Prospects for the development of probiotics and prebiotics for oral applications

There has been a paradigm shift towards an ecological and microbial community-based approach to understanding oral diseases. This has significant implications for approaches to therapy and has raised the possibility of developing novel strategies through manipulation of the resident oral microbiota and modulation of host immune responses. The increased popularity of using probiotic bacteria and/or prebiotic supplements to improve gastrointestinal health has prompted interest in the utility of this approach for oral applications. Evidence now suggests that probiotics may function not only by direct inhibition of, or enhanced competition with, pathogenic micro-organisms, but also by more subtle mechanisms including modulation of the mucosal immune system. Similarly, prebiotics could promote the growth of beneficial micro-organisms that comprise part of the resident microbiota. The evidence for the use of pro or prebiotics for the prevention of caries or periodontal diseases is reviewed, and issues that could arise from their use, as well as questions that still need to be answered, are raised. A complete understanding of the broad ecological changes induced in the mouth by probiotics or prebiotics will be essential to assess their long-term consequences for oral health and disease

Survey on proteolytic activity and diversity of proteinase genes in mesophilic lactobacilli

Lactocepins or CEPs are large cell wall bound extracellular proteinases of lactic acid bacteria, involved in protein breakdown and utilization. They are responsible for many health-promoting traits of food products fermented with these organisms, but also essential for probiotic effects of certain strains. Different mesophilic strains selected within the species Lactobacillus zeae, Lb. casei, Lb. rhamnosus, and Lb. plantarum were analyzed for their proteolytic activity towards main fractions of milk proteins-caseins and whey proteins. The strains showing excellent proteolytic features were further examined for presence of corresponding proteinase gene(s). It was found that Lb. zeae LMG17315 possessed catalytic domains of three distinct proteinase genes, unique feature in Lb. casei group, which are similar but not identical to previously characterized prtP and prtR genes. Lb. casei neotype strain ATCC393 was also analysed and based on obtained results its reclassification in taxon Lb. zeae is supported. In addition, we report catalytic domain of prtR-type gene in Lb. plantarum LMG9208, which is first such report in this species, and it is first time that this gene is reported outside Lb. casei group