Your search keyword '"Saarinen, M."' showing total 5 results

1. Xylo-oligosaccharides and lactitol promote the growth of Bifidobacterium lactis and Lactobacillus species in pure cultures.

Author

Mäkeläinen H, Saarinen M, Stowell J, Rautonen N, and Ouwehand AC

Subjects

Bifidobacterium metabolism, Lactobacillus metabolism, Mass Screening methods, Bifidobacterium growth & development, Lactobacillus growth & development, Oligosaccharides metabolism, Prebiotics microbiology, Sugar Alcohols metabolism, Synbiotics analysis

Abstract

The current screening study aimed at identifying promising prebiotic and synbiotic candidates. The fermentation of xylo-oligosaccharides, xylan, galacto-oligosaccharide, fructo-oligosaccharide, polydextrose, lactitol, gentiobiose and pullulan was investigated in vitro. The ability of these established and potential prebiotic candidates to function as a sole carbon source for probiotic (Bifidobacterium and Lactobacillus), intestinal and potential pathogenic microbes (Eubacterium, Bacteroides, Clostridium, Escherichia coli, Salmonella, and Staphylococcus) was assessed in pure cultures. Xylo-oligosaccharides were fermented with high specificity by the tested Bifidobacterium lactis strains and lactitol by lactobacilli, whereas galacto-oligosaccharides, fructo-oligosaccharides and gentiobiose were utilised by a larger group of microbes. Xylan, polydextrose and pullulan were utilised to a limited extent by only a few of the tested microbes. The results of this screening study indicate that xylo-oligosaccharides and lactitol support the growth of a limited number of beneficial microbes in pure cultures. Such a high degree of specificity has not been previously reported for established prebiotics. Based on these results, the most promising prebiotics and synbiotic combinations can be selected for further testing.

Published

2010

2. Xylo-oligosaccharides enhance the growth of bifidobacteria and Bifidobacterium lactis in a simulated colon model.

Author

Mäkeläinen H, Forssten S, Saarinen M, Stowell J, Rautonen N, and Ouwehand AC

Subjects

Bifidobacterium genetics, Humans, Models, Biological, Oligosaccharides analysis, Prebiotics analysis, Xylans analysis, Bifidobacterium growth & development, Bifidobacterium metabolism, Colon microbiology, Oligosaccharides metabolism, Xylans metabolism

Abstract

A semi-continuous, anaerobic colon simulator, with four vessels mimicking the conditions of the human large intestine, was used to study the fermentation of xylo-oligosaccharides (XOS). Three XOS compounds and a xylan preparation were fermented for 48 hours by human colonic microbes. Fructo-oligosaccharides (FOS) were used as a prebiotic reference. As a result of the fermentation, the numbers of Bifidobacterium increased in all XOS and xylan simulations when compared to the growth observed in the baseline simulations, and increased levels of Bifidobacterium lactis were measured with the two XOS compounds that had larger distribution of the degree of polymerisation. Fermentation of XOS and xylan increased the microbial production of short chain fatty acids in the simulator vessels; especially the amounts of butyrate and acetate were increased. XOS was more efficient than FOS in increasing the numbers of B. lactis in the colonic model, whereas FOS increased the Bifidobacterium longum numbers more. The selective fermentation of XOS by B. lactis has been demonstrated in pure culture studies, and these results further indicate that the combination of B. lactis and XOS would form a successful, selective synbiotic combination.

Published

2010

3. Effect of four probiotic strains and Escherichia coli O157:H7 on tight junction integrity and cyclo-oxygenase expression.

Author

Putaala H, Salusjärvi T, Nordström M, Saarinen M, Ouwehand AC, Bech Hansen E, and Rautonen N

Subjects

Caco-2 Cells microbiology, Colon cytology, Humans, Tight Junctions physiology, Bifidobacterium physiology, Colon enzymology, Colon microbiology, Escherichia coli O157 pathogenicity, Lactobacillus physiology, Probiotics, Prostaglandin-Endoperoxide Synthases metabolism, Tight Junctions microbiology

Abstract

Controversy exists as to whether contact between a probiotic bacterial cell and an epithelial cell in the gut is needed to confer beneficial effects of probiotics, or whether metabolites from probiotics are sufficient to cause this effect. To address this question, Caco-2 cells were treated with cell-free supernatants of four probiotics, Bifidobacterium lactis 420, Bifidobacterium lactis HN019, Lactobacillus acidophilus NCFM, Lactobacillus salivarius Ls-33, and by a cell-free supernatant of a pathogenic bacteria, Escherichia coli O157:H7 (EHEC). Tight junction integrity as well as expression of cyclo-oxygenases, which are prostaglandin-producing enzymes, were measured. Probiotic-specific as well as EHEC-specific effects on tight junction integrity and cyclo-oxygenase expression were evident, indicating that live bacterial cells were not necessary for the manifestation of the effects. B. lactis 420 cell-free supernatant increased tight junction integrity, while EHEC cell-free supernatant induced damage on tight junctions. In general, EHEC and probiotics had opposite effects upon cyclo-oxygenase expression. Furthermore, B. lactis 420 cell-free supernatant protected the tight junctions from EHEC-induced damage when administered prior to the cell-free supernatant of EHEC. These results indicate that probiotics produce bioactive metabolites, suggesting that consumption of specific probiotic bacteria might be beneficial in protecting intestinal epithelial cells from the deleterious effects of pathogenic bacteria.

