Effects of the Pharmabiotic U-21 under Conditions of a Combined Neuroinflammatory Model of Parkinson's Disease in Rats.

Data on the participation of microbiota in the development of Parkinson's disease allow us to discuss the ability of bacterial preparations to influence the processes leading to neurodegeneration. We studied the effect of oral administration of Limosilactobacillus fermentum U-21 lyophilisate on a model of Parkinson's disease in rats induced by combined intranigral injection of LPS and systemic administration of paraquat. The toxins significantly increased the number of missteps in the "narrowing beam walking" test, but a tendency to a decrease in this parameter was shown after treatment with U-21. It should be noted that U-21 did not reduce the neuronal death in the substantia nigra, but mitigated the inflammatory glial response, decreased the accumulation of phosphorylated α-synuclein and complement protein C3. Our study demonstrated the efficiency of the combined model of parkinsonism and reduction of proinflammatory changes under the influence of pharmabiotic without changes in the nigral neuronal death and motor deficits.

Species-specific serine-threonine protein kinase Pkb2 of Bifidobacterium longum subsp. longum: Genetic environment and substrate specificity.

The objective of this study was to determine for phosphorylated substrates of the species-specific serine-threonine protein kinase (STPK) Pkb2 from Bifidobacterium longum subsp. longum GT15. Two approaches were employed: analyses of phosphorylated membrane vesicles protein spectra following kinase reactions and analyses of the genes surrounding pkb2. A bioinformatics analysis of the genes surrounding pkb2 found a species-specific gene cluster PFNA in the genomes of 34 different bifidobacterial species. The identified cluster consisted of 5-8 genes depending on the species. The first five genes are characteristic for all considered species. These are the following genes encoding serine-threonine protein kinase (pkb2), fibronectin type III domain-containing protein (fn3), AAA-ATPase (aaa-atp), hypothetical protein with DUF58 domain (duf58) and transglutaminase (tgm). The sixth (protein phosphatase, prpC), seventh (hypothetical protein, BLGT_RS02790), and eighth (FHA domain-containing protein, fha) genes are included in this cluster, but they are not found in all species. The operon organization of the PFNA gene cluster was confirmed with transcriptional analysis. AAA-ATPase, which is encoded by a gene of the PFNA gene cluster, was found to be a substrate of the STPK Pkb2. Fourteen AAA-ATPase sites (seven serine, six threonine, and one tyrosine) phosphorylated by STPK Pkb2 were revealed. Analysis of the spectra of phosphorylated membrane vesicles proteins allowed us to identify eleven proteins that were considered as possible Pkb2 substrates. They belong to several functional classes: proteins involved in transcription and translation; proteins of the F1-domain of the FoF1-ATPase; ABC-transporters; molecular chaperone GroEL; and glutamine synthase, GlnA1. All identified proteins were considered moonlighting proteins. Three out of 11 proteins (glutamine synthetase GlnA1 and FoF1-ATPase alpha and beta subunits) were selected for further in vitro phosphorylation assays and were shown to be phosphorylated by Pkb2. Four phosphorylated substrates of the species-specific STPK Pkb2 from B. longum subsp. longum GT15 were identified for the first time. They included the moonlighting protein glutamine synthase GlnA, FoF1-ATPase alpha and beta subunits, and the chaperone MoxR family of AAA-ATPase. The ability of bifidobacterial STPK to phosphorylate the substrate on serine, threonine, and tyrosine residues was shown for the first time.

The Lactobacillus rhamnosus and Lactobacillus fermentum strains from human biotopes characterized with MLST and toxin-antitoxin gene polymorphism.

The diversity of Lb. rhamnosus and Lb. fermentum strains isolated from feces, saliva, and the vaginal cavity of 18-22-year-old healthy women residing in central regions of the Russian Federation has been characterized. The results obtained using multilocus sequence typing were identical to those obtained with the analysis of genetic and genomic polymorphism in TA systems. Different as well as identical Lb. rhamnosus and Lb. fermentum sequence types (ST) were isolated from various parts of the body of the same person. Identical ST were also isolated from different women, suggesting that such strains belong to a common pool of strains circulating among the population members. Our results demonstrate that TAs are suitable for characterizing intra-specific diversity of Lb. rhamnosus and Lb. fermentum strains. The advantage of using polymorphisms in TA systems for genotyping is based on the weak number of genes used, and consequently, less time is required for the analysis.

