[Production of the monoclonal antibodies to the rabies virus nucleoprotein].

Five hybridomas secreting monoclonal antibodies (MAbs) for the nucleocapsid protein of the rabies virus were obtained through the fusion of the SP2/0 murine myeloma cells with splenocytes of BALB/c mice immunized with fixed rabies virus (CVS strain). All hybridomas secret MAbs of the IgG class that display different specificity to the nucleocapsids of rabies and rabies-related viruses. MAbs 2ell showed the specificity for the prevalent in Russia rabies viruses that are similar to commercially available anti-rabies conjugate.

[African swine fever in Russian Federation].

African swine fever (ASF) is an infectious viral disease that causes high economic losses due to the necessity of depopulation of pigs in affected areas, sanitary measures, trade restrictions, etc. The virus (ASFV) is relatively stable in the unprocessed meat products and environment. Thus, large areas are at risk due to free movement of people and products. The ASFV does not affect people and animals, except the wild and domestic pigs. Some ticks can become infected and carry the virus for years. Adaptation of the virus by changing into the less virulent form would mean the threat of an endemic situation to the area. The disease is endemic in domestic and wild pigs in most of sub-Saharan Africa and Sardinia, Italy. There is no treatment for ASF, and no vaccine has been developed. In case of infection with less virulent ASFV strains, the recovered pigs could spread the virus as long as their live. In terms of clinical symptoms, ASF is very similar to Classical Swine Fever. The methods of laboratory diagnostics are well developed and efficient for identification of ASFV and virus-specific antibodies. Experience of eradication of ASF in Spain suggests the importance of serological monitoring of pigs. In the spring of 2007, the ASF was detected in the Caucasus region. Same virus was detected in Georgia, Armenia, Azerbaijan, and Russia. The ASFV circulating in the Caucasus and the Russian Federation is a highly virulent virus. No reduction of the virulence was observed since the first outbreak in Georgia. In the last years, the ASF remained in the Caucasus, southern parts of Russia and appeared occasionally as far as St. Petersburg and St. Petersburg region, and in the area of Nizhny Novgorod. Domestic pigs play an important role in the ASFV spread; they transfer the virus to the wild boars. The virus circulates in the population of wild boars depending on their density in the area. Occasionally, the disease is spread from wild to domestic pigs. There is no evidence of ticks being involved in the process. Thus, the human activity in raising pigs is largely responsible for continuous spread of the disease. Despite vigorous monitoring and sanitary measures, the disease has not been stopped. The control strategy for ASF should consider International (especially Spanish) experience and local situation. The strategy is based on the number of important steps including rapid localization of the disease by trained specialists, setting up buffer zones, constant serologic monitoring of swine population and farms, improvement of diagnostic facilities, training of veterinary personnel, development of the system of information and international collaboration.

[Molecular-genetic analysis of the field isolates of avian leucosis viruses in the Russian Federation].

Results of monitoring of different subtypes of avian leukosis virus (ALV) from commercial poultry farms in 14 regions of Russian Federation were discussed. Only three regions were found to be negative. ALV was detected in other 11 regions in 46-64% cases (for different regions). The phylogenetic analysis of the genomes for the 12 field isolates of ALV was carried out in different regions of Russian Federation. The isolates belong to different subtypes of the virus and form two large groups. The genomic differences between Russian and foreign isolates within each group range from 5% to 10%.

[Molecular genetic analysis of Tahyna virus strains].

The partial nucleotide sequence of S and M genome segments was identified in 13 little studied Tahyna virus (Bunyaviriridae, Bunyavirus, California encephalitis serogroup) strains isolated in Czechoslovakia, Finland, Armenia, Azerbaijan, Kazakhstan, and Tajikistan. A phylogenetic analysis indicated that the examined strains form two groups with a geographical connection: European and Asian genetic groups.

[High-yield reassortant virus containing hemagglutinin and neuraminidase genes of pandemic influenza A/Moscowl/01/2009 (H1N1) virus].

The crossing of influenza A/Moscow/01/2009 (H1N1) virus and reassortant strain X31 (H3N2) containing the genes of internal and non-structural proteins of A/Puerto Rico/8/34 (H1N1) strain gave rise to reassortant virus ReM8. The reassortant contained hemagglutinin (HA) and neuraminidase (NA) genes of pandemic 2009 influenza virus and 6 genes of high-yield A/Puerto Rico/8/34 (H1N1) strain. The reassortant ReM8 produced higher yields in the embryonated chicken eggs than the parent pandemic virus, as suggested by infectivity and HA activity titration as well as by ELISA and the measurement of HA protein content by scanning electrophoresis in polyacrylamide gel slabs. High immunogenicity of ReM8 reassortant was demonstrated by immune protection studies in mice. The reassortant virus ReM8 is suitable as a candidate strain for the production of inactivated and subunit influenza vaccines.

