[Molecular-genetic characteristic of HIV-1 A and B subtypes variants isolated in Novosibirsk region].

AIM: Study phylogenetic interconnections of HIV-1 subtype A and B variants circulating in Novosibirsk region (NSR). MATERIALS AND METHODS: 268 HIV-1 variants isolated in 2007 - 2010 from blood samples of HIV infected patients in NSR, Samara, Congo and Moscow. HIV-1 variant genotyping was performed by analysis of 1.3 kb long pol gene nucleotide sequences. Phylogenetic analysis of nucleotide sequences was carried out by program Mega version 4.1 by constructing phylogenetic trees by nearest neighbor method. Nucleotide distances were calculated by Kimura method. RESULTS: The studied HIV-1 subtype B variants form separate phylogenetic groups with a low HIV-1 nucleotide sequence homology level combined based on territorial principle and/or time of HIV infection in a territory but not possessing interconnection with a specific population risk group. Subtype A HIV-1 is a fairly homogenous monophyletic group. Phylogenetic differences during studies of HIV-1 isolated from risk group patients - injection drugs users and individuals infected through sexual contacts were not detected. HIV variants isolated from patients infected in Moscow and Samara generally grouped with HIV variants circulating in the European part of Russia. CONCLUSION: An independent circulation of genetically separate HIV-1 subtype B groups is observed on the territory of siberian region which is a result of multiple independent introductions of distant variants of the virus. The confirmed limited spread of this HIV-1 genetic variant with a subsequent territorial separateness creates a possibility of formation of genetically different virus populations. The studies of subtype A viruses performed confirm the high level of homogeneity detected earlier in other Russia territories of HIV-1 belonging to this genetic variant. Monophyly of subtype A HIV variants is explained by imposition of 2 factors - territorial mobility of the population inside the country and lack of specific transmission routes for HIV-1 subtype A.

[Properties of CRF02_AG HIV-1 isolates circulating in Novosibirsk region].

AIM: Study of circulating 02_AG recombinant form HIV-1 isolates that have been rapidly spreading in Novosibirsk region during 3 recent years. MATERIALS AND METHODS: WHO protocol for primary HIV isolation was used, automatic sequencer was used for genetic characterization of isolates. Virus specific RNA were isolated and env HIV-1 region DNA fragments were processed. Phylogenetic analysis was also performed. RESULTS: CRF_02AG HIV-1 isolated from peripheral blood of HIV-1 positive patients belonged to CCR5 tropic viruses and had various reproduction characteristics. Most of the HIV isolated were rapidly replicating virus variants characterized by an ability to accumulate high levels of virus protein p24 in cultural fluid. Infectivity and reproductive properties of HIV isolates were confirmed in experimental infection by using clarified cultural liquid of mononuclear cells from healthy donors. Phylogenetic analysis of CRF02_AG HIV-1 variants isolated in Novosibirsk region in 2007 - 2010 showed the formation of a separate outbreak in the area caused by emergence of CRF02_AG HIV-1 in human population. CONCLUSION: A collection of genetically and biologically characterized CRF02_AG HIV-1 isolates that has not been spreading previously in Russia.

Consensus Integrase of a New HIV-1 Genetic Variant CRF63_02A1.

The high genetic variability of the human immunodeficiency virus (HIV-1) leads to a constant emergence of new genetic variants, including the recombinant virus CRF63_02A1, which is widespread in the Siberian Federal District of Russia. We studied HIV-1 CRF63_02A1 integrase (IN_CRF) catalyzing the incorporation of viral DNA into the genome of an infected cell. The consensus sequence was designed, recombinant integrase was obtained, and its DNA-binding and catalytic activities were characterized. The stability of the IN_CRF complex with the DNA substrate did not differ from the complex stability for subtype A and B integrases; however, the rate of complex formation was significantly higher. The rates and efficiencies of 3'-processing and strand transfer reactions catalyzed by IN_CRF were found to be higher, too. Apparently, all these distinctive features of IN_CRF may result from specific amino acid substitutions in its N-terminal domain, which plays an important role in enzyme multimerization and binding to the DNA substrate. It was also found that the drug resistance mutations Q148K/G140S and G118R/E138K significantly reduce the catalytic activity of IN_CRF and its sensitivity to the strand transfer inhibitor raltegravir. Reduction in sensitivity to raltegravir was found to be much stronger in the case of double-mutation Q148K/G140S.

