Potential Role of Gut Microbiota in ALS Pathogenesis and Possible Novel Therapeutic Strategies.

BACKGROUND: Recent preclinical studies suggest that dysfunction of gastrointestinal tract may play a role in amyotrophic lateral sclerosis (ALS) pathogenesis through a modification of the gut microbiota brain axis. Our study is the first focused on microbiota analysis in ALS patients. AIM: Our aim was to study the main human gut microbial groups and the overall microbial diversity in ALS and healthy subjects. Moreover we have examined the influence of a treatment with a specific bacteriotherapy composed of Lactobacillus strains (Lactobacillus fermentum, Lactobacillus delbrueckii, Lactobacillus plantarum, Lactobacillus salivarius) acting on the gastrointestinal barrier. METHODS: We enrolled 50 ALS patients and 50 healthy controls, matched for sex, age, and origin. Fecal samples were used for total genomic DNA extraction. Enterobacteria, Bifidobacterium spp., Lactobacillus spp., Clostridium sensu stricto, Escherichia coli and yeast were quantified using quantitative polymerase chain reaction approach. Denaturing gradient gel electrophoresis analyses were performed to investigate total eubacteria and yeasts populations. Patients were randomized to double-blind treatment either with microorganisms or placebo for 6 months and monitored for clinical progression and microbiota composition. RESULTS: The comparison between ALS subjects and healthy group revealed a variation in the intestinal microbial composition with a higher abundance of E. coli and enterobacteria and a low abundance of total yeast in patients. Polymerase chain reaction denaturing gradient gel electrophoresis analysis showed a cluster distinction between the bacterial profiles of ALS patients and the healthy subjects. The complexity of the profiles in both cases may indicate that a real dysbiosis status is not evident in the ALS patients although differences between healthy and patients exist. The effects of the progression of the disease and of the bacteriotherapy on the bacterial and yeast populations are currently in progress. CONCLUSIONS: Our preliminary results confirm that there is a difference in the microbiota profile in ALS patients.

Searching for the Perfect Homeostasis: Five Strains of Bifidobacterium longum From Centenarians Have a Similar Behavior in the Production of Cytokines.

GOALS: To investigate the modulation of human cytokines by Bifidobacterium longum strains isolated from Centenarians. In particular, we measured the production of interleukin (IL)-12p70, interferon-γ, IL-17A, and IL-4 from human peripheral blood mononuclear cells after stimulation with live bacteria. BACKGROUND: Probiotics may inhibit pathogens and modulate the immune system, bringing a beneficial effect on human health. Among the probiotic strains, bifidobacteria play a key role in the maturation of the host's immune system. At present, only a few comparative data are available on the effects of bifidobacteria associations on cytokine production. STUDY: Peripheral blood mononuclear cells were isolated, cultured, and stimulated (ratio 1:1) with B. longum DLBL07, B. longum DLBL08, B. longum DLBL09, B. longum DLBL10, or B. longum DLBL11, either alone or in association. Cytokine production was determined by an enzyme-linked immunosorbent assay. RESULTS: Both the B. longum DLBL mixture and the individual B. longum DLBL strains induced similar levels of IL-4, interferon-γ, and IL-17A. Under all conditions tested, no IL-12p70 release was detected. CONCLUSIONS: The fact that B. longum strains were obtained from Centenarians suggests a perfect homeostasis between this specific species and the host. Moreover all the B. longum strains from Centenarians used in our study share some biological similarities.

In Vitro Inhibition of Klebsiella pneumoniae by Lactobacillus delbrueckii Subsp. delbrueckii LDD01 (DSM 22106): An Innovative Strategy to Possibly Counteract Such Infections in Humans?

