[Genetic characterization of clinical Klebsiella isolates circulating in Novosibirsk]. / Генетическая Ñ Ð°Ñ€Ð°ÐºÑ‚ÐµÑ€Ð¸ÑÑ‚Ð¸ÐºÐ° ÐºÐ»Ð¸Ð½Ð¸Ñ‡ÐµÑÐºÐ¸Ñ Ð¸Ð·Ð¾Ð»ÑÑ‚Ð¾Ð² клебсиелл, Ñ†Ð¸Ñ€ÐºÑƒÐ»Ð¸Ñ€ÑƒÑŽÑ‰Ð¸Ñ Ð² Новосибирске.

72 clinical strains of Klebsiella spp. isolated from samples obtained from humans in Novosibirsk, Russia, were analyzed. Species identification of strains was performed using 16S rRNA and rpoB gene sequences. It was revealed that Klebsiella pneumoniae strains were dominant in the population (57 strains), while the remaining 15 strains were K. grimontii, K. aerogenes, K. oxytoca and K. quasipneumoniae. By molecular serotyping using the wzi gene sequence, K. pneumoniae strains were assigned to twenty-one K-serotypes with a high proportion of virulent K1- and K2-serotypes. It was found that K. pneumoniae strains isolated from the hospitalized patients had a higher resistance to antibiotics compared to the other Klebsiella species. Real-time PCR revealed that the population contained genes of the blaSHV, blaTEM, blaCTX families and the blaOXA-48 gene, which are the genetic determinants of beta-lactam resistance. It has been shown that the presence of the blaCTX sequence correlated with the production of extended-spectrum beta-lactamases, and phenotypic resistance to carbapenems is due to the presence of the blaOXA-48 gene. At the same time, the carbapenemase genes vim, ndm, kpc, imp were not detected. Among the aminoglycoside resistance genes studied, the aph(6)-Id and aadA genes were found, but their presence did not always coincide with phenotypic resistance. Resistance to fluoroquinolones in the vast majority of strains was accompanied by the presence of the aac(6')-IB-cr, oqxA, oqxB, qnrB, and qnrS genes in various combinations, while the presence of the oqxA and/or oqxB genes alone did not correlate with resistance to fluoroquinolones. Thus, the detection of blaCTX and blaOXA-48 can be used to quickly predict the production of extended-spectrum beta-lactamases and to determine the resistance of Klebsiella to carbapenems. The detection of the aac(6')-Ib-cr and/or qnrB/qnrS genes can be used to quickly determine resistance to fluoroquinolones.

Taxonomic composition and biodiversity of the gut microbiome from patients with irritable bowel syndrome, ulcerative colitis, and asthma.

To date, the association of an imbalance of the intestinal microbiota with various human diseases, including both diseases of the gastrointestinal tract and disorders of the immune system, has been shown. However, despite the huge amount of accumulated data, many key questions still remain unanswered. Given limited data on the composition of the gut microbiota in patients with ulcerative colitis (UC) and irritable bowel syndrome (IBS) from different parts of Siberia, as well as the lack of data on the gut microbiota of patients with bronchial asthma (BA), the aim of the study was to assess the biodiversity of the gut microbiota of patients with IBS, UC and BA in comparison with those of healthy volunteers (HV). In this study, a comparative assessment of the biodiversity and taxonomic structure of gut microbiome was conducted based on the sequencing of 16S rRNA genes obtained from fecal samples of patients with IBS, UC, BA and volunteers. Sequences of the Firmicutes and Bacteroidetes types dominated in all samples studied. The third most common in all samples were sequences of the Proteobacteria type, which contains pathogenic and opportunistic bacteria. Sequences of the Actinobacteria type were, on average, the fourth most common. The results showed the presence of dysbiosis in the samples from patients compared to the sample from HVs. The ratio of Firmicutes/Bacteroidetes was lower in the IBS and UC samples than in HV and higher the BA samples. In the samples from patients with intestinal diseases (IBS and UC), an increase in the proportion of sequences of the Bacteroidetes type and a decrease in the proportion of sequences of the Clostridia class, as well as the Ruminococcaceae, but not Erysipelotrichaceae family, were found. The IBS, UC, and BA samples had signif icantly more Proteobacteria sequences, including Methylobacterium, Sphingomonas, Parasutterella, Halomonas, Vibrio, as well as Escherichia spp. and Shigella spp. In the gut microbiota of adults with BA, a decrease in the proportion of Roseburia, Lachnospira, Veillonella sequences was detected, but the share of Faecalibacterium and Lactobacillus sequences was the same as in healthy individuals. A signif icant increase in the proportion of Halomonas and Vibrio sequences in the gut microbiota in patients with BA has been described for the f irst time.

