantly with an increase of aglycone contents (p<0.05). It corresponded well with a sharp increase in beta- glucosidase activity during fermentation. About 92-100% of the daidzin and 98-100% of the genistin in soymilk were converted to corresponding aglycones by Lp, Ws, or Lp+Ef within 12 h.     

Manufacturing of fermented goat milk with a mixed starter culture of Bifidobacterium animalis and Lactobacillus acidophilus in a controlled bioreactor

AIMS: This work was undertaken to study the feasibility and the characteristics of a fermented product made of goat milk, using a mixed starter culture of Bifidobacterium animalis and Lactobacillus acidophilus under controlled conditions, and to determine their survival in the fermented milk during refrigerated storage. METHODS AND RESULTS: Goat milk was inoculated with Lact. acidophilus and Bif. animalis mixed starter, fermented in a glass bioreactor with controlled temperature (37 degrees C) and anaerobiosis, and monitored for growth and acidification. The fermented milk was then stored for 10 days under refrigeration, and monitored daily for starter microflora survival and pH changes. Lact. acidophilus viable counts reached a maximum of 7.1 x 10(8) colony-forming units (CFU) ml(-1), and Bif. animalis a maximum of 6.3 x 10(7) CFU ml(-1) by 20 h of fermentation. During refrigerated storage, both strains exhibited a good survival, with viable numbers remaining essentially constant throughout the experiment, whereas the pH of the fermented milk dropped slightly. CONCLUSIONS: Mixed cultures of Bif. animalis and Lact. acidophilus may be used to produce fermented goat milk with high counts of both probiotic strains. SIGNIFICANCE AND IMPACT OF THE STUDY: Goat milk fermented with Bif. animalis and Lact. acidophilus can be manufactured as an alternative probiotic dairy product.     

响应面法优化酶法水解大豆异黄酮糖苷

采用 Design-Expert 软件中 Central Composite Design（CCD）响应面分析方法对β-葡萄糖苷酶水解大豆异黄酮糖苷的4个主要因素（水解温度、水解时间、pH 以及加酶量）进行优化。方差分析发现,影响大豆异黄酮糖苷水解最主要的因素有温度、水解时间和 pH。对各因素进行回归拟合,得到最佳实验条件分别为：温度46．2℃,反应时间94 min,pH 5．1,酶量61单位,此时大豆异黄酮苷元含量达到0．096 g·L－1,比优化前提高了22％。     

Bioconversion of isoflavone glycosides to aglycones,mineral bioavailability and vitamin B complex in fermented soymilk by probiotic bacteria and yeast

Aim: To study the role of β‐glucosidase producing probiotic bacteria and yeast in the biotransformation of isoflavone glycosides to aglycones, mineral bioavailability and vitamin B complex in fermented soymilk. Methods and Results: Five isolates of probiotic lactic acid bacteria (LAB), Lactobacillus acidophilus B4496, Lactobacillus bulgaricus CFR2028, Lactobacillus casei B1922, Lactobacillus plantarum B4495 and Lactobacillus fermentum B4655 with yeast Saccharomyces boulardii were used to ferment soymilk to obtain the bioactive isoflavones, genistein and daidzein. High‐performance liquid chromatography was used to analyse the concentration of isoflavones. Bioactive aglycones genistein and daidzein after 24 and 48 h of fermentation ranged from 97·49 to 98·49% and 62·71 to 92·31% respectively with different combinations of LAB with yeast. Increase in bioavailability of minerals and vitamin B complex were also observed in fermented soymilk. Conclusions: LAB in combination with yeast S. boulardii has great potential for the enrichment of bioactive isoflavones, enhancing the viability of LAB strains, decreasing the antinutrient phytic acid and increasing the mineral bioavailability in soymilk fermentation. Significance and Impact of the Study: Fermentation of soymilk with probiotic organisms improves the bioavailability of isoflavones, assists in digestion of protein, provides more soluble calcium, enhances intestinal health and supports immune system. Increased isoflavone aglycone content in fermented soymilk improves the biological functionality of soymilk.     