GABA production and structure of gadB/gadC genes in Lactobacillus and Bifidobacterium strains from human microbiota.

Gamma-amino butyric acid (GABA) is an active biogenic substance synthesized in plants, fungi, vertebrate animals and bacteria. Lactic acid bacteria are considered the main producers of GABA among bacteria. GABA-producing lactobacilli are isolated from food products such as cheese, yogurt, sourdough, etc. and are the source of bioactive properties assigned to those foods. The ability of human-derived lactobacilli and bifidobacteria to synthesize GABA remains poorly characterized. In this paper, we screened our collection of 135 human-derived Lactobacillus and Bifidobacterium strains for their ability to produce GABA from its precursor monosodium glutamate. Fifty eight strains were able to produce GABA. The most efficient GABA-producers were Bifidobacterium strains (up to 6 g/L). Time profiles of cell growth and GABA production as well as the influence of pyridoxal phosphate on GABA production were studied for L. plantarum 90sk, L. brevis 15f, B. adolescentis 150 and B. angulatum GT102. DNA of these strains was sequenced; the gadB and gadC genes were identified. The presence of these genes was analyzed in 14 metagenomes of healthy individuals. The genes were found in the following genera of bacteria: Bacteroidetes (Bacteroides, Parabacteroides, Alistipes, Odoribacter, Prevotella), Proteobacterium (Esherichia), Firmicutes (Enterococcus), Actinobacteria (Bifidobacterium). These data indicate that gad genes as well as the ability to produce GABA are widely distributed among lactobacilli and bifidobacteria (mainly in L. plantarum, L. brevis, B. adolescentis, B. angulatum, B. dentium) and other gut-derived bacterial species. Perhaps, GABA is involved in the interaction of gut microbiota with the macroorganism and the ability to synthesize GABA may be an important feature in the selection of bacterial strains - psychobiotics.

[Sequencing and analysis of the resistome of Streptomyces fradiae ATCC19609 in order to develop a test system for screening of new antimicrobial agents].

The paper provides the annotation and data on sequencing the antibiotic resistance genes in Streptomyces fradiae strain ATCC19609, highly sensitive to different antibiotics. Genome analysis revealed four groups of genes that determined the resistome of the tested strain. These included classical antibiotic resistance genes (nine aminoglycoside phosphotransferase genes, two beta-lactamase genes, and the genes of puromycin N-acetyltransferase, phosphinothricin N-acetyltransferase, and aminoglycoside acetyltransferase); the genes of ATP-dependent ABC transporters, involved in the efflux of antibiotics from the cell (MacB-2, BcrA, two-subunit MDR1); the genes of positive and negative regulation of transcription (whiB and padR families); and the genes of post-translational modification (serine-threonine protein kinases). A comparative characteristic of aminoglycoside phosphotransferase genes in S. fradiae ATCC19609, S. lividans TK24, and S. albus J1074, the causative agent of actinomycosis, is provided. The possibility of using the S. fradiae strain ATCC19609 as the test system for selection of the macrolide antibiotic oligomycin A derivatives with different levels of activity is demonstrated. Analysis of more than 20 semisynthetic oligomycin A derivatives made it possible to divide them into three groups according to the level of activity: inactive (>1 nmol/disk), 10 substances; with medium activity level (0.05­1 nmol/disk), 12 substances; and more active (0.01­0.05 nmol/disk), 2 substances. Important for the activity of semisynthetic derivatives is the change in the position of the 33rd carbon atom in the oligomycin A molecule.

FoF1-ATP synthase of Streptomyces fradiae ATCC 19609: structural, biochemical, and functional characterization.