GOALS: To determine the in vitro antimicrobial activity of selected Lactobacillus strains isolated from the feces of healthy humans against Klebsiella pneumoniae. BACKGROUND: Klebsiella is ubiquitous in nature and may colonize the skin, the pharynx, or the gastrointestinal tract of humans. Despite the widespread use of antibiotic molecules with a broad spectrum in hospitalized patients, an increased overall load of klebsiellae as well as the subsequent development of multidrug-resistant strains able to synthesize extended-spectrum beta-lactamase have been registered. These strains are particularly virulent, express capsular-type K55, and have a considerable ability to propagate. STUDY: The 4 strains Lactobacillus paracasei LPC01 (CNCM I-1390), Lactobacillus rhamnosus LR04 (DSM 16605), Bifidobacterium longum B2274 (DSM 24707), and Lactobacillus delbrueckii subsp. delbrueckii LDD01 (DSM 22106) were tested. The analysis was performed using both a disc-diffusion assay and the broth-dilution procedure, also including an evaluation of the supernatants obtained from a fresh broth culture of each bacterium. RESULTS: L. delbrueckii subsp. delbrueckii LDD01 demonstrated the best inhibitory results among all the tested strains. The antibacterial activity of the supernatant was retained even after treatment with α-amylase and neutralization with NaOH 1N, thus suggesting the protein structure of the inhibitory molecule. In contrast, it was completely lost after treatment with proteinase K. CONCLUSIONS: Overall results suggest that the inhibitory effect of L. delbrueckii subsp. delbrueckii LDD01 should be attributed to the production of a bacteriocin. This strain may be prospectively useful for strengthening probiotic formulations and possibly counteract infections by K. pneumoniae in humans.

The Association of Bifidobacterium breve BR03 and B632 is Effective to Prevent Colics in Bottle-fed Infants: A Pilot, Controlled, Randomized, and Double-Blind Study.

GOALS: To assess the effectiveness of Bifidobacterium breve B632 and BR03 association in the reduction of infants crying over time. The second endpoint was to observe the effect of the same strains on daily evacuations and on the number of regurgitations and vomits. BACKGROUND: Infant colics represent a clinical condition in childhood, characterized by an uncontrollable crying that occurs without any apparent organic cause. An altered intestinal microbiota composition in the very first months may induce intestinal colics in infants. Thus far, no treatment is really effective for this problem, but recent literature shows an increasing attention toward probiotics. STUDY: A total of 83 subjects were enrolled, 60 breastfed infants and 23 bottle-fed infants. Sixty of them carried out the study: 29 infants were given probiotics, whereas 31 placebo. During the 90 days of the study, parents were asked to give 5 drops of active product (10 viable cells/strain) or placebo and to daily take note of: minutes of crying, number, color, and consistency of evacuations, and number of regurgitations or vomits. RESULTS: No significant differences were detected in the infants treated with probiotics, compared with placebo group (P=0.75). The analysis of the 3 months of treatment demonstrated that during the third month, the probiotic group cried 12.14 minutes on average and the placebo cried 46.65 minutes. This difference is statistically significant (P=0.016). CONCLUSIONS: The evidence of the usefulness of some probiotic strains in the treatment and prevention of infant colics is growing, and therefore their use in clinical practice is spreading.

Capability of the two microorganisms Bifidobacterium breve B632 and Bifidobacterium breve BR03 to colonize the intestinal microbiota of children.

BACKGROUND: The total number of bacteria present in the gut microbiota of a newborn is consistently lower than the average found in adults, with the extent of this difference being directly related to body weight and age. It could be assumed that a lower number of viable probiotic cells is necessary to achieve significant gut colonization in infants and children. This study assessed the capability of Bifidobacterium breve B632 (DSM 24706) and Bifidobacterium breve BR03 (DSM 16604), 2 strains able to significantly inhibit some gram-negative bacteria in vitro, to integrate into the intestinal microbiota of children. MATERIALS AND METHODS: Ten healthy children aged an average of 5.7±2.6 were given an oily suspension containing B. breve B632 and B. breve BR03 for 21 consecutive days. The daily dose was 100 million live cells of each strain. Fecal specimens were collected and analyzed at the beginning (d0) and at the end of the study (d21). Total fecal bifidobacteria and coliforms have been quantified by microbiological plate counts. RESULTS: A significant increase in total fecal bifidobacteria (from 8.99 to 9.47 log10 CFU/g, P=0.042) and a parallel decrease in total coliforms (from 8.60 to 7.93 log10 CFU/g, P=0.048) was recorded after 21 days of supplementation. CONCLUSIONS: An oily suspension has proved an effective way of providing probiotics to children. A lower viable cells concentration was sufficient to mediate this effect in the light of the fact that the intestinal microbiota of children harbors a considerably smaller amount of total bacteria compared with adults. In addition to gut colonization in healthy children, B. breve B632 and B. breve BR03 were able to decrease total fecal coliforms, therefore supporting their potential specific use in colicky infants.