[Molecular diagnostics of influenza].

The review is concerned with molecular diagnostic tools for influenza A viruses. Test systems based on PCR, real-time PCR, IEA, sequenation, and microchip-based methods are discussed as applied at this Institute for comprehensive monitoring influenza A viruses.

[DNA immunization with a plasmid containing gene of hepatitis C virus protein 5A (NS5A) induces the effective cellular immune response].

In spite of extensive research, no effective vaccine against hepatitis C virus (HCV) has been developed so far. DNA immunization is a potent technique of vaccine design strongly promoting the cellular arm of immune response. The genes encoding nonstructural HCV proteins (NS2-NS5B) are promising candidates for vaccine development. NS5A is a protein involved in viral pathogenesis, in the induction of immune response, and probably in viral resistance to interferon treatment. The objective of this study was to construct a DNA vaccine encoding NS5A protein and evaluate its immunogenicity. A plasmid encoding a full-size NS5A protein was produced using the pcDNA3.1 (+) vector for eukaryotic expression system. The expression of the NS5A gene was confirmed by immunoperoxidase staining of the transfected eukaryotic cells with anti-NS5A monoclonal antibodies. Triple immunization of mice with the plasmid vaccine induced a pronounced cellular immune response against abroad spectrum of NSSA epitopes as assessed by T-cell proliferation andsecretion of antiviral cytokines IFN-gamma and IL-2. In in vitro T-cell stimulation experiments, NS5A-derived antigens were modeled by synthetic peptides, recombinant proteins of various genotypes, and phages carrying exposed NS5A peptides. A novel immunomodulator Immunomax showed high adjuvant activity in DNA immunization. The data obtained indicate that the suggested DNA construct has a strong potential in the development of the gene vaccines against hepatitis C.

[Isolation of noncytopathogenic genotype 2 bovine viral diarrhea virus from the cattle mucosa in the Russian Federation].

The paper presents the results of genotyping and phylogenetic analysis of three noncytopathogenic isolates of bovine viral diarrhea virus from the mucosae of the cattle with different clinical presentations of the disease. On the basis of the phylogenetic analysis of high-conserved and variable virus genome regions (5'-UTR, N(pro), and E2), the authors referred two isolates to as genotype 1, subgenotypes 1b and 1d, and the third isolate to as genotype 2. This is the first communication about the isolation of genotype 2 virus in Russia.

[Epitope mapping of antigenic determinants of E2 glycoprotein from classical swine fever virus using synthetic peptides].

Epitope mapping of the major envelope glycoprotein E2 of classical swine fever virus (CSFV) is important for our understanding of E2 and also for development of the CSFV-specific diagnostic assays and epitope- or peptide-based marker vaccines. Previous competitive binding studies showed that monoclonal antibodies raised against E2 protein of CSFV detected 8 individual epitopes. At the present study using a set of synthetic peptides covering the full sequences of E2 glycoprotein five linear non-overlap B-cells epitopes were identified. The identified sequences of 12 strains of the CSFV and 5 other pestiviruses were aligned. The data obtained could be useful for improvement of the CSFV diagnostic systems and studies of amino acid substitutions and their influence on antigenic properties of the CSFV E2 protein.

[Structural and functional specificity of the Dichelobacter nodosus pili. Synthesis of the protein pilin of D. nodosus in various bacterial recombinant strains].

The ovine foot rot is a severe infectious disease of sheep. Dichelobacter nodosus is an essential pathogen of this disease. An obligatory anaerobic gram-negative rod-shaped microorganism has slow rate of accumulating bacterial density and fastidious growth requirements. This causes obstacles to vaccine production and makes it difficult to diagnose the disease. The diagnosis in this case is more expensive. Fimbriae (or pili) are one of the major factors of virulence of D. nodosus. Their antigenic and immunogenic properties make them good vaccine components for elevated immunogenicity. Since the nucleotide sequence of the fimA gene encoding fimbrial subunit was determined, attempts to produce recombinant pili were undertaken. The production of the genetic-engineering fimbriae would allow the price of the vaccines to be reduced and their manufacture to be simplified. The vaccine immunogenicity is increased in this case. At first, E. coli was selected as an expression system, but morphogenetic expression of the pili was not achieved on its surface because of some differences in the biogenesis and structure of fimbriae from D. nodosus. Successful morphogenesis of the pili was achieved in Pseudomonas aeruoginosa, which had closest similarity in the structure of pili. The level of the immunity obtained after immunization of the sheep with recombinant pili was similar to the level of the immunity after native pili or whole cells of D. nodosus had been used. This review contains information regarding the recombinant strains of Pseudomonas aeruoginosa obtained using fimbriae of D. nodosus and expression of pilin genes in different bacterial systems.