Complete genome sequences of the first parechoviruses A associated with sporadic pediatric acute gastroenteritis in Russia.

Parechovirus (the Picornaviridae family), recently classified as Parechovirus A and formerly known as Human parechovirus (HPeV), can cause a wide range of human diseases. Over the past decade, several studies have reported HPeV epidemiology in different regions; however, information from Russia is limited. A total of 632 stool samples collected in Novosibirsk, Russia during January-March 2012 were screened for HPeV by RT-PCR. The study cohort comprised 572 patients with acute gastroenteritis and 60 healthy children. Seven of 572 (1.2%) gastroenteritis cases were HPeV-positive, including one co-infection with rotavirus and astrovirus. All positive patients were ≤1 year old, and five of them were younger than 3 months. None of the healthy controls provided an HPeV-positive sample. Six HPeV isolates were classified as HPeV-1 and one as HPeV-5 using phylogenetic analysis. Two complete genome sequences of HPeV-1 and one of HPeV-5 were determined and analyzed. Phylogenetic analysis showed that the studied Russian strains are probably recombinants. P1 region sequences of two Russian HPeV-1 strains clustered with rare contemporary HPeV-1A strains, whereas their P3 regions were phylogenetically closer to the archival Harris strain. The Russian HPeV-5 strain formed a common cluster with other HPeV-5 strains only for the P1 region, while the P3 region grouped with the German HPeV-2 strain. In the Russian HPeV-5 strain, the lack of the arginine-glycine-aspartic acid (RGD) motif at the C-terminus of VP1 was observed. This is the first complete genome characterization of the Russian HPeV strains detected in sporadic cases of pediatric acute gastroenteritis.

Genetic diversity and geographical distribution of the Siberian subtype of the tick-borne encephalitis virus.

The tick-borne encephalitis virus (TBEV), a member of the Flaviviridae family, is currently subdivided into three main subtypes-the European (TBEV-Eu), the Far-Eastern (TBEV-FE), and the Siberian (TBEV-Sib). The TBEV-Sib is the most common subtype and found in all regions where TBEV was detected, except for Central and Western Europe. Currently, four genetic lineages have been described within TBEV-Sib. In this study, detailed analysis of TBEV-Sib genetic diversity, geographic distribution, phylogeography and divergence time of different TBEV-Sib genetic lineages based on E gene fragments, complete genome sequences, and all currently available data in the GenBank database was performed. As a result, a novel Bosnia lineage within the TBEV-Sib was identified. It was demonstrated that the Zausaev lineage is the most widely distributed among the TBEV-Sib lineages, and was detected in all studied regions except the Far East. The Vasilchenko lineage was found from Western Siberia to the Far East. The Baltic lineage is presented from Europe to Western Siberia. The Obskaya lineage was found only in Western Siberia. TBEV strains from a newly described Bosnia lineage were detected in Bosnia, the Crimean peninsula, Kyrgyzstan and Kazakhstan. The greatest divergence of the TBEV-Sib genetic variants was observed in Western Siberia. Within the TBEV-Sib, the Obskaya lineage diverged from the common ancestor the earliest, after that the Bosnia lineage was separated, then the Baltic lineage, and the Zausaev and Vasilchenko lineages diverged most recently.