The innovative potential of Lactobacillus rhamnosus LR06, Lactobacillus pentosus LPS01, Lactobacillus plantarum LP01, and Lactobacillus delbrueckii Subsp. delbrueckii LDD01 to restore the "gastric barrier effect" in patients chronically treated with PPI: a pilot study.

BACKGROUND: Gastroesophageal reflux disease is a very widespread condition. In Europe, it is estimated that about 175 million people suffer from this disease and have to chronically take drugs to increase gastric pH. The proton pump inhibitors (PPIs) such as omeprazole, lansoprazole, and esomeprazole are the most widely used drug typology in this regard. However, the inhibition of normal gastric acid secretion has important side effects, the most important being bacterial overgrowth in the stomach and duodenum with a concentration of >105 viable cells/mL. As a major consequence of this, many harmful or even pathogenic bacteria contained in some foods could survive the gastric transit and colonize either the stomach itself, the duodenum, or the gut, where they could establish acute and even chronic infections with unavoidable consequences for the host's health. In other words, the "gastric barrier effect" is strongly reduced or even disrupted. To date, there are no real strategies to deal with this widespread, although still relatively little known, problem. The aim of this study was to confirm the gastric bacterial overgrowth in long-term PPI consumers and to assess the efficacy of some probiotic bacteria, belonging to both genera Lactobacillus and Bifidobacterium, in the reduction of gastric and duodenal bacterial overgrowth, therefore partially restoring the gastric barrier effect against foodborne pathogenic bacteria. METHODS: For this purpose, probiotics with a strong demonstrated inhibitory activity on gram-negative bacteria, such as Escherichia coli, were tested in a human intervention trial involving a total of 30 subjects treated with PPIs for either 3 to 12 consecutive months (short-term) or >12 consecutive months (long-term). An additional 10 subjects not taking PPIs were enrolled and used as a control group representing the general population. Four selected probiotics Probiotical SpA (Novara, Italy), namely Lactobacillus rhamnosus LR06 (DSM 21981), Lactobacillus pentosus LPS01 (DSM 21980), Lactobacillus plantarum LP01 (LMG P-21021), and Lactobacillus delbrueckii subsp. delbrueckii LDD01 (DSM 22106) were administered for 10 days to 10 subjects treated with PPIs for >12 months (group B). In the 60 mg formulation, N-acetylcysteine was included as well in light of its well-known mechanical effects on bacterial biofilms. Gastroscopies were performed at the beginning of the study (d0) in all the groups (A, B, C, and D) and after 10 days (d10) in group B only; that is, at the end of probiotics intake. The total viable cells and total Lactobacillus were quantified in gastric juice and duodenal brushing material from all subjects. The results were compared among all the groups and with the control subjects (group D) to confirm the bacterial overgrowth. A comparison was made also between d0 and d10 in group B to quantify the efficacy of the 4 probiotics administered for 10 days. Fecal samples were collected from all groups at d0, including subjects not treated with PPIs, and in group B only at d10. Specific bacterial classes, namely enterococci, total coliforms, E. coli, molds, and yeasts were quantified in all fecal specimens. RESULTS: The results collected confirmed the strong bacterial overgrowth in the stomach and duodenum of people treated with PPIs compared with subjects with a normal intragastric acidity. It is also worth noting that the bacterial cell counts in subjects who underwent a long-term treatment with a PPI were greater than the results from subjects taking these drugs for 3 to 12 months. The intake of 4 specific probiotic strains with a marked antagonistic activity towards 5 E. coli bacteria, including the enterohaemorrhagic O157:H7 strain, and an effective amount of N-acetylcysteine (NAC) was able to significantly reduce bacterial overgrowth in long-term PPI-treated subjects. Total lactobacilli represented the major percentage of bacterial counts, thus demonstrating the ability of such bacteria to colonize the stomach and the duodenum, at least temporarily, and to consequently restore the gastric barrier effect. A significant decrease in fecal enterococci, total coliforms, E. coli, molds, and yeasts in subjects treated with PPIs was recorded at the end of probiotics supplementation (d10) compared with baseline (d0) in group B. This is a further confirmation of the barrier effect also exerted at the stomach level. CONCLUSIONS: PPIs are the most widely sold and used drugs in the world. However, the chronic use of these pharmacological molecules exposes the subject to the risk of foodborne infections as most pathogens are able to survive the gastric transit in a condition of significantly decreased acidity.