Bioconversion of isoflavones and the probiotic properties of the electroporated parent and subsequent three subcultures of Lactobacillus fermentum BT 8219 in biotin-soymilk

This study was aimed at an evaluation of the potential inheritance of electroporation effects on Lactobacillus fermentum BT 8219 through to three subsequent subcultures, based on their growth, isoflavone bioconversion activities, and probiotic properties, in biotin-supplemented soymilk. Electroporation was seen to cause cell death immediately after treatment, followed by higher growth than the control during fermentation in biotin-soymilk (P<0.05). This was associated with enhanced intracellular and extracellular beta-glucosidase specific activity, leading to increased bioconversion of isoflavone glucosides to aglycones (P<0.05). The growing characteristics, enzyme, and isoflavone bioconversion activities of the first, second, and third subcultures of treated cells in biotin-soymilk were similar to the control (P>0.05). Electroporation affected the probiotic properties of parent L. fermentum BT 8219, by reducing its tolerance towards acid (pH 2) and bile, lowering its inhibitory activities against selected pathogens, and reducing its ability for adhesion, when compared with the control (P<0.05). The first, second, and third subcultures of the treated cells showed comparable traits with that of the control (P>0.05), with the exception of their bile tolerance ability, which was inherited to the treated cells of the first and second subcultures (P<0.05). Our results suggest that electroporation could be used to increase the bioactivity of biotin-soymilk via fermentation with probiotic L. fermentum BT 8219, with a view towards the development of functional foods.     

Hydrolysis of black soybean isoflavone glycosides by Bacillus subtilis natto

Hydrolysis of isoflavone glycosides by Bacillus subtilis natto NTU-18 in black soymilk is reported. At the concentration of 3–5% (w/v), black soymilk in flask cultures, the isoflavones, daidzin, and genistin were highly deglycosylated within 24 h. Deglycosylation of isoflavones was further carried out in a 7-l fermenter with 5% black soymilk. During the fermentation, viable cells increased from 10³ to 10⁹ CFU ml⁻¹ in 15 h, and the activity of β-glucosidase appeared at 8 h after inoculation and reached a maximum (3.3 U/ml) at 12 h, then decreased rapidly. Deglycosylation of isoflavone glycosides was observed at the same period, the deglycosylation rate of daidzin and genistin at 24 h was 100 and 75%, respectively. It is significantly higher than the previous reports of fermentation with lactic acid bacteria. In accordance with the deglycosylation of isoflavone glycosides, the estrogenic activity of the 24 h fermented black soymilk for ERβ estrogen receptor increased to threefold; meanwhile, the fermented broth activated ERα estrogen receptor to a less extent than ERβ. These results suggest that this fermentation effectively hydrolyzed the glycosides from isoflavone in black soymilk and the fermented black soymilk has the potential to be applied to selective estrogen receptor modulator products.     

Production of α-galactosidase by a novel actinomycete <Emphasis Type="Italic">Streptomyces griseoloalbus</Emphasis> and its application in soymilk hydrolysis

α-Galactosidase production by a newly isolated actinomycete Streptomyces griseoloalbus under submerged fermentation was investigated. The influence of initial pH of medium, incubation temperature, inoculum age and inoculum size on α-galactosidase formation was studied. Various carbon sources were supplemented in the medium to study their effect on enzyme production. The influence of the concentration of locust bean gum on enzyme production also was optimized. Optimization of process parameters resulted in a highest α-galactosidase activity of 20.4 U/ml. The highest α-galactosidase activity was obtained when the fermentation medium with initial pH 6.0 and containing 1% locust bean gum as growth substrate was inoculated with 10% (v/v) of 72 h grown inoculum and incubated at 30°C. The hydrolysis of flatulence-causing oligosaccharides in soymilk by the enzyme was also investigated. Thin layer chromatographic analysis of enzyme-treated soymilk samples showed the complete hydrolysis of soy oligosaccharides liberating galactose, the final product.     