Molecular mimicry of the inflammation modulatory proteins (IMPs) of poxviruses: evasion of the inflammatory response to preserve viral habitat.

Microorganisms encode numerous immunomodulators that resemble, in structure and function, molecules captured over the millennia from their hosts [G. J. Kotwal J. Leukoc. Biol. 62, 415-429]. The vaccinia virus complement control protein (VCP) was the first soluble microbial protein to have a postulated role in the immunomodulation and evasion of host defense [G. J. Kotwal and B. Moss Nature 355, 176-179]. Purified bioactive VCP has been shown to bind to C3 and C4, block the complement cascade at multiple sites [G. J. Kotwal et al. Science 250, 827-830; R. Mckenzie, G. J. Kotwal et al. J. Infect. Dis. 166, 1245-1250] and exhibit a greater potency than the human complement 4b binding protein, C4b-BP [G. J. Kotwal, Am. Biotech. Lab. 9, 76]. The importance of this protein to poxviruses was further demonstrated in rabbits and guinea pigs through the use of recombinant virus lacking an intact DNA coding for VCP [Isaacs, G. J. Kotwal, and B. Moss Proc. Natl. Acad. Sci. 89, 628-672]. Studies in mice have shown that the homolog of VCP in cowpox virus (CPV), referred to as the inflammation modulatory protein (IMP) can, in a mouse model, significantly diminish the specific footpad swelling response [C. G. Miller, S. N. Shchelkunov, and G. J. Kotwal Virol. 229, 126-133]. To determine the precise cellular changes at the site of infection, BALB/c mice were subcutaneously injected (in the backs) with CPV or a recombinant virus lacking IMP, CPV-IMP. Differences in histology were observed by staining the adjoining skin tissue sections with hematoxylin & eosin or by removal of the connective tissue and staining with May-Grunwald-Geimsa. All mice that were injected with the CPV-IMP experienced severe tissue destruction and formation of nodular lesions compared with the mice injected with CPV. Microscopic examination indicated significantly greater cellular infiltration and destruction of skeletal muscle cells in the sections of connective tissue and adjoining skin tissue, respectively, of the mice injected with the CPV-IMP [G. J. Kotwal et al. Mol. Cell. Biochem. in press]. Thus IMP preserves the tissue at the site of infection (viral habitat). In this review, we present evidence for molecular mimicry and evolutionary relationship to other homologs of IMP and discuss their relationships with other IMPs such as the poxviral chemokine and cytokine receptor-like proteins.

[Expression of genes for orthopoxviral TNF-binding proteins and study resulted recombinant proteins].

Genes for TNF-binding proteins (CrmBs) of variola virus (VARV), monkeypox virus (MPXV) or cowpox (CPXV) were isolated with PCR from viral genomes and expressed within baculovirus DNAs in Sf21 insect cell line. Properties of resulted recombinant proteins were studied with physical-chemical and immunological methods. It was shown with solid phase enzyme-linked immunoassay that viral proteins inhibited hTNF binding with polyclonal hTNF-antibodies. The strongest inhibitor was VARV-CrmB, the less one was MPXV-CrmB. Biological activity of recombinant protein preparations was studied in the test of neutralization of TNF cytotoxicity for L929 murine fibroblast cells. It was shown that recombinant CrmBs neutralized cytotoxicity of hTNF, mTNF or rTNF in species-specific manner. It was shown also that effectiveness of hTNF cytotoxicity inhibition in vitro with VARV-CrmB exceeded the same effect of polyclonal hTNF-antibody. A possibility of the elaboration of new therapeutics for anti-TNF therapy on the base of CrmB-like proteins is discussed.