Assessment of the in vitro inhibitory activity of specific probiotic bacteria against different Escherichia coli strains.

BACKGROUND: Lactobacilli and bifidobacteria are often associated with health-promoting effects. These live microorganisms, defined as probiotics, are commonly consumed as part of fermented foods, such as yoghurt and fermented milks, or as dietary supplements. Escherichia coli is a gram-negative, rod-shaped bacterium commonly found in the lower intestine of warm-blooded organisms. As a part of the normal gut microbiota, this microorganism colonizes the gastrointestinal tract of animals and humans within a few hours after birth. All E. coli strains can produce a wide variety of biogenic amines responsible for potentially harmful systemic intoxications. Enterohemorrhagic E. coli serotype O157:H7 is a pathotype of diarrhoeagenic strains with a large virulence plasmid pO157 able to produce 1 or more Shiga toxins. METHODS: The overall aim of this study was to determine the inhibitory effects of different strains of probiotics on E. coli serotypes, including E. coli O157:H7 (CQ9485). In particular, the antagonistic activity of 4 Bifidobacterium strains (Probiotical SpA, Italy) and 16 lactic acid bacteria, more specifically 14 Lactobacillus spp. and 2 Streptococcus spp., was assessed against selected E. coli biotypes (ATCC 8739, ATCC 10536, ATCC 35218, and ATCC 25922). The diarrhoeagenic serotype O157:H7 was also tested. RESULTS: The experimental data collected demonstrated an in vitro significant inhibitory effect of 6 Lactobacillus strains, namely L. rhamnosus LR04, L. rhamnosus LR06, L. plantarum LP01, L. plantarum LP02, L. pentosus LPS01, and L. delbrueckii subsp. delbrueckii LDD01, and 2 Bifidobacterium strains, B. breve BR03 and B. breve B632. The inhibiting extent was slightly different among these strains, with L. delbrueckii subsp. delbrueckii LDD01 showing the highest activity on E. coli O157:H7. CONCLUSIONS: Most of the probiotics studied are able to antagonize the growth of the 5 strains of E. coli tested, including the O157:H7 biotype, well known for their characteristic to produce a wide variety of biogenic amines considered responsible for dangerous systemic intoxications.

Selenium and zinc internalized by Lactobacillus buchneri Lb26 (DSM 16341) and Bifidobacterium lactis Bb1 (DSM 17850): improved bioavailability using a new biological approach.

