Probiotics and Psychobiotics: the Role of Microbial Neurochemicals.

In light of recent data, microorganisms should be construed as organisms that are capable of communication and collective behaviors. Microbial communication signals are involved both in interactions among microbial cells within microbial social systems, including the human body-inhabiting microconsortium, and the dialog between the microbiota and the host organism. The microbiota inhabits various niches of the host organism, especially the gastrointestinal (GI) tract.

Adaptation and Probiotic Potential of Lactobacilli, Isolated from the Oral Cavity and Intestines of Healthy People.

The present study shows that, from 300 Lactobacillus strains isolated from the oral cavity and large intestine of 600 healthy people, only 9 had high antagonistic activity against pathogens and opportunistic pathogens. All antagonistic strains of lactobacilli have been identified by 16S rRNA sequencing and assigned to four species: Lactobacillus fermentum, Lactobacillus rhamnosus, Lactobacillus plantarum, and Lactobacillus casei. In addition, these lactobacilli appeared to be nonpathogenic and had some probiotic potential: the strains produced lactic acid and bacteriocins, showed high sensitivity to broad-spectrum antibiotics, and were capable of forming biofilms in vitro.

Role of Neurochemicals in the Interaction between the Microbiota and the Immune and the Nervous System of the Host Organism.

This work is concerned with the role of evolutionary conserved substances, neurotransmitters, and neurohormones, within the complex framework of the microbial consortium-immune system-nervous system axis in the human or animal organism. Although the operation of each of these systems per se is relatively well understood, their combined effects on the host organism still await further research. Drawing on recent research on host-produced and microbial low-molecular-weight neurochemicals such as biogenic amines, amino acids, and short-chain fatty acids (SCFAs), we suggest that these mediators form a part of a universal neurochemical "language.

Neuromodulatory effects and targets of the SCFAs and gasotransmitters produced by the human symbiotic microbiota.

The symbiotic gut microbiota plays an important role in the development and homeostasis of the host organism. Its physiological, biochemical, behavioral, and communicative effects are mediated by multiple low molecular weight compounds. Recent data on small molecules produced by gut microbiota in mammalian organisms demonstrate the paramount importance of these biologically active molecules in terms of biology and medicine.

[Role of Neuromediators in the Functioning of the Human Microbiota: "Business Talks" among Microorganisms and the Microbiota-Host Dialogue].

Current concepts concerning social behavior of the microorganisms inhabiting human gastrointestinal tract, as well as their role in the formation of integrated supracellular structures and in intercellular communication in the host-microbiota system are reviewed. Analysis of the literature data and the results obtained by the authors indicate an important role of neuromediators (biogenic amines, amino acids, peptides, and nitric oxide) in the intra- and interspecies microbial communication, as well as in the microbiota-host dialogue. The role of this dialogue for human health, its effect on human psyche and social behavior, and the possibility of construction of probiotic preparations with a goal-directed neurochemical effect are discussed.

Epigenomic programing: a future way to health?

It is now generally accepted that the 'central genome dogma' (i.e. a causal chain going from DNA to RNA to proteins and downstream to biological functions) should be replaced by the 'fluid genome dogma', that is, complex feed-forward and feed-back cycles that interconnect organism and environment by epigenomic programing - and reprograming - throughout life and at all levels, sometimes also down the generations.

Metabiotics: novel idea or natural development of probiotic conception.

Traditionally, probiotics on the base of live microorganisms are considered to be both beneficial and safe. Unfortunately, their effects may have short-term success or are absent or uncertain. Some symbiotic (probiotic) microorganisms with known beneficial health affects may cause opportunistic infections, increase incidence of allergic sensitization and autoimmune disorders, produce microecological imbalance, modify gene expression, transfer antibiotic resistant and virulence genes, cause disorders in epigenome and genome integrity, induce chromosomal DNA damage, and activate signaling pathways associated with cancer and other chronic diseases.

Gut indigenous microbiota and epigenetics.

This review introduces and discusses data regarding fundamental and applied investigations in mammalian epigenomics and gut microbiota received over the last 10 years. Analysis of these data enabled us first to come to the conclusion that the multiple low-molecular-weight substances of indigenous gut microbiota origin should be considered one of the main endogenous factors actively participating in epigenomic mechanisms that are responsible for the mammalian genome reprograming and post-translated modifications. Gut microecological imbalance caused by various biogenic and abiogenic agents and factors can produce different epigenetic abnormalities and the onset and progression of metabolic diseases associated.