Published

2008

4. Effect of probiotic supplementation on total lactobacilli, bifidobacteria and short chain fatty acids in 2-5-year-old children.

Author

Hemalatha, R., Ouwehand, A. C., Saarinen, M. T., Prasad, U. V., Swetha, K., and Bhaskar, V.

Subjects

LACTOBACILLUS, BIFIDOBACTERIUM, FATTY acids, PROBIOTICS, DIARRHEA

Abstract

Background: Consumption of Lactobacillus paracasei Lpc-37 or Bifidobacterium lactis HN019 by 2-5-year-old children was found to reduce risk for diarrhoea and fever during the rainy season. Objective: Can changes in faecal short chain fatty acids (SCFAs) or branched chain fatty acids (BCFAs) explain the observed positive influence of probiotics and their role on nutritional status and diarrhoea risk? Design: Faecal samples were analysed for SCFAs and BCFAs and correlated to Bifidobacterium and Lactobacillus levels; both at the start and after nine months' consumption of either of the two probiotic strains, or placebo. Results: No differences in SCFAs, BCFAs, Lactobacillus or Bifidobacterium levels were found between boys and girls. Severely underweight children were observed to have the highest Lactobacillus levels. Probiotic intervention was found to be associated with higher levels of selected SCFAs and BCFAs in subjects who had experienced diarrhoea. Treatment with either of the probiotics led to changes in SCFAs and BCFAs. SCFAs, acetate, propionate and butyrate, were found to correlate with each other. Likewise, BCFAs isobutyrate, 2-methylbutyrate and isovalerate correlated with each other. After the intervention, L. paracasei Lpc-37 correlated positively with total Bifidobacterium counts and isovalerate levels. B. lactis HN019 counts were found to correlate positively with total bacterial counts and negatively with propionate levels. Conclusions: Nutritional status was associated with higher levels of faecal lactobacilli; the meaning of this requires further investigation. The intervention with the two probiotics was observed to influence the levels of faecal SCFAs and BCFAs and there is a differential response in those who developed diarrhoea and those who did not. It is, however, not clear to what extent this is a mechanism that explains the earlier observed effect the strains had on diarrhoea risk. [ABSTRACT FROM AUTHOR]

Published

2017

5. SYNBIOTIC EFFECTS OF GALACTO-OLIGOSACCHARIDE, POLYDEXTROSE AND BIFIDOBACTERIUM LACTIS Bi-07 IN VITRO.

Author

Mäkeläinen, H., Ottman, N., Forssten, S., Saarinen, M., Rautonen, N., and Ouwehand, A. C.

Subjects

*BIFIDOBACTERIUM, *PREBIOTICS, *FLOW cytometry, *FATTY acids, *LACTOBACILLUS, *POLYDEXTROSE

Abstract

Synbiotics are used to manipulate the endogenous microbiota, but whether they are more effective than the constituting pro- and prebiotics alone remains to be determined. The objective of this work was to evaluate galacto-oligosaccharide (GOS), polydextrose (PDX) and Bifidobacterium lactis Bi-07 alone and in combinations in a simulated human colon model. Their effects on the microbial community structure and activity were analysed with flow cytometry, qPCR and chromatographic methods. Probiotic B. lactis was bifidogenic, but had only minor effects on the metabolites produced in the colon model. Prebiotic GOS increased the bifidobacteria, whereas PDX had negative effects on the B. lactis and Clostridium numbers. The prebiotics differed in their effects on the metabolite production. Synbiotic GOS+B lactis increased the levels of Bifidobacterium and decreased the numbers of Lactobacillus, Bacteroides and clostridia, and thus, had more effects on the microbial community structure than the constituting components alone. Also the combination of PDX+GOS+B.lactis had similar beneficial effects on the microbiota and in addition, the two oligosaccharides benefited the production of short-chain fatty acids on the whole length of the colonic model. In this study, the synbiotics including GOS were more effective than the constituting pro- or prebiotics alone in modulating the microbiota composition. [ABSTRACT FROM AUTHOR]

Published

2010