The role of HCV e2 protein glycosylation in functioning of virus envelope proteins in insect and Mammalian cells.

The hepatitis C virus (HCV) envelope proteins E1 and E2, being virion components, are involved in the formation of infectious particles in infected cells. The detailed structure of the infectious particle of HCV remains poorly understood. Moreover, the virion assembly and release of virions by the cell are the least understood processes. It is believed that virion properties depend on glycosylation of the virus envelope proteins in a cell, while glycansat several glycosylation sites of these proteins play a pivotal role in protein functioning and the HCV life cycle. N-glycans of glycoproteins can influence viral particle formation, virus binding to cell surface, and HCV pathogenesis. We studied the effect of glycans on the folding ofthe E2 glycoprotein, formation of functional glycoprotein complexes and virus particles in insect and mammalian cells. In order to investigate these processes, point mutations of the N-glycosylation sites of HCV protein E2 (genotype 1b strain 274933RU) were generated and the mutant proteins were further analyzed in the baculovirus expression system. Elimination of the single glycosylation sites of the E2 glycoprotein, except for the N6 site, did not affect its synthesis efficiency in Sf9 insect cells, while the electrophoretic mobility of mutant proteins increased in proportion to the decrease in the number of glycosylation sites. The level of synthesis of HCV glycoprotein E2 in human HEK293T cells depended on the presence of glycans at the N1 and N8 glycosylation sites in contrast to Sf9 cells. At the same time, elimination of glycans at the N1, N2, and N10 sites led to the accumulation of unproductive E1E2 dimers as aggregates and productive assembly suppression of virus-like particles both in insect and mammalian cells. In addition, elimination of single glycosylation sites of HCV E2 had no impact on the RNA synthesis of structural proteins and formation of virus-like particles in insect and mammalian cells.

[Functional characterization of two novel splicing mutations in glucokinase gene in monogenic diabetes MODY2].

Two novel mutations in glucokinase (GCK) gene-G to C substitution at -1 position of intron 7 acceptor splice site (c. 864-1G>C) and synonymous substitution c. 666C>G (GTC>GTG, p.V222V) in exon 6--were identified in patients with monogenic diabetes MODY2 (Maturity Onset Diabetes of Young). GCK minigenes with these mutations were constructed. Analysis of splicing products upon transfection of minigenes into human embryonic cell line HEK293 has shown that each of these nucleotide substitutions impair normal splicing. Mutation c.864-1G>C blocks the usage of normal acceptor site which activates cryptic acceptor splice sites within intron 7 and generates aberrant RNAs containing the portions ofintron 7. Synonymous substitution c.666C>G creates novel donor splice site in exon 6 that leads to formation of defective GCK mRNA with deletion of 16 nucleotides of exon 6. Analysis of in vitro splicing of minigenes confirms the inactivating action of novel mutations on glucokinase expression.

[Universal modular system for in vitro screening of potential inhibitors of HIV-1 replication].

Here we describe a system based on recombinant lentiviral vectors for the safe screening of potential anti-HIV drugs. The system allows to evaluate the sensitivity of HIVl-1 reverse transcriptase and integrase (wild-type as well as mutant forms of these enzymes detected in drug-resistant virus isolates) towards different drugs and substances, but also to screen inhibitors of other stages of HIV-1 life cycle.

[Expression of FLT3-ITD oncogene confers mice progenitor B-cells BAF3 sensitivity to the ribonuclease binase cytotoxic action].

Acute myeloid leukemia is the most common acute leukemia affecting adults, and its incidence increases with age. Along with chromosomal translocations in leukemic cells mutations in the genes of receptor tyrosine kinases KIT and FLT3 were found with a high frequency. Here we show that transgenic progenitor of B-cells BAF3/FLT3-ITD are much more sensitive to the ribonuclease binase cytotoxic effects than the original BAF3 cells. The principal difference between BAF3/FLT3-ITD and the original BAF3 cells is the expression of FLT3-ITD oncogene, which leads to a change in the normal cell signaling pathways. Earlier, we described a similar effect for the cytotoxic action of binase on Kasumi-1 and FDC-P1-N822K cells, which express the activated KIT-N822K oncogene. Increased binase cytotoxicity toward the cells, expressing FLT3-ITD oncogene, suggests that, as in the case of FDC-P1 cells, transduced by KIT oncogene, the expression of an activated oncogene determines the sensitivity of cells to binase.

[Role of N-linked glycans in HCV glycoprotein E1 in the folding of structural proteins and formation viral particles].