BACKGROUND: Minerals, often referred to as micronutrients, are one of the 5 fundamental groups of nutrients needed to sustain life. Micronutrient malnutrition affects >50% of the worldwide population. In particular, zinc (Zn) deficiency is considered an emerging public health problem in India and in other developing countries. Selenium (Se) is another trace mineral essential for humans and animals. Dietary Se exists primarily as selenomethionine and selenocysteine. In addition, Se may be present in its inorganic form (selenite) in some vegetables. To increase the daily intake of these minerals, numerous food supplements containing different inorganic and organic forms of Zn or Se are commercially available. At any rate, it is quite well known that inorganic salts have a very low bioavailability. Organic salts, commonly based on gluconate, orotate, citrate, or other molecules, are characterized by a higher systemic effect. The innovative opportunity of using certain species of probiotics enriched with the 2 minerals could represent an interesting alternative to these preparations. Diet integration with bacteria able to internalize Zn and Se may embody a new application of probiotics. METHODS: To overcome the difficulties of in vivo animal or human trials, in this work a cell culture model using Caco-2 cells in bicameral chambers (Transwell system) was developed and validated to quantify the bioavailability of some commercial forms of Se and Zn compared with the organic forms accumulated intracellularly by Lactobacillus buchneri Lb26 (DSM 16341) and Bifidobacterium lactis Bb1 (DSM 17850), respectively. RESULTS: The experimental data collected demonstrated a significantly higher bioavailability of Se and Zn internalized by L. buchneri Lb26 (DSM 16341) and B. lactis Bb1 (DSM 17850), respectively, compared with the inorganic and even organic forms tested. In particular, the Se accumulated at the intracellular level by L. buchneri Lb26 proved to be 5.9, 9.4, and 65 times more absorbable than sodium selenite, seleno-L-methionine, and seleno-L-cysteine, respectively. In contrast, Zn internalized by B. lactis Bb1 showed an absorption that was >16 times higher by Caco-2 cells compared with zinc gluconate and a 31.5 times higher absorption compared with zinc sulfate. Most notably, Se and Zn internalized by the 2 probiotics studied are the only forms able to reach the Transwell basolateral compartment at a concentration higher than the concentration found in the apical compartment, therefore suggesting a considerably higher in vivo ability to be absorbed into the bloodstream. Both organic and inorganic forms of Se and Zn were predominantly found in the apical compartment, thus demonstrating their poor ability to diffuse into the cell and become bioavailable in all subcellular areas. CONCLUSIONS: The opportunity of delivering minerals in a highly bioavailable form by means of a probiotic bacterium has not been deeply investigated to date. This is the first study reporting quantitative data on the bioavailability and percentage of absorption of minerals internalized by specific probiotics. The most noticeable aspect is the significantly higher absorption of both probiotic Se and Zn compared with their organic forms, with particular reference to seleno-L-methionine, seleno-L-cysteine, and zinc gluconate.

Effectiveness of the association of 2 probiotic strains formulated in a slow release vaginal product, in women affected by vulvovaginal candidiasis: a pilot study.

BACKGROUND: Vulvovaginal candidiasis (VVC) is the second most common cause of vaginitis after bacterial vaginosis, and it is diagnosed in up to 40% of women with vaginal complaints in the primary care setting. Among Candida spp., Candida albicans is the most common infectious agent. The treatment of choice for uncomplicated VVC is achieved with single-dose or short-course therapy in over 90% of cases. Several topical and oral drugs are available, without evidence for superiority of any agent or route of administration. In any case, most classic treatments are unable to significantly offer a protection against possible recurrences. In recent years, probiotics are emerging as a new strategy to counteract VVC. In fact, they are well known for their ability to lower intravaginal pH, thus establishing a barrier effect against many types of yeasts. Some strains are also able to exert additional and more focused antagonistic activities mediated by specific molecules such as hydrogen peroxide and bacteriocins. For example, Lactobacillus fermentum LF5 (CNCM I-789) was successfully tested in 4 human trials involving a total of 340 women reporting VVC at enrollment. In any case, the way used to deliver probiotics to the vaginal environment represents a crucial point. The aim of this work was to first select 1 or more probiotic strains in vitro with an antagonistic activity on Candida yeasts and then to perform an in vivo human pilot study using an association of the most promising and active bacteria. METHODS: For this purpose, 2 probiotic strains Probiotical S.p.A (Italy) were selected based on their strong in vitro inhibition activity toward 4 particular Candida species, namely C. albicans, Candida glabrata, Candida parapsilosis, and Candida krusei and subsequently tested in a human intervention pilot trial involving 30 women with VVC. The probiotics used, L. fermentum LF10 (DSM 19187) and Lactobacillus acidophilus LA02 (DSM 21717), were administered by means of slow release effervescent vaginal tablets (ActiCand 30 product). The main endpoint was the assessment of the establishment and maintenance of a barrier effect against Candida yeasts in women suffering from VVC. Thirty female subjects who were diagnosed with VVC by both microscopic examination and yeast culture were enrolled in the study and directed to apply a vaginal tablet once a day for 7 consecutive nights, followed by 1 tablet every 3 nights for a further 3-week application (acute phase) and, finally, 1 tablet per week to maintain a long-term vaginal colonization against possible recurrences. A medical examination of each patient was performed at enrollment (d0), at the end of the first 4 weeks of treatment (d28), and at the end of the second month of relapse prevention (d56). The visual and microscopic examination was always accompanied by microbiological analyses of vaginal swabs to assess the presence of Candida. A statistical comparison was made between d28, or d56, and d0, and between d56 and d28 to quantify the efficacy against possible recurrences. RESULTS: The administration of the product ActiCand 30 was able to significantly solve Candida yeast symptoms after 28 days in 26 patients out of 30 (corresponding to 86.6%, P<0.001). At the end of the second month, recurrences were recorded, albeit not particularly serious, in only 3 out of 26 patients (11.5%, P=0.083) who were found to have fully healed at the end of the first month of treatment. This is a further confirmation of the long-term barrier effect exerted by the product. CONCLUSIONS: VVC has a very high incidence as 70% to 75% of women report at least 1 episode during the life. Many treatments are currently available but, despite a relatively high effectiveness in the relief of symptoms typically associated with acute infections, they are generally unable to offer a long-term protective barrier against possible recurrences. This study demonstrated the ability of ActiCand 30 to not only solve Candida infections in a very high percentage of women, but also to exert a long-term physiological defense due to the colonization of vaginal microbiota and adhesion of the mucosa to the epithelial cells. The special formulation of ActiCand 30, consisting of slow release effervescent vaginal tablets, is able to mediate 2 types of barrier effects, the first represented by the formation of an anaerobic environment due to the release of CO2 and the second guaranteed by the colonization and adhesion to the vaginal epithelium of the 2 probiotics L. fermentum LF10 and L. acidophilus LA02.