The patterns of protein phosphorylation in inverted membrane vesicles from the strain Streptomyces fradiae ATCC 19609 were investigated to elucidate the mechanisms of regulation of bacterial membrane bound FoF1-ATP synthase. We found for the first time by two-dimensional gel electrophoresis and mass spectrometry that the ß- and b-subunits of the FoF1-ATP synthase complex undergo phosphorylation; 20 proteins with known functions were identified. All eight subunits of FoF1-ATP synthase, i.e. α, ß, γ, δ, ε, a, b, and c, were cloned into Escherichia coli and expressed as recombinant proteins. Using a crude preparation of serine/threonine protein kinases, we demonstrated the phosphorylation of recombinant γ-, ß-, α- and ε-subunits. The ß-subunit was phosphorylated both as a recombinant protein and in vesicles. Differential phosphorylation of membrane-bound and recombinant proteins can be attributed to different pools of protein kinases in each preparation; in addition, certain steps of FoF1-ATP synthase assembly and function might be accompanied by individual phosphorylation patterns. The structure of the operon containing all subunits and regulatory protein I was identified. The phylogenetic similarity of FoF1-ATP synthase from Streptomyces fradiae ATCC 19609 with the respective proteins in saprophytic and pathogenic (including Mycobacterium tuberculosis) bacteria was investigated. Thus, bacterial serine/threonine protein kinases are important for the regulation of FoF1-ATP synthase. From the practical standpoint, our results provide a basis for designing targeted antibacterial drugs.

Isolation and Purification of Recombinant Serine/Threonine Protein Kinases of the Strain Bifidobacterium longum B379M and Investigation of Their Activity.

Previously, we identified six serine/threonine protein kinases (STPK) of Bifidobacterium and named them Pkb1-Pkb6. In the present study, we optimized methods for isolation of the six STPK catalytic domains proteins of B. longum B379M: a method for isolation of Pkb3 and Pkb4 in native conditions, a method for isolation of Pkb5 in denaturing conditions, and a method for isolation of Pkb1, Pkb2, and Pkb6 from inclusion bodies. The dialysis conditions for the renaturation of the proteins were optimized. All of the enzymes were isolated in quantities sufficient for study of the protein activity. The proteins were homogeneous according to SDS-PAGE. The autophosphorylation ability of Pkb1, Pkb3, Pkb4, and Pkb6 was investigated for the first time. Autophosphorylation was detected only for the Pkb3 catalytic domain.

[The characteristics of probiotic properties of strains of genus of bifidobacterium separated from gastrointestinal tract of residents of the central region of Russia].

The 156 samples of feces separated from healthy residents of the Central region of Russia were used to compose collection of 87 strains of Bifidobacterium out of which 5 strains with wide antagonistic activity related to pathogenic and opportunistic microorganisms were selected. The selected strains are characterized by high probiotic potentials. They have adhesive properties and sensitivity to antibiotics and preparations corresponding to main requirements of common pharmacopoeia articles to strains of microorganisms used in production of probiotics for medicinal application. The given strains of Bifidobacterium can be recommended for development of effective probiotic pharmaceuticals directed to residents of the Central region of Russia.

[The virulence factors of Mycobacterium tuberculosis: genetic control, new conceptions].

The problem of Mycobacterium tuberculosis virulence, together with drug resistance, is becoming key for the design of drugs with a new mechanism of action and the production of modern concepts and tuberculosis treatment schemes. The review describes gene complexes and their products, including mycolic acids and global regulatory systems at the level of transcriptional, translational, and post-translational modification, etc. The criteria for selection of virulence/pathogenicity factors that might be used for comparative genomic analysis of strains differing in the degree of virulence were recommended. The experimental approaches and test systems for an adequate estimation of the virulence degree of different strains of M. tuberculosis were analyzed.

Regioselective acylation of congeners of 3-amino-1H-pyrazolo[3,4-b]quinolines, their activity on bacterial serine/threonine protein kinases and in vitro antibacterial (including antimycobacterial) activity.