Gastrointestinal survival and potential bioactivities of Lactobacillus curieae CCTCC M2011381 in the fermentation of plant food

Lactobacillus curieae CCTCC M2011381 is a novel strain isolated from stinky tofu brine. In order to evaluate the potential of the strain in fermenting plant foodstuff and possible bioactivity produced in fermentation, the growth of the strain in soymilk, soy protein isolate and ginkgo nut beverages was studied firstly. Cell counts of the strain could increase 4 log CFU/mL after 20 h of growth in all materials. The scavenging ratio of diphenyl picryl hydrazinyl radical was improved by the fermentation due to total flavonoids content increase, peptides formation, and efficient transformation of soy isoflavone glycoside to aglycone. Meanwhile, the fermentation significantly enhanced the inhibitions of 3-hydroxy-3-methylglutaryl-coenzyme A reductase of all the three materials. The highest inhibition of 67.2% was achieved by the fermented ginkgo nut beverage. The fermentation also significantly raise the inhibition of angiotensin I converting enzyme of soy protein isolate and ginkgo nut beverages. Finally, the strain was verified survival in mice gastrointestinal tract within all the fermented matrices. The highest cell count, 5.14 log CFU/g faeces, was detected at 5 d after the gavage of fermented soy protein isolate beverage. Accordingly, L. curieae has the prospect as the starter culture in fermentation of plant foodstuff.     

Selective enumeration of Lactobacillus casei in yoghurt-type fermented milks based on a 15°C incubation temperature

A procedure was developed to enumerate selectively Lactobacillus casei populations in yoghurt-type fermented milks that can also contain strains of Streptococcus thermophilus, Lactobacillus delbrueckii ssp. bulgaricus, Lactobacillus acidophilus and Bifidobacterium infantis. Commercial LBS agar was acidified to pH 5.4, and the plates were incubated at 15°C for 14 days under anaerobic conditions. Acidification prevented the development of streptococci, and incubation at 15°C limited the development of the lactobacilli and the bifidobacteria. L. casei formed colonies on HHD medium which were different from those obtained with L. bulgaricus. Counts of L. casei on HHD confirmed results obtained on LBS - pH 5.4 medium and incubated at 15°C. L. casei did not form colonies on M17, nor did L. acidophilus or L. bulgaricus.     

高效降解草酸乳酸菌的筛选

尿路结石70%~80%主要由草酸钙结晶构成。人体内的草酸一般通过肠道内微生物降解,经由粪便排出或在泌尿道吸收由尿液排出。本研究对市场上商品化的发酵乳制品、饮料和药品中的乳酸菌进行分离,得到37株菌,包括嗜热链球菌、保加利亚乳杆菌、干酪乳杆菌、鼠李糖乳杆菌、植物乳杆菌、嗜酸乳杆菌、动物双歧杆菌、长双歧杆菌、粪肠球菌、屎肠球菌和乳球菌,并检测这些菌株降解草酸的能力。结果提示,乳酸菌在体外能够有效的降低培养物中的草酸浓度,并筛选出了具有高效降解草酸能力的乳酸菌菌株。有望成为尿石症预防的新措施。     

Effects of fermentation temperature on the content and composition of isoflavones and beta-glucosidase activity in sufu

Sufu is a popular fermented tofu product in China. The low quality of sufu produced in the hot summer is a big problem in sufu manufacture, so we prepared sufu at two different temperatures, 26 degrees C as normal and 32 degrees C as high temperature, and the effects of temperature on isoflavones and beta-glucosidase activity were investigated. Fermentation temperature did not cause significant differences in the recovery of isoflavones, but resulted in a different redistribution of isoflavone isomers in sufu. Sufu fermented at 26 degrees C was richer in isoflavone aglycones than at 32 degrees C; the enrichment of isoflavone aglycones might have the advantage of enhancing the physiological function. No 6'-O-malonyl-glucosides were detected in sufu fermented at 26 degrees C, whereas some 6'-O-malonyl-glucosides were found at 32 degrees C. A fermentation temperature of 26 degrees C benefited the beta-glucosidase production by fungi, which contributed to valid conversion from beta-glucosides to aglycones. It was also found that beta-glucosidase converted beta-glucosides more effectively than 6'-O-malonyl-glucosides and 6'-O-acetyl-glucosides into aglycones.     