A novel thermophilic Aeribacillus bacteriophage AP45 isolated from the Valley of Geysers, Kamchatka: genome analysis suggests the existence of a new genus within the Siphoviridae family.

A novel thermophilic bacteriophage AP45 and its host strain Aeribacillus sp. CEMTC656 were isolated from the Valley of Geysers, Kamchatka Peninsula, Russia. Bacteriophage AP45 was identified as a member of the Siphoviridae family by electron microscopy. It showed high thermostability and had a slow cycle of reproduction. The AP45 genome had 51,606 base pairs (bp) and contained 71 open reading frames (ORFs), 40 of them encoding proteins of predicted function. Genes encoding DNA and RNA polymerases were not identified, indicating that AP45 used host polymerases. Based on the ORF65 encoding putative endolysin, the recombinant protein rAP45Lys was developed and its peptidoglycan-hydrolyzing activity was demonstrated. The AP45 genome exhibited limited identity to other phage sequences; the highest identity, 36%, was with the genome of the thermophilic Geobacillus myovirus D6E. The majority of putative proteins encoded by the AP45 genome had higher similarity to proteins from bacteria belonging to the Bacillaceae family, than to bacteriophages. In addition, more than half of the putative ORFs in the AP45 genome were highly similar to prophage sequences of A. pallidus strain 8m3, which was isolated in north-east China. The AP45 phage and revealed prophages might be members of a new genus belonging to the Siphoviridae family.

Isolation and characterization of a group of new Proteus bacteriophages.

Four lytic Proteus bacteriophages, PM75, PM85, PM93, and PM116, which are active against multi-drug-resistant strains of P. mirabilis, were isolated from cattle and poultry samples. According to electron microscopy data, all of the investigated phages belonged to the family Podoviridae. They all demonstrated lytic activity against sensitive strains of P. mirabilis, and three of the phages, PM85, PM93, and PM116, are potential candidates for use in antibacterial treatment. The genomes and putative proteins of bacteriophages PM85, PM93, and PM116 were similar to those of Proteus phage vB_PmiP_Pm5460 [KP890822], and the investigated phages formed a distinct clade within the genus Sp6virus, subfamily Autographivirinae. The genome sequence of phage PM75 was similar to that of a previously described Proteus phage, PM16 [KF319020], and both of them demonstrated low nucleotide sequence identity to the genomes of the other most similar phages, namely, Vibrio phage VP93, Pantoea phage LIMElight, and KP34-like bacteriophages. According to cluster analysis of the complete genome sequences and phylogenetic analysis of the proteins essential for their life cycle, phages PM75 and PM16 are distinct from other similar phages from the phiKMV supergroup and should be recognized as constituting a new genus, "Pm16virus", within the subfamily Autographivirinae.

Lytic bacteriophage PM16 specific for Proteus mirabilis: a novel member of the genus Phikmvvirus.

Lytic Proteus phage PM16, isolated from human faeces, is a novel virus that is specific for Proteus mirabilis cells. Bacteriophage PM16 is characterized by high stability, a short latency period, large burst size and the occurrence of low phage resistance. Phage PM16 was classified as a member of the genus Phikmvvirus on the basis of genome organization, gene synteny, and protein sequences similarities. Within the genus Phikmvvirus, phage PM16 is grouped with Vibrio phage VP93, Pantoea phage LIMElight, Acinetobacter phage Petty, Enterobacter phage phiKDA1, and KP34-like bacteriophages. An investigation of the phage-cell interaction demonstrated that phage PM16 attached to the cell surface, not to the bacterial flagella. The study of P. mirabilis mutant cells obtained during the phage-resistant bacterial cell assay that were resistant to phage PM16 re-infection revealed a non-swarming phenotype, changes in membrane characteristics, and the absence of flagella. Presumably, the resistance of non-swarming P. mirabilis cells to phage PM16 re-infection is determined by changes in membrane macromolecular composition and is associated with the absence of flagella and a non-swarming phenotype.

[TULA HANTAVIRUS IN CRIMEA].