[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.

Comparison of the genetic maps of variola and vaccinia viruses.

The complete genetic map of the variola major virus strain India-1967 is built basing on the sequence data. The suggested map is compared with the maps of the sequenced genomic regions of Copenhagen and Western Reserve strains of vaccinia virus and Harvey strain of variola major virus. The principle differences revealed in the genomic organization of these viruses are discussed.

Human monkeypox and smallpox viruses: genomic comparison.

Monkeypox virus (MPV) causes a human disease which resembles smallpox but with a lower person-to-person transmission rate. To determine the genetic relationship between the orthopoxviruses causing these two diseases, we sequenced the 197-kb genome of MPV isolated from a patient during a large human monkeypox outbreak in Zaire in 1996. The nucleotide sequence within the central region of the MPV genome, which encodes essential enzymes and structural proteins, was 96.3% identical with that of variola (smallpox) virus (VAR). In contrast, there were considerable differences between MPV and VAR in the regions encoding virulence and host-range factors near the ends of the genome. Our data indicate that MPV is not the direct ancestor of VAR and is unlikely to naturally acquire all properties of VAR.

Analysis of the nucleotide sequence of 23.8 kbp from the left terminus of the genome of variola major virus strain India-1967.

Sequencing and computer analysis of the nucleotide sequence of variola major virus strain India-1967 (VAR-IND) DNA segment (23 786 bp) covering the left variable region of the viral genome has been carried out. Twenty-nine potential open reading frames were identified. Structure-function organization of the VAR-IND DNA segment was compared with previously reported sequences from analogous genome regions of vaccinia virus strains Copenhagen (VAC-COP) and Western Reserve (VAC-WR). Multiple structural differences between the VAR-IND and genome regions were analysed and both VAC-COP and VAC-WR have been found. Possible molecular factors of virulence, virus host range genes as well as differences revealed in the structure of these genes of VAR and VAC will be discussed.

Analysis of the nucleotide sequence of 48 kbp of the variola major virus strain India-1967 located on the right terminus of the conservative genome region.

Computer analysis of a variola major virus (VAR) genomic fragment bounded by the open reading frames (ORFs) D1R and A33L, which is 47,961 bp long, revealed 46 potential ORFs. The VAR proteins were compared to the analogous proteins of vaccinia virus strain Copenhagen. The subunits of DNA-dependent RNA polymerase, as well as the transcription factors, mRNA-capping enzymes, and proteins necessary for the virion morphogenesis proved to be highly conservative within orthopoxviruses. The most pronounced differences between the VAR genome fragment under study and the corresponding vaccinia virus fragment were revealed in the vicinity of the gene encoding the A-type inclusion bodies protein. Possible functions of the analysed viral proteins are discussed.

Analysis of the nucleotide sequence of a 43 kbp segment of the genome of variola virus India-1967 strain.

Sequencing and computer analysis of the nucleotide sequence of the variola virus strain India-1967 (VAR) genome segment (43069 bp) from the region of HindIII C, E, R, Q, K, H DNA fragments has been carried out. Forty-three potential open reading frames (ORFs) have been identified, and the polypeptides encoded by them have been compared with the analogous proteins of vaccinia virus strain Copenhagen (COP). ORF E7R of VAR is much shorter than the COP analog. The other polypeptides coded by the potential ORFs of VAR are highly conserved in comparison with COP. Possible functions of the predicted viral polypeptides are discussed.

Analysis of the nucleotide sequence of 53 kbp from the right terminus of the genome of variola major virus strain India-1967.