Structural determinants of substrate specificity in family 1 beta-glucosidases: novel insights from the crystal structure of sorghum dhurrinase-1, a plant beta-glucosidase with strict specificity, in complex with its natural substrate

Plant beta-glucosidases play a crucial role in defense against pests. They cleave, with variable specificity, beta-glucosides to release toxic aglycone moieties. The Sorghum bicolor beta-glucosidase isoenzyme Dhr1 has a strict specificity for its natural substrate dhurrin (p-hydroxy-(S)-mandelonitrile-beta-D-glucoside), whereas its close homolog, the maize beta-glucosidase isoenzyme Glu1, which shares 72% sequence identity, hydrolyzes a broad spectrum of substrates in addition to its natural substrate 2-O-beta-D-glucopyranosyl-4-hydroxy-7-methoxy-1,4-benzoxaxin-3-one. Structural data from enzyme.substrate complexes of Dhr1 show that the mode of aglycone binding differs from that previously observed in the homologous maize enzyme. Specifically, the data suggest that Asn(259), Phe(261), and Ser(462), located in the aglycone-binding site of S. bicolor Dhr1, are crucial for aglycone recognition and binding. The tight binding of the aglycone moiety of dhurrin promotes the stabilization of the reaction intermediate in which the glycone moiety is in a deformed (1)S(3) conformation within the glycone-binding site, ready for nucleophilic attack to occur. Compared with the broad specificity maize beta-glucosidase, this different binding mode explains the narrow specificity of sorghum dhurrinase-1.     

Hydrolysis of dehydroepiandrosterone sulphate by human placental steroid 3β-sulphatase in [18O]water

1. Dehydroepiandrosterone sulphate was hydrolysed by human placental steroid 3beta-sulphatase in H(2) (18)O. Equimolar amounts of dehydroepiandrosterone and sodium sulphate were similarly incubated as controls. After incubation, unconjugated steroid was extracted with ether and sulphate precipitated as barium sulphate. Both were analysed for (18)O-content by mass spectroscopy, the sulphate as carbon dioxide after initial pyrolysis with graphite. 2. In duplicate experiments, amounts of (18)O equivalent to 67% and 72% respectively of the theoretical content calculated for rupture of the O-S bond were present in the sulphate. As the enzyme preparation used was a microsomal preparation containing unenriched endogenous sulphate and phosphate, and as no incorporation of isotope was found in the steroid, it is concluded that the placental enzyme effects hydrolysis by rupture of the O-S bond.     

Comparison of regulative functions between dietary soy isoflavones aglycone and glucoside on lipid metabolism in rats fed cholesterol

The effects of dietary soy isoflavones aglycone and glucoside on lipid metabolism were compared in male Sprague-Dawley rats (4 weeks old) given purified diets containing 0.3% cholesterol. The rats were fed a diet supplemented with either isoflavone aglycone-rich powder (IF-A group) or isoflavone glucoside-rich powder (IF-G group) or isoflavone-free diet (control group) for 40 days. The additional level of isoflavone aglycone moiety in the diet was prepared to the same level (approximately 0.096 g/100 g: approximately 0.1% in diet). The activity of hepatic cholesterol 7alpha-hydroxylase tended to be slightly higher in the rats fed isoflavones than in those fed the isoflavone-free diet. On the other hand, the activity of hepatic Delta6 desaturase in the IF-A group was lower than that of the control group. Reflecting this effect, the Delta6 desaturation indices [(20:3n-6+20:4n-6)/18:2n-6] in liver phospholipids of the IF-A group were lower than those in the control group. Liver and serum total cholesterol levels and liver TG level were also reduced by consumption of isoflavone aglycone. Moreover, serum TG level was lowered by consumption of both isoflavones aglycone and glucoside. The level of serum total isoflavones in the IF-A group was significantly higher than that in the IF-G group. Therefore, we speculate that the absorption speed of isoflavone aglycones might be faster than that of isoflavone glucosides in rats. This study suggests that dietary soy isoflavones, particularly their aglycone form, may exert a beneficial effect on lipid metabolism in rats fed cholesterol.     