Genetic evidence of the Tula virus (TULV) in Crimea region of Russia is presented. Based on the reverse transcription PCR and subsequent sequence analysis, a total of 4 RNA isolates of the TULV were identified from the tissue samples of the Altai voles Microtus obscurus captured in the Bakhchisaray district of the Republic Crimea. Phylogenetic analysis of the S-, M-, and L-segment sequences of the Crimean TULV strains showed that they formed distinct genetic lineage, Russia IV, in the TULV variant. New sequences were most closely related to the lineage Russia I sequences obtained from common vole (M. arvalis) captured in the Tula region in Central Russia

Expression of the human granulocyte-macrophage colony stimulating factor (hGM-CSF) gene under control of the 5'-regulatory sequence of the goat alpha-S1-casein gene with and without a MAR element in transgenic mice.

Expression of the human granulocyte-macrophage colony-stimulating factor (hGM-CSF) gene under the control of the 5'-regulatory sequence of the goat alpha-S1-casein gene with and without a matrix attachment region (MAR) element from the Drosophila histone 1 gene was studied in four and eight transgenic mouse lines, respectively. Of the four transgenic lines carrying the transgene without MAR, three had correct tissues-specific expression of the hGM-CSF gene in the mammary gland only and no signs of cell mosaicism. The concentration of hGM-CSF in the milk of transgenic females varied from 1.9 to 14 µg/ml. One line presented hGM-CSF in the blood serum, indicating ectopic expression. The values of secretion of hGM-CSF in milk of 6 transgenic lines carrying the transgene with MAR varied from 0.05 to 0.7 µg/ml, and two of these did not express hGM-CSF. Three of the four examined animals from lines of this group showed ectopic expression of the hGM-CSF gene, as determined by RT-PCR and immunofluorescence analyses, as well as the presence of hGM-CSF in the blood serum. Mosaic expression of the hGM-CSF gene in mammary epithelial cells was specific to all examined transgenic mice carrying the transgene with MAR but was never observed in the transgenic mice without MAR. The mosaic expression was not dependent on transgene copy number. Thus, the expected "protective or enhancer effect" from the MAR element on the hGM-CSF gene expression was not observed.

[Apoptin enhances the oncolytic activity of vaccinia virus].

Chicken anemia virus gene encoding apoptin, a selective killer of cancer cells was synthesized and inserted into vaccinia virus (strain L-IVP) genome. The insertion has replaced major part of the viral C11R gene encoding viral growth factor (VGF), which is important for the virulence. The recombinant virus VVdGF-ApoS24/2 was obtained through the transient dominant selection technique with the use of puromycin resistance gene as the selective marker. The expression apoptin gene from a synthetic early-late promoter of vaccinia virus effectively provides accumulation of the protein in the cells infected with the VVdGF-ApoS24/2 virus. Despite the presence of virus growth factor signal peptide at apoptin N-terminal secretion of the recombinant protein into culture medium did not occur. The recombinant virus VVdGF-ApoS24/2 was found to have a significantly greater selective lyticactivity on human cancer cell lines (A549, A431, U87MG, RD and MCF7) as compared with the parent strain L-IVP and its variant VVdGF2/6 with the deletion of the C11R gene. The results suggest that the use of apoptin represents a promising approach for improving the natural anticancer activities of vaccinia virus.

[Oncolytic enteroviruses].

Increasing information concerning molecular biology of viruses and virus-cell interactions makes it possible to use viruses as a tool in effort to treat cancer diseases. As a rule, tumor cells are highly sensitive to viruses that may be used in cancer therapy. Therewith, applications of viral oncolysis in treatment of cancer diseases assume maximum possible safety of used viruses for patient and environment. Human enteroviruses are one of the most convenient sources to generate oncolytic viruses. Many of enteroviruses are non-pathogenic for humans or cause mild disease. Progress in genetic engineering permits to develop attenuated enterovirus variants with high safety and selectivity. This review focuses on the main members of Enterovirus genus, such as Coxsackieviruses, and vaccine strains as promising source for development of oncolytic agents, applicable for cancer therapy. It reviews data concerning recently developed and tested oncolytic variants of enteroviruses and discusses perspectives of their application in cancer therapy and problems, concerning their improvement and practical use.