[Preparation and characteristics of monoclonal antibodies to protein E2 (GP55) of classical hog cholera virus].

Twenty-eight hybridomas producing monoclonal antibodies (MAbs) to proteins of classical swine virus (CSFV) were obtained by fusion of AS2/0 murine myeloma cells with splenocytes of BALB/c mice. The recombinant E2 glycoprotein of CSFV and the gradient-purified CSFV strain Shimen were used as an antigen for immunization. Twenty-four hybridomas produced MAbs of class IgG and four hybridomas did MAbs of class IgM. All MAbs were specific for E2 protein of CSFV. Competitive enzyme immunoassay showed that MAbs detected 8 epitopes on protein E2.

[The first break-through of the genotype 2.3.2 of high-virulence influenza A virus A/HSN1, which is new for Russia, in the Far East].

The epizootic etiologically associated with highly pathogenic avian influenza H5N1 genotype 2.3.2 that is new for Russia among wild and domestic birds in the south of the Primorye Territory during spring migration in April 2008 has been decoded. About 25% of the wild birds of a water complex, which include European teals (Anas crecca), mallard ducks (Anas platyrhynchos), great-crested grebes (Podiceps cristatus), are involved in viral circulation in the area of the Suifun-Khankai plain. Chicken embryos and the cell lines MDCK, SPEV, BHK-21, SW-13 were used to isolate 3 strains from recently deceased hens (A/chicken/Primorje/1/08, A/chicken/Primorje/11/08, and A/chicken/Primorje/12/08) and one strain from a European teal (A/Anas crecca/Primorje/8/08). The strains were deposited in the State Collection of Viruses of the Russian Federation, D. I. Ivanovsky Research Institute of Virology, Russian Academy of Medical Sciences. The nucleotide sequences of the full-sized genomes of A/chicken/Primorje/1/08 and A/Anas crecca/Primorje/8/08 were sent to the International databank GenBank. The strains from domestic and wild birds were shown to be identical. The isolated strains are most close to the strains Alchicken/Viet Nam/10/05, A/chicken/Guangdong/178/04, and A/duck/Viet Nam/12/05. Molecular genetic analysis has indicated that the strains isolated are susceptible to rimantadine and ozeltamivir and less adapted to mammalian cells (particularly, they contain E627 in RV2, which agrees with the biological properties of these strains in vitro). Penetration of the newly isolated virus into the Far East ecosystem provides in the foreseeable future a way for infecting the birds wintering in America and Australia in the nesting places, with further carriage of viral populations there in the period of autumn migrations.

[Interpretation of the epizootic outbreak among wild and domestic birds in the south of the European part of Russia in December 2007].

The paper presents the results of interpreting the epizootic outbreak etiologically associated with high-virulent influenza virus A/H5N1 among domestic and wild birds in the Zernogradsky and Tselinsky districts of the Rostov Region. Epizooty was characterized by a high infection rate in the synanthropic birds of a ground-based complex. RT-PCT revealed influenza virus A/H5 in 60% of pigeons and crows and in around 20% of starlings, and in 10% of tree sparrows. Fifteen viral strains from chickens (Gallus gallus domesticus), Indian ducks (Cairina moschata), rooks (Corvus frugilegus), rock pigeons (Columba livia), tree sparrows (Passer montanus), common starlings (Sturnus vulgaris), and great white herons (Egretta alba) were isolated and deposited in the State Collection of Viruses of the Russian Federation. Full-sized genomes of 5 strains were sequenced and deposited in the international database GenBank. The isolated strains belong to the Quinhai-Siberian (2.2) genotype, an Iranian-Northern Caucasian subgroup, they are phylogenetically closest to the strain A/chicken/Moscow/2/2007 (inducing epizooty among poultry in the near-Moscow Region in February 2007) and have 13 unique amino acid replacements as the consensus of the Quinhai-Siberian genotypes in the proteins PB2, PA, HA, NP, NA, and M2, by preserving thereby 4 unique replacements first describes for the strain A/chicken/Moscow/2/2007. The findings are indicative of a different mechanism that is responsible for bringing the virus into the northeastern part of the Azov Sea area in September 2007 (during the fall migration of wild birds) and in December 2007 in the south-western Rostov Region where a human factor cannot be excluded. Mass infection of synanthropic birds endangers the further spread of epizooty, including that in the central regions of the Russian Federation in spring after near migrants return after wintering.