Sequencing and computer analysis of a variola major virus strain India-1967 (VAR-IND) genome segment (53,018 bp) from the right terminal region has been carried out. Fifty-nine potential open reading frames (ORFs) of over 60 amino acid residues were identified. Structure-function organization of the VAR-IND DNA segment was compared with the previously reported sequences from the analogous genomic regions of vaccinia virus strains Copenhagen (VAC-COP) and Western Reserve (VAC-WR) and variola virus strain Harvey (VAR-HAR). Multiple differences between VAR-IND and the strains of VAC but the high identity of VAR-IND with VAR-HAR in the genetic maps are revealed. Possible functions of the predicted viral proteins and the effect of their differences on the features of orthopoxviruses are discussed.

Nucleotide sequence analysis of variola virus HindIII M, L, I genome fragments.

DNA of the variola major virus strain India-1967 in the region of HindIII M, L, I fragments has been sequenced. Analysis of this sequence of 18029 bp revealed 19 potential open reading frames (ORFs). Four proposed proteins (L2R, H9R, L5L, L6R) contain metal-binding domains. Comparison of the variola virus (VAR) and vaccinia virus strain Copenhagen (COP) sequences show that the main differences are between proteins L1R and I5R. L1R contains 6 additional amino acid residues on the C-terminus. The protein I5R of VAR contains three Ca2+ binding domains but this COP has deletions in 2 of the 3 established domains. Possible functions of the predicted viral polypeptides are discussed.

[Orthopoxvirus genes for Kelch-like proteins. I. Analysis of species specific differences by gene structure and organization]. / Izuchenie ortopoksvirusnykh genov, kodiruiushchikh kelch-podobnye belki. I. Analiz vidospetsifichnykh razlichii po strukturnoi organizatsii.

Genes and proteins of the kelch superfamily were structurally analyzed in the smallpox (SPV), monkeypox (MPV), cowpox (CPV), and vaccinia (VV) viruses. Genes potentially coding for the kelch-like proteins were found only in the variable terminal regions of the orthopoxvirus genome. The set and sizes of their protein products varied with species. All genes of the superfamily proved to be disrupted by mutations in SPV, which is highly pathogenic for its only host, man. The largest set of kelch-like proteins was observed for CPV, which is low-pathogenic for humans and has the broadest animal host range. The kelch-like proteins of one virus showed low homology to each other, whereas isologs of different viruses were highly homologous. The results testified to the earlier assumption that CPV is the most ancient and an ancestor of the other orthopoxviruses pathogenic for humans.

[Molecular-biological study of vaccinia virus genome. I. Cloning of vaccinia virus DNA fragments in bacterial vectors]. / Molekuliarno-biologicheskoe izuchenie genoma virusa ospovaktsiny. I. Klonirovanie fragmentov DNK virusa ospovaktsiny v sostave bakterial'nykh vektorov.

The HindIII DNA fragments of vaccinia virus strain L-IVP were cloned in pBR322 bacterial plasmid. A hybrid plasmids collection of pVHn series contains all fragments of virus genome except terminal HindIII-B and HindIII-G, and also a large HindIII-A. The latter was cloned in cosmid pHC79. The obtained collection of hybrid DNA molecules allows to carry out a wide range of molecular biological experiments on the vaccinia virus genome.

[Study of the structural-functional organization of the natural variola virus genome. I. Cloning HindIII- and XhoI-fragments of viral DNA and sequencing HindIII -M, -L, -I fragments]. / Izuchenie strukturno-funktsional'noi organizatsii genoma virusa natural'noi ospy. I. Klonirovanie HindIII- i XhoI-fragmentov virusnoi DNK i sekvenirovanie HindIII-M, -L, -I fragmentov.

HindIII and XhoI genome fragments of variola major virus strain India-1967 were inserted into the bacterial plasmids and cosmid. Sequencing and computer analysis of the region of HindIII M, L, and I DNA fragments of the virus studied have been carried out.