[Oncolytic poxviruses].

The latest data on selection and construction of poxviruses capable of specifically lysing tumor cells of different genesis, inducing antitumor immunity and apoptosis of malignant cells are discussed. The review concerns several directions: virus attenuation, insertion of immunomodulatory protein genes, and anti-tumor protein genes. Thymidine kinase and viral growth factor genes make the greatest contribution to the virus attenuation as their inactivation results in the virus inability to replicate in non-dividing cells, thereby contributing to increased selectivity with respect to tumor cells. Among the immunomodulatory proteins, interleukins 2, 12, and granulocyte-macrophage colony-stimulating factor proved to be most promising for oncolytic virotherapy. An attempt to use p53 protein gene expressed by vaccinia virus for addressed apoptosis of tumor cells was reported. The use of the double and triple viral recombinants carrying genes of multidirectional action seems to be most promising. Encouraging results were obtained using vaccinia virus in the oncotherapy with prodrugs and angiogenesis inhibitors. At present, two poxviral strains are undergoing Phase III clinical trials as anti-tumor preparations in the USA.

[Entification of the Rubella virus genotype 1H in Western Siberia].

Molecular epidemiological study of novel strain of Rubella virus isolated during the outbreak in Western Siberia in 2004 was described. Detailed phylogenetic analysis performed based upon entire SP-region, which encodes all three Rubella structural proteins (C, E2, and E1), was implemented. This analysis provides characterization of this strain and classifies it as 1H genotype, thereby correcting previous classification of this strain based upon shorter nucleotide sequence, only encoding E1 protein. Therefore, this study identified the genotype of the Rubella virus not previously detected in Western Siberia (and even entire Russian Federation), which highlights the importance of more extensive characterization of genetic variability of the Rubella virus, especially with regard to potential influence of vaccination on the Rubella virus mutagenesis.

[Study of coding sequences of variable regions in smallpox virus genome].

Potential ORFs were sought in the extended segments of terminal variable regions in the variola virus genome. These ORFs underwent a detailed structural and functional analysis and were compared both between themselves and with homologous ORFs of various orthopoxviruses. The most conservative and heterogeneous ORFs of 70 VARV strains were detected. The unique for VARV ORF (111 a.a) was revealed for Helder and Mary strains of the Russian collection. In addition, only in the Helder strain, ORF D14L was disintegrated into two separate ORFs. A number of ambiguities were found in the current databases for VARV ORF. The dominating type of evolution was ascertained to be stabilizing selection for analyzed ORF. It has been established that VARV ORF C3L, unlike other poxviral orthologs, undergoes an adaptive selection. These findings suggest that this gene plays an important role in human VARV adaptation.

[Differentiation of geographic biovariants of smallpox virus by PCR].

Comparative analysis of amino acid and nucleotides sequences of ORFs located in extended segments of the terminal variable regions in variola virus genome detected a promising locus for viral genotyping according to the geographic origin. This is ORF O1L of VARV. The primers were calculated for synthesis of this ORF fragment by PCR, which makes it possible to distinguish South America-Western Africa genotype from other VARV strains. Subsequent RFLP analysis reliably differentiated Asian strains from African strains (except Western Africa isolates). This method has been tested using 16 VARV strains from various geographic regions. The developed approach is simple, fast and reliable.

[Comparative analysis of variable regions in the genomes of variola virus].

Nucleotide sequences of two extended segments of the terminal variable regions in variola virus genome were determined. The size of the left segment was 13.5 kbp and of the right, 10.5 kbp. Totally, over 540 kbp were sequenced for 22 variola virus strains. The conducted phylogenetic analysis and the data published earlier allowed us to find the interrelations between 70 variola virus isolates, the character of their clustering, and the degree of intergroup and intragroup variations of the clusters of variola virus strains. The most polymorphic loci of the genome segments studied were determined. It was demonstrated that that these loci are localized to either noncoding genome regions or to the regions of destroyed open reading frames, characteristic of the ancestor virus. These loci are promising for development of the strategy for genotyping variola virus strains. Analysis of recombination using various methods demonstrated that, with the only exception, no statistically significant recombinational events in the genomes of variola virus strains studied were detectable.