Probiotic (symbiotic) bacterial languages.

Symbiotic gut microorganisms release of various soluble low molecular weight (LMW)molecules of different chemical nature (surface and exogenous proteins, nucleases, serpins, sirtuines, other enzymes, lectins, peptides, amines, bacteriocines, fatty and amino acids, lactones, furanons, miRNA, NO, etc). These LMW molecules are able to sense environment, interact with corresponding cell surface, membrane, cytoplasm and nucleic acid receptors, to reply quickly and coordinately by induction of special sets of genes, to support stability of host genome and microbiome, to modulate epigenomic regulation of gene phenotypic expression, to ensure the information exchange in numerous bacterial and bacteria-host systems playing an important role in the control for many genetic and physiological functions, biochemical and behaviour reactions, in supporting host health in general. Various symbiotic (probiotic) strains produce different spectrum of such LMW molecules.

[Lectins, adhesins, and lectin-like substances of lactobacilli and bifidobacteria].

Cell-surface adhesion factors of lactobacilli and bifidobacteria, such as lectin/adhesin proteins of S-layers, secreted lectin-like bacteriocins, and lectin-like complexes, are considered and classified in the article. Certain general and specific properties of these factors are noted, such as in vitro and in vivo adhesion, cell co(aggregation), participation in the forming of microbial biofilms and colonization of mammalian alimentary tract, as well as complexation with biopolymers and bioeffectors, specificity to glycanes and natural glycoconjugates, domain and spatial organization of adhesion factors, co-functioning with other cytokines (pro- and anti-inflammatory ones), regulation of target cell properties, and other biological and physiological activities. The authors also note possibilities of application of lectins and lectin-like proteins of probiotic strains of lactobacilli and bifidobacteria in medicine and biotechnology.

[Medical microbial ecology: some of the overall results and research prospects].

The review discusses data of fundamental and applied research in human microbial ecology. Having analyzed these data, the author concludes that in the natural habitats these is practically no biochemical process or function of a living organism that would not need a direct or indirect participation of symbiotic organisms. The condition of these organisms should be considered one of the main biogenic factors that determine human health and pathology.

[Relationships between the probiotic and host indigenous lactobacilli under the conditions of mixed cultivation in vitro].

Relationships between 5 Lactobacillus manufacturing strains, 458 cultures of indigenous lactobacilli isolated from the human digestive and vaginal tracts and 98 isolates from the feces of white rats and mice were under study. The study demonstrated that under the conditions of mixed in vitro cultivation of paired cultures, probiotic strains inhibited more than 60% of the indigenous lactobacilli isolates. L.

[Antimicrobial effects of medicines which are not antibiotics].

The data on antimicrobial activity of 69 different drugs not belonging to the class of typical antibiotics were examined. It was shown that many of them had antimicrobial activity against enterobacteria susceptible and resistant to antibiotics. Some of such drugs were able to eliminate the property of resistance to antibiotics and in particular that to chloramphenicol and tetracyclines.

[Role of anaerobic non spore-forming bacteria in maintaining human health].

The paper gives brief information on the fact that anaerobic non spore-forming bacteria take an active part in the metabolism of various substances and imbalance in their microscopic flora may be a trigger in the development of many human diseases. In the past 2 decades, Russia has been using various pharmaceuticals based on bifidobacteria, lactobacilli and their complexes, increasing colonization resistance, normalizing the pool of cholesterol, oxalic acid, free histamine, and making the liver function normally. Special emphasis is laid on the design of functional nutrition products by means of the above bacteria.

[Microbial ecology of laboratory animals as a model in evaluation of the immunomodulating and antimicrobial agents].

Rats with altered microbial ecology and decreased colonization resistance due to neutropenia induced by cyclophosphamide were used as a model for estimating the effect of bacterial polysaccharides (lactulose and exopolysaccharide from Bacillus polymyxa) and fluoroquinolones (pefloxacin). Monotherapy with pefloxacin had a favourable effect both on normalization on the intestinal microflora in the rats and their hemopoiesis (decreased neutropenia). The highest correcting effect with respect to the lowered colonization resistance was observed when pefloxacin was used in combination with exopolysaccharide.

[The pathogenicity factors of bacteria in the genus Acinetobacter].

Eighty Acinetobacter strains, isolated in Togliatti from patients with purulent inflammatory diseases, were studied to determine their pathogenicity factors. Out of these 80 strains, 32.5% were found to have enterotoxigenic activity and 46.