[Structure-activity organization of the variola virus genome. III. Sequencing and analysis of the nucleotide sequence of the conserved region of HindIII-F, -N-, and -A-fragments of the India 1967 strain genome]. / Izuchenie strukturno-funktsional'noi organizatsii genoma virusa natural'noi ospy. III. Sekvenirovanie i analiz posledovatel'nosti nukleotidov konservativnogo raiona HindIII-F-, -N-, i -A-fragmentov genoma shtamma Indiia-1967.

Computer analysis of variola major virus (VAR) genomic fragment bounded by open reading frames (ORFs) D1R and A33L which is 47,961 bp long revealed 46 potential ORFs. The VAR proteins were compared with the analogous proteins of vaccinia virus strain Copenhagen. The subunits of DNA-dependent RNA polymerase, as well as the transcription factors, mRNA capping enzymes, and proteins necessary for the virion morphogenesis proved to be highly conservative within orthopoxviruses. The most pronounced differences between the VAR genome fragment under study and the corresponding vaccinia virus fragment were revealed in the vicinity of the gene encoding the A-type inclusion body protein. The possible functions of the analyzed viral proteins are discussed.

[Study of the structure-function organization of the variola virus genome. IV. Sequencing and analysis of the nucleotide sequence of the right terminus of the India-1967 strain genome]. / Izuchenie strukturno-funktsional'noi organizatsii genoma virusa natural'noi ospy. IV. Sekvenirovanie i analiz posledovatel'nosti nukleotidov pravogo kontsa genoma shtamma Indiia-1967.

Sequencing and computer analysis of the variola major virus strain India-1967 (VAR-IND) genome segment (53,018 bp) from the right terminal region have been carried out. Fifty nine potential open reading frames (ORFs) of over 60 amino acid residues have been identified. Structure-function organization of VAR-IND DNA segment under study was compared with the previously reported sequences from the analogous genomic regions of vaccinia virus strains Copenhagen (VAC-COP) and Western Reserve (VAC-WR) and variola virus strain Harvey (VAR-HAR). Multiple distinctions in the genetic map of VAR-IND from VAC-COP and VAC-WR have been revealed along with the high similarity to the corresponding VAR-HAR segment. Possible functions of the predicted viral proteins and the effect of their differences on the features of orthopoxviruses are discussed.

[Study of the structure-activity organization of the variola virus genome. II. Analysis of the nucleotide sequence of the HindIII region (C,E,R,Q,K and H)-DNA fragments of the India-1967 strain]. / Izuchenie strukturno-funktsional'noi organizatsii genoma virusa natural'noi ospy. II. Analiz posledovatel'nosti nukleotidov raiona HindIII (C,E,R,Q,K i H)-fragmentov DNK shtamma india-1967.

Sequencing of variola virus (VAR) genome region of 43069 bp was carried out. This area contains 42 potential genes. Computer analysis of proteins coding for these viral genes was done. We compared VAR proteins with the those of vaccinia virus. The region studied is conservative for orthopoxviruses.

[New recombinant variant of human immunodeficiency virus of type 1, subtype envB/envA, isolated in Novosibirsk]. / Novyi rekombinantnyi variant subtipa envB/envA VICH-1, vydelennyi v Novosibirske.

The nucleotide sequence of the variant of human immunodeficiency virus of type 1 (HIV-1), mostly widespread on the territory of the Novosibirsk region, was determined. The analysis of the nucleotide sequence confirmed that this variant belonged to HIV-1 of subtype A. The HIV-1 recombinant variant of subtype envB/envA with the recombination area within the second conservative region C2 of gene env, so far unknown, was detected and characterized. In HIV-1 the area at the beginning of gene env (5'-env) was found to belong to subtype B and the sequence at the end of gene env (3'-env), to subtype A. The analysis of the amino acid sequence of the third variable region of gene env demonstrated that the viruses under study belonged to macrophagotropic "slow/low" variants, characterized by low replication speed. The analysis of nucleotide sequences of the isolated variants of HIV-1 revealed their close genetic relationship with HIV-1 isolates circulating on the territory of Ukraine.