[Isolation of influenza virus A (Orthomyxoviridae, Influenza A virus), Dhori virus (Orthomyxoviridae, Thogotovirus), and Newcastle's disease virus (Paromyxoviridae, Avulavirus) on the Malyi Zhemchuzhnyi Island in the north-western area of the Caspian Sea].

The paper presents the results of the 2003 and 2006 environmental virological monitoring surveys on the Malyi Zhemchuzhnyi Island where a large breeding colony of sea gull (Laridae) is located. In the past several years, expansion of cormorants (Phalacrocorax carbo) has enhanced the intensity of populational interactions. The investigators isolated 13 strains of influenza A virus (Orthomyxoviridae, Influenza A virus) subtype H13N1 (from sea gulls (n = 4), cormorants (n = 9) 1 strain of Dhori virus (Orthomyxoviridae, Thogotovirus) from a cormorantwith clinical symptoms of the disease, 3 strains of Newcastle disease virus (Paramyxoviridae, Avulavirus) from cormorants. RT-PCR revealed influenza A virus subtype H5 in 3.1% of the cloacal lavages from cormorants. Neutralization test indicated that sera from cormorants contained specific antibodies against West Nile (Flaviviridae, Flavivirus) (15.0%), Sindbis (Togaviridae, Alphavirus) (5.0%), Dhori (10.0%), and Tahini (Bunyaviridae, Orthobunyavirus) (5.0%); sera from herring gulls had antibodies against Dhori virus (16.7%); there were no specific antibodies to Inco (Bunyaviridae, Orthobunyavirus) and mountain hare (Lepus timidus) (Bunyaviridae, Orthobunyavirus) virus.

[Epizooty caused by high-virulent influenza virus A/H5N1 of genotype 2.2 (Qinghai-Siberian) among wild and domestic birds on the paths of fall migrations to the north-western part of the Azov Sea basin (Krasnodar Territory)].

Isolation, followed by the sequencing the full-size genome of strains of A/chicken/Krasnodarl300/07 and A/Cygnus cygnus/Krasnodar/329/07, has shown that they belong to genotype 2.2 (Qinghai-Siberian). The strains were deposited at the State Virus Collection of the Russian Federation and nucleotide consequences were at the International databank GenBank. The strains contained 10 unique amino acid replacements in reference to the consensus of the Qinghai-Siberian genotype in the PB2, PA, HA, NA, and NS1, which suggests that regional variants may form in different parts of an area.

[Infection of pigs with influenza A/H4 and A/H5 viruses isolated from wild birds on the territory of Russia].

Pigs were intranasally infected with avian influenza A/H5 (H5N1, H5N3) and A/H4 (H4N6, H4N8) viruses in mono- and coinfection. Infection with both apathogenic and pathogenic strains caused no clinical manifestations. A virus and/or fragments of its genome retained in nasopharyngeal fluid as long as 6-8 days after infection. During monoinfection, the structure of the hemagglutinin (HA) receptor site of isolates from the pigs infected with A/H5N1 strains (A/chicken/Kurgan/3/2005, A/duck/Russia/5354-vac/2005) and A/H5N3 (A/duck/Primorje/2633/01) remained unchanged during 6-7 days. When two animals infected with avirulent A/H5N3 viruses (A/duck/Primorje/2633/01, A/duck/Altai/1285/91) that differed in immunogenic properties were kept together, the A/duck/Altai/1285/91 virus that induced a later IgG generation was prevalent in the nasopharyngeal fluid of both animals. Moreover, 4 significant nucleotide replacements were detected in the HA gene on days 7-8. Infection of pigs with avian influenza A/H4 viruses yielded the similar results. The joint keeping of animals infected with Algarganey teal/Astrakhan/309/102 (H4N8) strain and A/ musk beaver/Buryatia/944/00 (H4N6) isolated from musk beaver exhibited fragments of "a variant" of the identical structure in the nasal swabs of both animals on days 7-8. A nucleotide sequence from 37 nucleotide replacements differing from both baseline sequences was revealed in the HA 364-1045 gene region. The amino acid sequence of the variant was similar to Algarganey teal/Astrakhan/3091/02, other than one position 264 < Lys > (numeration by H3), which coincided with the A/ musk beaver/Buryatia/1944/00 strain. The latter induced the antibody generation on day 5 after infection while the A/garganey teal/Astrakhan/3091/02 strain did only on day 14. It is possible that under co-circulation of two different influenza A viruses, the virus causing a slower development of an immune response showed a higher probability of transiting to another host (specimen) and changing the HA receptor site in the organism of a new host.