Cultivable and pyrosequenced fecal microflora in centenarians and young subjects.

GOAL: The aim of this study was to characterize the composition of the intestinal microbiota in healthy centenarians in comparison with younger adults, considering both quantitative and qualitative aspects of gut community structure. BACKGROUND: The gut microbiota plays an essential role in human health. Toward seniority, its balance is affected by deep physiological changes. Long-lived people (age >90 y) have unusual features that differ from the younger elderly, so they should be considered separately when analyzing age-related features. However, they have been included in few studies and they have usually been grouped together with the younger elderly. STUDY: The gut microbiota of 14 centenarians and 10 younger adults was analyzed. Cultivable bacteria belonging to the following groups were enumerated: enterobacteriaceae, Enterococcus, Staphylococcus, Lactobacillus, Bifidobacterium, Clostridium, Bacteroides, and yeast. Lactobacilli and Bifidobacteria were further characterized at the species level by pyrosequencing. RESULTS: : In centenarians, we observed a reduction in the quantity of enterobacteriaceae, bifidobacteria, and bacteroides and an increase in clostridia sensu stricto (P<0.05). The number of Lactobacillus and Bifidobacterium species isolated in centenarians and younger adults was similar. The composition of the Lactobacillus subpopulation was quite different between the groups. The presence of Bifidobacterium longum in the gut seems to be a particular feature in centenarians. It is interesting to note that only 1 strain of B. longum was isolated from each centenarian subject. CONCLUSIONS: The gut microbiota of centenarians has particular features that differ from both younger adults and the younger elderly. Further studies would help to understand whether the intestinal microbiota can influence life expectancy and whether the administration of probiotic bacteria could help to extend the longevity of human life.

Comparison of the kinetics of intestinal colonization by associating 5 probiotic bacteria assumed either in a microencapsulated or in a traditional, uncoated form.