It was found by virtual screening that 3-amino-1H-pyrazolo[3,4-b]quinolines could have wide protein kinase inhibitory activity. Amides of titled amines and thioureas were synthesized regioselectively. 3-Amino-7-methoxy-1H-pyrazolo[3,4-b]quinoline demonstrated in vitro significant inhibitory activity on bacterial serine/threonine protein kinases (inhibition of resistance to kanamycin in Streptomyces lividans regulated by protein kinases). The studies of Structure Activity Relationship (SAR) showed that the substitution of the NH2 group and 1-NH of pyrazole ring or aromatic ring at the position 6 decreased or removed inhibitory activity.

Identification and characterization of toxin-antitoxin systems in strains of Lactobacillus rhamnosus isolated from humans.

The toxin-antitoxin gene systems (TASs) are present in the genomes of the overwhelming majority of bacteria and archaea. These systems are involved in various cellular regulatory processes (including stress response), and have not been previously investigated in Lactobacilli. We identified 6 putative TASs with toxins belonging to the MazE and RelE superfamilies (PemK1-А1Lrh, PemK2-А2Lrh, PemK3-RelB2Lrh, RelE1Lrh, RelB3-RelE3Lrh, and YefM-YoeBLrh) in the genomes of annotated strains of Lactobacillus rhamnosus. PCR analyses revealed that all systems were found in the genomes of 15 strains of L. rhamnosus isolated from humans in central Russia. These strains were highly heterogeneous with respect to the presence of TASs, as well as their nucleotide and amino acid sequences. In three cases, the relE1 genes contained IS3 elements. TAS heterogeneity may be used to reveal inter-genus differences between strains. Cloning of the toxin genes of 3 TASs inhibited Escherichia coli growth, thus confirming their functionality. Cell growth arrest caused by expression of the toxin genes could be reverted by the expression of a cognate antitoxins. Transcription of toxin-antitoxin loci in L. rhamnosus was shown by RT-PCR.

[Systems of genes and proteins affecting mycobacteria virulence and their homologs participation in conjugation of mycobacterium smegmatis].

This review describes and summarizes the data of ESX secretory system peculiarities characteristic of mainly mycobacteria. This system is involved in the secretion of small proteins of the WXG100 family. Some of these proteins represent virulence factors of Mycobacterium tuberculosis and other pathogenic mycobacteria. The role of these proteins in pathogenesis apparently consists of protecting mycobacteria from lysis in the macrophages that absorb them; the cytolysis of macrophages; and, hence, mycobacterium output into the surrounding tissue. A number of proteins that make up this secretory system are homologs of proteins involved in the conjugation process in saprophytic Mycobacterium smegmatis.

[Distribution of genes of toxin-antitoxin systems of mazEF and relBE families in bifidobacteria from human intestinal microbiota].

The in silico analysis of 36 sequenced genomes of bacteria of the Bifidobacterium genus determined the presence of 19 genes of toxin-antitoxin (TA) systems that belong to the MazEF and RelBE families, including five mazF and two relE genes that encode toxins and 12 relB genes that encode antitoxins. A high level ofgene (at the level of nucleotide changes) and genomic (presence or absence of genes in distinct genomes) polymorphism in the investigated genes was revealed. The highest level of polymorphism was observed in strains of the Bifidobacterium longum species, primarily in relB1-10 genes. Gene and genomic polymorphism might be used to identify the strain of B. longum species. PCR analysis ofgenomic DNA of 30 bifidobacteria strains belonging to the three species, B. longum, B. adolscentis, and B. bifidum, isolated from the intestinal microbiota of astronauts demonstrated the presence of mazF and relB genes. The observed polymorphism of TA genes indicates the presence of differences in bifidobacteria strains isolated from the intestinal microbiota of astronauts before and after space flight and the control group.

Identification of phosphorylation sites in aminoglycoside phosphotransferase VIII from Streptomyces rimosus.