[Molecular genetic characteristics of the strain A/chicken/Moscow/2/2007 (H5N1) strain from a epizootic focus of highly pathogenic influenza A among agricultural birds in the neear-Moscow region (February 2007)].

Among agricultural birds in the near-Moscow Region (February 2007), local epizootics caused by the highly pathogenic avian influenza A/H5N1 virus seem to be of unintended manual origin. Such a situation may be considered to be model when the source of inoculation is elucidated in cases of potentially possible acts of bioterrorism. Molecular genetic analysis of isolated A/chicken/Moscow/2/2007 strain established its genetic similarity with the highly pathogenic strains detected in the Black-and-Caspian Sea region in 2006. At the same time, comparison of nucleotide sequences of the strain A/chicken/Moscow/2/2007 with the strains of Qinghai-Siberian genotype (CSG) for which the sequences of full-sized genomes are known in the international databases revealed a significant distinction of the near-Moscow strain from the earlier known analogues. The uniqueness of the primary structure of the PB1 gene is shown. The paper discusses the functional value of amino acid substitutions in the proteins of the strain A/chicken/Moscow/2/2007 and in other variants of CSG of the subtype H5N1.

[Development of polymerase chain reaction-based test systems for influenza A virus isolation and typing].

Influenza viruses are spread worldwide and cause the disease in birds and mammals, including human beings. Moreover, birds are the natural reservoir of influenza A viruses. Early detection of newly emerging influenza viruses requires permanent monitoring. Traditional viral shedding methods using cell cultures and chicken embryos are time-consuming and laborious analysis when a large number of samples are examined. The paper describes the use of polymerase chain reaction-based test systems to detect influenza A virus and to differentiate its two subtypes: H5 and H7. The developed test systems were evaluated on 19 reference influenza A virus strains. Thereafter, more than 1500 samples from wild and domestic birds, collected in the Russian Federation in 2004-2006, were studied. The data of these test systems were compared with the techniques of viral shedding in the cell cultures and chicken embryos.

[Enzyme immunoassay for detection of porcine circovirus type 2, by using the recombinant capsid protein ORF-2].

Recombinant antigen ORF2 from porcine circovirus type 2 (PCV-2) was produced, by using the baculovirus expression system, with histidine tags to allow purification by metal-chelate affinity chromatography. The purity of the protein was verified by polyacrylamide gel electrophoresis; and its immunospecificity was confirmed by the immunoblotting test using reference PCV-2-positive and PCV-2-negative porcine sera and monoclonal antibodies. The protein was used as an antigen to develop an indirect enzyme immunoassay (EIA) of PCV-2 antibodies. EIA was shown to have a high sensitivity and specificity as compared with indirect immunofluorescence test. Porcine serum samples from 15 pig-breeding farms of the Russian Federation were studied. Seropositive samples were found in all age pig groups in all the farms, The number of seropositive animals was shown to be directly related to its age.

[Highly pathogenic influenza A/H5N1 virus-caused epizooty among mute swans (Cygnus olor) in the lower estuary of the Volga River (November 2005)].

Molecular virological studies of the field material collected in the epicenter of epizooty with high mortality among mute swans (Cygnus olor) in the area of the lower estuary of the Volga River (November 2005) could establish the etiological role of highly pathogenic influenza A (HPAI) virus of the subtype H5N1. Ten HPAI/H5N1 strains deposited at the State Collection of Viruses of the Russian Federation with the priority dated December 1, 2005 were isolated from the cloacal/tracheal swabs and viscera of sick and freshly died mute swans. Complete nucleotide sequences of all fragments of the genome of 6 strains have been deposited in the Gene Bank. The paper discusses the molecular genetic characteristics of isolated strains.