BACKGROUND: Beneficial findings concerning probiotics are increasing day by day. However, one of the most important parameters able to significantly affect the probiotic value of a microorganism is its survival during the transit through the stomach and the duodenum. Some techniques may be applied that aim to improve this parameter, but microencapsulation of bacterial cells remains one of the most important. A recent study assessed the kinetics of intestinal colonization by a mixture of 2 probiotic strains, given either in a microencapsulated or in a traditional, uncoated form. METHODS: A comparison between the intestinal colonization by associating 5 microencapsulated bacteria and the same uncoated strains was performed by a double-blind, randomized, cross-over study. The study (December 2007 to January 2009) involved 53 healthy volunteers. In particular, subjects were divided into 2 groups: group A (27 subjects) was given a mix of probiotic strains Probiotical S.p.A. (Novara, Italy), Lactobacillus acidophilus LA02 (DSM 21717), Lactobacillus rhamnosus LR04 (DSM 16605), L. rhamnosus GG, or LGG (ATCC 53103), L. rhamnosus LR06 (DSM 21981), and Bifidobacterium lactis BS01 (LMG P-21384) in an uncoated form, whereas group B (26 subjects) received the same strains microencapsulated with a gastroprotected material. The uncoated strains were administered at 5×109 cfu/strain/d (a total of 25×109 cfu/d) for 21 days, whereas the microencapsulated bacteria were given at 1×109 cfu/strain/d (a total of 5×109 cfu/d) for 21 days. At the end of the first period of supplementation with probiotics, a 3-week wash-out phase was included in the study setting. At the end of the wash-out period, the groups crossed over their treatment regimen; that is, group A was administered the microencapsulated bacteria and group B the uncoated bacteria. The administered quantities of each strain were the same as the first treatment. A quantitative evaluation of intestinal colonization by probiotics, either microencapsulated or uncoated, was undertaken by examining fecal samples at the beginning of the study (time 0), after 10 days and after 21 days of each treatment period. In particular, fecal total Lactobacilli, heterofermentative Lactobacilli, and total Bifidobacteria were quantified at each checkpoint. A genomic analysis of an appropriate number of colonies was performed to quantify individual L. rhamnosus strains among heterofermentative Lactobacilli. RESULTS: A statistically significant increase in the fecal amounts of total Lactobacilli, heterofermentative Lactobacilli, and total Bifidobacteria was registered in both groups at the end of each supplementation period compared with d0 or d42 (group A: P=0.0002, P=0.0001, and P<0.0001 at d21, P=0.0060, P=0.0069, and P<0.0001 at d63 for total Lactobacilli, heterofermentative Lactobacilli, and Bifidobacteria, respectively; group B: P=0.0002, P=0.0006, and P<0.0001 at d21, P=0.0015, P=0.0016, and P<0.0001 at d63 for total Lactobacilli, heterofermentative Lactobacilli, and Bifidobacteria, respectively), confirming the ability of each strain in the administered composition to colonize the human gut, whether supplemented in a gastroprotected or in a traditional freeze-dried form. On the contrary, subjects receiving microencapsulated bacteria reported a kinetics of intestinal colonization that was entirely comparable with those who were given uncoated strains at a 5 times higher amount. CONCLUSIONS: The microencapsulation technique used in this study is a valid approach aimed to significantly improve the survival of strains during gastroduodenal transit, thus enhancing their probiotic value and allowing the use of a 5 times lower amount.

Allergen-free probiotics.

Food sensitivities are constantly increasing in "westernized" countries and may pose serious health risks to sensitized individuals. Severe allergy episodes have also been reported after the intake of probiotic products containing milk protein residues, especially in children. The need for safe and effective probiotic strains and food supplements, which contain them, is now emerging clearly. The present work describes the way of achieving this aim by the avoidance of any kind of raw materials at risk, both in probiotic strain industrial manufacturing and finished product formulation. Allergen-free probiotics represent, without any doubt, an innovative and safe tool for human health.

Validation of recombinant and bovine chymosin by mass spectrometry.

Mass spectrometry has been used to map chymosin from a fermentative source. The copresence of the two known genetic variants A (Asp(244)) and B (Gly(244)) was ascertained in bovine chymosin. By contrast, either the A or the B genetic variant occurred in the three commercial samples of recombinant calf chymosin (RCC). Specific biomarker proteins were searched to identify the enzyme source, in both bovine chymosin and RCC samples. Analyzing the derived tryptic peptides, evidence was provided that RCC and bovine chymosin are mainly formed by (1-323), (3-323), and (40p-323) (suffix "p" denotes residues in the pro-segment region of chymosin), whereas the minor components, (4-323), (5-323), and (6-323), were only detected in bovine chymosin. Additionally, the three commercial RCC samples contained the protein species (1-323), (38p-323), (39p-323), and (40p-323) and the shorter form (3-323). Differentiation of the natural and bioengineered enzyme is based upon the detection of these unique minor components by mass spectrometry.