We demonstrate for the first time the role of phosphorylation in the regulation of activities of enzymes responsible for inactivation of aminoglycoside antibiotics. The aminoglycoside phosphotransferase VIII (APHVIII) from the actinobacterial strain Streptomyces rimosus ATCC 10970 is an enzyme regulated by protein kinases. Two serine residues in APHVIII are shown to be phosphorylated by protein kinases from extracts of the kanamycin-resistant strain S. rimosus 683 (a derivative of strain ATCC 10970). Using site-directed mutagenesis and molecular modeling, we have identified the Ser146 residue in the activation loop of the enzyme as the key site for Ca2+-dependent phosphorylation of APHVIII. Comparison of the kanamycin kinase activities of the unphosphorylated and phosphorylated forms of the initial and mutant APHVIII shows that the Ser146 modification leads to a 6-7-fold increase in the kanamycin kinase activity of APHVIII. Thus, Ser146 in the activation loop of APHVIII is crucial for the enzyme activity. The resistance of bacterial cells to kanamycin increases proportionally. From the practical viewpoint, our results increase prospects for creation of highly effective test systems for selecting inhibitors of human and bacterial serine/threonine protein kinases based on APHVIII constructs and corresponding human and bacterial serine/threonine protein kinases.

[Mycobacterium tuberculosis mutants with multidrug resistance: history of origin, genetic and molecular mechanisms of resistance, and emerging challenges].

The review summarizes the data on the Mycobacterium tuberculosis mutations that lead to multidrug resistance (MDR) to various antibiotics. MDR strains arose over the past 30 years as a variety of antituberculosis drugs were introduced in medicine, and they largely discount the results of chemotherapy for tuberculosis. The most dangerous of them are strains with extensive drug resistance (XDR), which are resistant to four or five different drugs on average. The molecular mechanisms that make a strain resistant are considered. XDR and MDR strains result from successive and usually independent resistance mutations, which arise in various regions of the mycobacterial genome. In addition, the formation of resistant strains is affected by the phenomenon of tolerance and mycobacterial latency in infected tissues.

[Genetic instability of probiotic characteristics in the Bifidobacterium longum subsp. longum B379M strain during cultivation and maintenance].

The stability of inheriting several genes in the Russian commercial strain Bifidobacterium longum subsp. longum B379M during cultivation and maintenance under laboratory conditions has been studied. The examined genes code for probiotic characteristics, such as utilization of several sugars (lacA2 gene, encoding beta-galactosidase; ara gene, encoding arabinosidase; and galA gene, encoding arabinogalactan endo-beta-galactosidase); synthesis of bacteriocins (lans gene, encoding lanthionine synthetase); and mobile gene tet(W), conferring resistance to the antibiotic tetracycline. The other gene families studied include the genes responsible for signal transduction and adaptation to stress conditions in the majority of bacteria (serine/threonine protein kinases and the toxin-antitoxin systems of MazEF and RelBE types) and transcription regulators (genes encoding WhiB family proteins). Genomic DNA was analyzed by PCR using specially selected primers. A loss of the genes galA and tet(W) has been shown. It is proposed to expand the requirements on probiotic strains, namely, to control retention of the key probiotic genes using molecular biological methods.

Lactobacilli: Legal Regulation and Prospects for New Generation Drugs.

The global probiotics industry has been undergoing major changes in recent years. Approaches to finding and creating new probiotics, as well as a paradigm of their use in food, medicine, and pharmacology are changing. The catalyst proved to be the increasing popularity and availability of omics technologies, in particular, metagenomic studies of human and animal microbiomes. However, the efficiency and safety of drugs based on probiotic strains, as well as their marketing rates, largely depend on the levels of legal and technical regulation in the field. The present review discusses the aspects of legal regulation in Russia, the European Union and the United States, along with the advantages and disadvantages of probiotics and postbiotics. A consensus is emerging that postbiotics have a number of advantages over classical live probiotic cultures. The review also focuses on the lactobacilli family, which includes the largest number of probiotic strains studied so far and still holds a leading position among probiotics. On the legislative front, Russia is often ahead of its time with adopting such laws as the Federal Law No. 492-FZ on biosecurity, which defined the concept of human and animal microbiota and set forth legislative guidelines for its preservation. The new field of research referred to as microbiome nutrigenomics aims to achieve this goal.