Relationship between interaction sites in the gut, hydrophobicity, mucosal immunomodulating capacities and cell wall protein profiles in indigenous and exogenous bacteria

AIMS: To investigate whether there is a relationship between interaction sites in the gut, hydrophobicity, mucosal immunomodulating capacities and cell wall protein profiles in lactobacilli, bifidobacteria and enterococci. METHODS AND RESULTS: Hydrophobicity, cell wall protein profiles and sites of interaction in the gut (by using fluorescein isothiocyanate-labelled bacteria) were determined for Lactobacillus casei, L. acidophilus, L. fermentum, Bifidobacterium bifidum, B. animalis and Enterococcus faecalis. We also determined the number of immunoglobulin (Ig)A+, tumour necrosis factor (TNF)alpha+, interleukin (IL)-6+ and IL-10+ cells after oral administration of the above bacteria to BALB/c mice. All strains assessed were found to interact with the sites of induction of the immune response in the gut. No correlation with hydrophobicity was observed. When some strains at certain doses were administered to mice, bacterial translocation to liver was observed. The oral administration of indigenous (104 cells day(-1)) and exogenous (107 cells day(-1)) bifidobacteria and lactobacilli for 5 consecutive days activated the systemic and intestinal mucosal immune response in a strain-specific way, independently whether the strain was indigenous or exogenous in relation to the host. The differences in the immunopotentiating capacity of the various strains might be related to the differences in their cell wall protein profiles. CONCLUSIONS: Indigenous bacteria activated the mucosal immune response at a dose significantly smaller than the one required for probiotic exogenous bacteria. However, probiotic exogenous bacteria can be used at high concentrations in fermented dairy products with a great impact on the immune system, favouring its immunomodulation. SIGNIFICANCE AND IMPACT OF THE STUDY: The immunomodulation capacity of probiotic bacteria is strain specific and independent of the specificity of the host. The ability of certain strains to down-regulate the production and release of IL-6 by IL-10 may have potential implications in their use in cases in which cytokine deregulation or excessive production at the mucosal level can be the cause of tissue damage.     

Hydrolysis of Oleuropein by Lactobacillus plantarum Strains Associated with Olive Fermentation

Oleuropein (Chemical Abstracts Service registry number 32619-42-4), a bitter-tasting secoiridoid glucoside commonly found in leaves of the olive tree as well as in olives (Olea europaea L.), was found to be hydrolyzed by the beta-glucosidase (EC 3.2.1.2.1) produced by oleuropeinolytic Lactobacillus plantarum-type strains. Three strains, designated B17, B20, and B21, were isolated from the brine of naturally ripe olives not treated with alkali. These strains were rod-shaped forms, grown at a pH 3.5 limit, and tolerated 1% oleuropein and 8% NaCl in the growth medium. The beta-glucosidase produced hydrolyzed 5-bromo-4-chloro-3-indolyl-beta-d-glucopy-ranoside as well as oleuropein. The presence of 2% glucose in the medium inhibited activity by 40 to 50%, depending on the bacterial strain. Chromatographic analysis of the trimethylsilyl derivatives of the products obtained after 7 days of incubation at 30 degrees C of strain B21 showed all the hydrolysis products of oleuropein, i.e., aglycone, iridoid monoterpen, and 3,4-dihydroxyphenylethanol (hydroxytyrosol). Oleuropein and its aglycone after 21 days of incubation decreased to trace levels with the simultaneous increase in concentration of beta-3,4-dihydroxyphenylethanol.     