[Molecular evolution of poxviruses].

Previous restriction fragment length polymorphism analysis divided variola virus (VARV) strains into two subtypes, one of which included West African and South American isolates. This allowed a dating to be introduced for the first time in estimation of the VARV evolution rate. The results were used to analyze the molecular evolution of the total family Poxviridae. Comparisons of the known nucleotide sequences were performed for the extended conserved central genome region in 42 orthopoxvirus strains and for the eight genes of multisubunit RNA polymerase in 65 viruses belonging to various genera of the family Poxviridae. Using the Bayesian dating method, the mutation accumulation rate of poxviruses was estimated at (1.7-8.8) x 10(-6) nucleotide substitutions per site per year. Computations showed that the modem poxvirus genera started diverging from an ancestral virus more than 200 thousand years ago and that an ancestor of the genus Orthopoxvirus emerged 131 +/- 45 thousand years ago. The other genera of mammalian poxviruses with a low GC content diverged approximately 110-90 thousand years ago. The independent evolution of VARV started 3.4 +/- 0.8 thousand years ago. It was shown with the example of VARV and the monkeypox virus (MPXV) that divergent evolution of these orthopoxviruses started and the West African subtypes of VARV and MPXV were formed as geographical conditions changed to allow isolation of West African animals from other African regions.

[Immunogenic properties of recombinant vaccinia virus containing the human IL-2 gene].

A genetic construct of the human interleukin-2 (IL-2) gene within vaccinia virus (L-IVP strain) has been designed. The authors show the capacity of CV-1 cells infected with the recombinant vaccinia virus VV-SIL2 to secrete human IL-2 into the culture medium. Human IL-2 has been detected by immunoblotting. The sera from the animals immunized with the recombinant virus VV-SIL2 exhibited both human IL-2 and its antibodies throughout the observation period. This recombinant virus immunization induced both humoral and cell-mediated immune responses to human IL-2; the observed changes in the concentrations of cytokines are likely to suggest that the response predominantly followed a Th1 pathway. The study construct was nontoxic at the used concentrations and administration routes. The findings point that it is promising to investigate the adjuvant properties of the recombinant VV-SIL2 vaccine-based preparation for immunization in combination with various vaccines and to study this construct in therapy for cancer diseases.

[The time scale in poxvirus evolution].

Unlike vertebrates and RNA-containing viruses, the objective estimate of molecular clock for DNA-containing viruses was so far absent. An extended central conservative genomic region of orthopoxviruses (about 102 kbp) and the sequence of DNA polymerase gene (about 3 kbp) of the viruses belonging to various genera from the family Poxviridae were analyzed. During this analysis, the known dating of variola virus (VARV) transfer from West Africa to South America (XVI century) and our own data on close phylogenetic relations between the modem West African and South American VARV isolates were used. As a result of this work, it was calculated for the first time that the rate of mutation accumulation in these DNA-containing viruses amounted to 0.9-1.2 x 10(-6) substitutions per site per year. The poxviruses started separating from the ancestor virus to form the modem genera approximately 500 thousand years ago; the ancestor of the genus Orthopoxvirus separated about 300 thousand years ago; and its division into the modem studied species took place approximately 14 thousand years ago.

[Construction of DNA-fragments' libraries with complete genomes of different variola strains].

Libraries of hybrid plasmids carrying DNA fragments of complete genomes of 8 variola virus strain from the Russian Collection belonging to 2 epidemical types and isolated in various geographic regions of the world were obtained. Genomic sequences of variola virus can be thus preserved for a long time in a biologically safe form and provide the research work on studying the genetic organization of this unique virus and on developing modern methods for rapid detection of variola virus and other orthopoxviruses.