[Effects of diet on the gut microbiome in patients with depression]. / Vliyanie diety na mikrobiom kishechnika u patsientov s depressiei.

OBJECTIVE: To investigate the effects of diet on the gut microbiota and to assess the relationship of these factors with depression. MATERIAL AND METHODS: Microorganisms that predominate in depressed patients were identified and associations of the identified organisms with the patients' diet were performed. Fourteen depressed patients and 14 healthy volunteers with the same socio-demographic parameters were included in the study. The Hamilton Depression Scale, Generalized Anxiety Disorder Questionnaire, and the Center for Epidemiologic Studies Questionnaire were used. RESULTS: Erysipelatoclostridium and Clostridium innocuum species were 11.3 and 14.4 times higher in depressed patients compared with healthy controls. Fusicatenibacter saccharivorans, Faecalibacterium prausnitzii and Roseburia faecis species, as well as members of the genus Roseburia were statistically significantly more abundant in the healthy volunteers group (6.5, 2.14, 8.75 and 5.2 times more frequently compared to patients). The presence of these microorganisms was correlated with dietary components. CONCLUSION: Our study revealed groups of microorganisms that differ in healthy volunteers and depressed patients. The association of these microorganisms with the diet was shown, which partially confirmed the influence of a «healthy diet¼ on the development of depressive disorders.

[The Pim family of protein kinases: structure, functions and roles in hematopoietic malignancies].

Phosphorylation is the universal regulatory mechanism in key physiological processes such as development, cell differentiation, proliferation, survival and malignant transformation. In this review we analyze serine/threonine protein kinases of the Pim (proviral integration of Moloney virus) family that have been initially discovered in experimental lymphomas. We provide data on gene structure, evolution, functions and substrates of Pim protein kinases. Focusing on Pim-1 as the major isoform, we analyze its role in the biology of hematopoietic malignancies. Pim-1 is a pro-proliferative and pro-survival protein kinase. It is constitutively active due to autophosphorylation, and its downstream partners positively regulate the cell cycle. Pim-1 cooperates with c-Myc oncoprotein in leukemogenesis; furthermore, Pim-1, like the Akt protein kinase, prevents cell death. Thus, Pim kinases are regarded as new therapeutic targets. Finally, we present an original test system f or screening of Pim inhibitors. In this test system the growth of a genetically engineered Escherichia coli strain in the presence of kanamycin is dependent on the phosphorylation of aminoglycoside-3' phosphotransferase VIII by Pim-1: pharmacological inhibition of this phosphorylation increases the bacterial cell lysis.

[Revised classification of native probiotic strains of Lactobacillus used in Russian Federation].

Thirteen strains of industrial bacterial cultures of the genus Lactobacillus (from a collection of Gabrichevsky Research Institute of Epidemiology and Microbiology) were studied. These strains were used for decades in Russian Federation for food and drug production, as ferments for lactic acid products, for production of probiotics, biologically active and veterinary preparations. Complex analysis of data on cultures obtained using microbiological and molecular-genetic methods was conducted for the first time. Biochemical characteristics of these cultures were studied and the sequence of the proximal region of 16S ribosomal RNA gene was determined. The employment of the test system API-50CHL was shown to broaden the opportunities of a more accurate biochemical identification of bacteria belonging to the genus Lactobacillus, in comparison with the set ANAEROTEST-23. According to the results obtained in a comparative analysis of nucleotide sequences of 16S rRNA gene, all strains examined show 97-99% homology of the proximal region of this gene with that of the type representatives of studied species. These data allowed taxonomic reclassification of the species position of cultures with consideration of the more advanced level of systematics. Nucleotide sequences of gene fragments of examined lactobacilli strains were recorded in NCBI database (accession numbers of deposits GU560031, GU560032, GU560033, GU560034, GU560035, GU560036, GU560037, GU560038, GU560039, GU560040, GU560041, GU560042, GU560043).