Enhancement of host resistance against Listeria infection by Lactobacillus casei: efficacy of cell wall preparation of Lactobacillus casei

Cell wall, cytoplasm, polysaccharide, and peptidoglycan fractions prepared from Lactobacillus casei, L. plantarum, and L. acidophilus were examined for their efficacies to enhance resistance of host mice against Listeria monocytogenes infection. Intraperitoneal injections of those cellular fractions of L. casei led to elicitation of inflammatory cells in the peritoneal cavity and the efficacy was highest in the case of peptidoglycan. Macrophage ratio in the resultant peritoneal exudate cells was also highest in mice given peptidoglycan. Macrophages induced with cell wall fraction of L. casei showed the most potent phorbol myristate acetate (PMA)-triggered respiratory burst (chemiluminescence and O2- production determined on the basis of nitroblue tetrazolium reduction) followed by those elicited with peptidoglycan. All the macrophages induced with cell wall of L. casei (two strains) and L. acidophilus enhanced O2- production in response to PMA but L. plantarum did not enhance O2(-)-producing ability in such a manner. The L. casei-cell wall also enhanced in vitro listericidal activity of mouse peritoneal macrophages, but such an activity was not noted in the case of L. acidophilus-cell wall. When mice were intravenously given the cellular fractions 7 or 13 days before L. monocytogenes infection, cell wall fractions of L. casei caused the most potent protective activity. A weak protective activity was also found in peptidoglycan of L. casei. Therefore, the protective action of L. casei against L. monocytogenes infection in host mice may be attributed to cell wall compounds and partially to the peptidoglycan moiety.     

Lactic fermentation of cellobiose by a yeast strain displaying β-glucosidase on the cell surface

The Aspergillus aculeatus beta-glucosidase 1 (bgl1) gene was expressed in a lactic-acid-producing Saccharomyces cerevisiae strain to enable lactic fermentation with cellobiose. The recombinant beta-glucosidase enzyme was expressed on the yeast cell surface by fusing the mature protein to the C-terminal half region of the alpha-agglutinin. The beta-glucosidase expression plasmids were integrated into the genome. Three strong promoters of S. cerevisiae, the TDH3, PGK1, and PDC1 promoters, were used for beta-glucosidase expression. The specific beta-glucosidase activity varied with the promoter used and the copy number of the bgl1 gene. The highest activity was obtained with strain PB2 that possessed two copies of the bgl1 gene driven by the PDC1 promoter. PB2 could grow on cellobiose and glucose minimal medium at the same rate. Fermentation experiments were conducted in non-selective-rich media containing 95 g l(-1) cellobiose or 100 g l(-1) glucose as a carbon source under microaerobic conditions. The maximum rate of L-lactate production by PB2 on cellobiose (2.8 g l(-1) h(-1)) was similar to that on glucose (3.0 g l(-1) h(-1)). This indicates that efficient fermentation of cellobiose to L-lactate can be accomplished using a yeast strain expressing beta-glucosidase from a mitotically stable genomic integration plasmid.     

Probiotics in milk replacer influence lamb immune function and meat quality

This study was undertaken to assess the effect of milk replacer (MR) containing Lactobacillus acidophilus and a mix of Bifidobacterium animalis subsp. lactis and Bifidobacterium longum subsp. longum on lamb immune response and on lamb meat quality. A 6-week-trial was conducted on 40 male Comisana lambs, divided into four groups, fed maternal milk (MM), MR, MR with L. acidophilus supplementation (MRL) and MR with a mix (1 : 1) of B. animalis subsp. lactis and B. longum subsp. longum supplementations (MRB). Lambs fed MR containing a mix of bifidobacteria showed the highest in vivo cellular immune response to phytohemagglutinin, whereas MM and MRB showed the highest antibody response to ovalbumin. At day 11 of the trial, MRL displayed the highest value of Interleukin-10; differences disappeared among groups subsequently. Blood cholesterol levels in lambs fed MR containing L. acidophilus was almost halved compared with that found in MM and MR groups. Meat from artificially reared lambs was characterized by trans-11 18:1 and total conjugated 18:2n-6, whereas meat from the dam-suckled lambs was characterized by 14:0, cis-9 14:1 and 16:0. Polyunsaturated to saturated fatty acid ratio was higher in meat of MR, MRL and MRB than in MM lambs. Meat from artificially reared lamb fed MR containing probiotics showed an improved fatty acid profile for human diet.