Characterization of bacteria, clostridia and Bacteroides in faeces of vegetarians using qPCR and PCR-DGGE fingerprinting.

BACKGROUND/AIMS: This study aimed to investigate the quantitative and qualitative changes of bacteria, Bacteroides, Bifidobacterium and Clostridium cluster IV in faecal microbiota associated with a vegetarian diet. METHODS: Bacterial abundances were measured in faecal samples of 15 vegetarians and 14 omnivores using quantitative PCR. Diversity was assessed with PCR-DGGE fingerprinting, principal component analysis (PCA) and Shannon diversity index. RESULTS: Vegetarians had a 12% higher abundance of bacterial DNA than omnivores, a tendency for less Clostridium cluster IV (31.86 +/- 17.00%; 36.64 +/- 14.22%) and higher abundance of Bacteroides (23.93 +/- 10.35%; 21.26 +/- 8.05%), which were not significant due to high interindividual variations. PCA suggested a grouping of bacteria and members of Clostridium cluster IV. Two bands appeared significantly more frequently in omnivores than in vegetarians (p < 0.005 and p < 0.022). One was identified as Faecalibacterium sp. and the other was 97.9% similar to the uncultured gut bacteriumDQ793301. CONCLUSIONS: A vegetarian diet affects the intestinal microbiota, especially by decreasing the amount and changing the diversity of Clostridium cluster IV. It remains to be determined how these shifts might affect the host metabolism and disease risks.

Combined PCR-DGGE fingerprinting and quantitative-PCR indicates shifts in fecal population sizes and diversity of Bacteroides, bifidobacteria and Clostridium cluster IV in institutionalized elderly.

AIMS: This study aimed at determining ageing-related shifts in diversity and composition of key members of the fecal microbiota by comparing institutionalized elderly (n = 17, 78-94 years) and young volunteers (n = 17, 18-31 years). METHODS AND RESULTS: A combination of molecular methods was used to characterize the diversity and relative abundance of total gastro-intestinal flora, along with relevant subsets within the genera Bacteroides, bifidobacteria and Clostridium cluster IV. The institutionalized elderly harbored significantly higher numbers of Bacteroides cells than control (28.5 +/- 8.6%; 21.4 +/- 7.7%; p = 0.016) but contained less bifidobacteria (1.3 +/- 0.9, 2.7 +/- 3.2%, p = 0.026) and Clostridium cluster IV (26.9 +/- 11.7%, 36.36 +/- 11.26%, p = 0.036). The elderly also displayed less total Bacteria diversity and less diversity with the Clostridium cluster IV (p < 0.016) and Bacteroides. CONCLUSION: Despite high individual variations, our analyses indicate the composition of microbiota in the elderly comprises a less diverse subset of young healthy microbiota. SIGNIFICANCE AND IMPACT OF THE STUDY: A better understanding of the individual composition of the human microbiota and the effects of ageing might result in the development of specifically targeted supplementation for elderly citizens in order to support healthy ageing.

Preanalytic removal of human DNA eliminates false signals in general 16S rDNA PCR monitoring of bacterial pathogens in blood.

PCR detection of microbial pathogens in blood from patients is a promising issue for rapid diagnosis of sepsis and early targeted therapy. However, for PCR assays detecting all bacterial groups, broad range primers, in particular the 16S rDNA targeting primers have to be used. Upcoming false signals and reduced sensitivity are a common problem as a consequence of unspecific amplification reactions with the human DNA background. Here we show that, using total DNA extracts from blood, unspecific signals occurred in general 16S rDNA PCRs as a result of the amplification of human sequences. To address this problem, we developed a protocol by which the human background DNA is removed and bacterial DNA is enriched during sample preparation, a method we termed background-free enrichment method (BFEM). In general, we aimed to exclude false signals due to the human background DNA yielded from 16S rDNA PCR, Real-Time-PCR and IGS-PCR analyses. We applied the BFEM to the analysis of blood samples from 22 patients and obtained results similar to standard blood culture methods. The BFEM allows specific and sensitive detection of pathogens in downstream PCR assays and is easy to handle due to the quick sample preparation procedure. Thus, the BFEM contributes to the generation of replicable and more reliable data in general 16S rDNA PCR assays.

Vegetarian diet affects genes of oxidative metabolism and collagen synthesis.

BACKGROUND/AIM: A vegetarian diet is known to prevent a series of diseases but may influence the balance of carbohydrate and fat metabolism as well as collagen synthesis. This study compares expression patterns of relevant genes in oral mucosa of omnivores and vegetarians. METHODS: Quantitative reverse transcriptase polymerase chain reaction was applied for analysis of mRNA levels from carnitine transporter OCTN2, hepatic CPT1A and nonhepatic CPT1B isoforms of carnitine palmitoyltransferase and collagen (CCOL2A1) in oral mucosa. RESULTS: Compared with volunteers with traditional eating habits, carbohydrate consumption was significantly higher (+22%) in vegetarians. This was associated with a significant stimulation of CPT1A (+50%) and OCTN2 (+10%) and a lowered collagen synthesis (-10%). CONCLUSION: These novel findings provide further insight into the association of a changed fat metabolism and reduced collagen synthesis in vegetarians, which could also play a role in the aging process.

DGGE and real-time PCR analysis of lactic acid bacteria in bacterial communities of the phyllosphere of lettuce.

Food associated indigenous microbial communities exert antagonistic effects on pathogens and may routinely deliver health relevant microorganisms to the GI tract. By using molecular, culture independent methods including PCR-DGGE of 16S rDNA-coding regions and real-time PCR (RT-PCR) as well as BIOLOG metabolic fingerprinting, microbial communities on lettuce were analyzed in samples from fields, from supermarkets and soil. Amplified 16S rRNA gene sequences (57.7%) could be assigned to species previously reported as typical for the phyllosphere including Pantoea agglomerans, Pseudomonas flavescens, Moraxella spp., and Mycobacterium spp. 71.8% of the sequences obtained represented so far undescribed taxa. Principal component analysis of BIOLOG metabolic profiles indicated a seasonal variation in the lettuce phyllosphere microbial community structure. Various lactic acid bacteria were detected including several Lactobacillus and Leuconostoc species in particular on lettuce from organic farming. By RT-PCR lactobacilli were found with a range of abundances from 1x10(4 )to 1x10(5 )copies/g lettuce. Considering the importance of salad in many diets lettuce may contribute to a constant supply with LAB.