Envelope proteins of HCV play a major role in virus lifecycle. These proteins are main components of the virion. They are involved in virus assembly. Envelope proteins are modified by N-linked glycosylation which is supposed to play a role in their stability, in the assembly of the functional HCV glycoprotein heterodimer, protein folding and viral entry. The role of N-linked glycosylation sites in HCV E1 protein in structural proteins assembly was analyzed by site-directed mutagenesis in a model system--insect cells producing three viral structural proteins with formation of virus-like particles. Removing of single N-linked glycosylation sites in HCV E1 protein does not affect the efficiency of its expression in insect Sf9 cells. E1 electrophoretic mobility is increasing in parallel with decreasing the number of glycosylation sites. The destroying of glycosylation sites N1 or N5 in E1 influences the assembly of noncovalent glycoprotein heterodimer E1E2--the prototype of natural complex incorporated in virion. The lack of glycans in N1 and N5 sites of E1 was shown to affect the efficiency of its expression in mammalian HEK293 T cells.

[Dynamics of penetration of "solid" nanoconstructions based on double-stranded DNA complexed with gadolinium into CHO cells].

Currently, neutron capture therapy is a promising cancer treatment. This method is based on the reaction of the thermal neutron capture by some non-radioactive elements (e.g., Gds57), which results in subsequent emission of electrons and gamma rays. An effective instrument for delivery of gadolinium into the tumor tissue are the particles of the "rigid" nanostructures (NS) based on double-stranded DNA complexes with gadolinium (NS-Gd). The local concentration of Gd in such nanostructures may reach 40%. To optimize the process of neutron capture therapy it is very important to investigate possible penetration mechanisms of NS-Gd particles into the tumor cells. In this work, the dynamics of interaction NS-Gd with cultivated chinese hamster ovary cells (CHO) was studied by confocal and electron microscopy. It is shown that NS-Gd are able to enter CHO cells. This process begins in about 1 hour after the start ofincubation. After 6 h NS-Gd particles were detected in almost all cells. A further increase of the incubation time does not lead to significant changes in cell morphology, although the number NS-Gd inside the cells increases. The plasma membrane of the cells remains intact. The NS-Gd particles, which entered the cells, remain inside the cells for a long time. The data obtained show that NS-Gd are relatively low-toxic and suggest that the presence of NS-Gd in the tumor cells does not prevent their division. The data obtained are important for improving the efficiency of the neutron capture therapy method.

[Replication-competent γ-retrovirus Mo-MuLV expressing green fluorescent protein gene as an efficient tool for screening of inhibitors of retroviruses that use heparan sulfate as the primary cell receptor].

The effect of sulfated polysaccharides on the efficiency of infection of mouse embryonic fibroblast cell lines SC-1 and NIH-3T3 by replication-competent recombinant Moloney murine leukemia virus (Mo-MuLV) carrying the eGFP gene was investigated. It was shown that used polysaccharides have no cytostatic and cytotoxic effects on SC-1 and NIH 3T3 cells inthe concentrations from 0.01 to 100 µg/ml and have virucidal activity against Mo-MuLV. Polysaccharides in the indicated concentrations inhibit cell infection by Mo-MuLV, that prevents further expansion of viral infection. It was detected that sulfated polysaccharides are effective inhibitors of other retroviruses, including lentiviruses, that use heparan sulfate as cell receptors for non-specific binding.

[Novel bidirectional promoter from human genome].

In human and other mammalian genomes a number of closely linked gene pairs transcribed in opposite directions are found. According to bioinformatic analysis up to 10% of human genes are arranged in this way. In present work the fragment of human genome was cloned that separates genes localized at 2p13.1 and oriented "head-to-head", coding for hypothetical proteins with unknown functions--CCDC (Coiled Coil Domain Containing) 142 and TTC (TetraTricopeptide repeat Containing) 31. Intergenic CCDC142-TTC31 region overlaps with CpG-island and contains a number of potential binding sites for transcription factors. This fragment functions as bidirectional promoter in the system ofluciferase reporter gene expression upon transfection of human embryonic kidney (HEK293) cells. The vectors containing genes of two fluorescent proteins--green (EGFP) and red (DsRed2) in opposite orientations separated by the fragment of CCDC142-TTC31 intergenic region were constructed. In HEK293 cells transfected with these vectors simultaneous expression of two fluorescent proteins is observed. Truncated versions of intergenic region were obtained and their promoter activity measured. Minimal promoter fragment contains elements Inr, BRE, DPE characteristic for TATA-less promoters. Thus, from the human genome the novel bidirectional promoter was cloned that can be used for simultaneous constitutive expression of two genes in human cells.

[The coordinated interaction of multifunctional members of p53 family determines many key processes in multicellular organisms].

First time p53 was found in the complex with viral large T-antigene in the cells transformed by small DNA virus SV40. The cloning of p53 cDNA was done in the beginning of eighties and soon after that the whole p53 gene was cloned. The p53 family is comprised of three genes: TP53,TP63 and TP73, each of which is expressed as a set of structurally and functionally different isoforms. All of them intensively interact with each other forming a united functional network of proteins. In this review we discuss evolution of the p53 family and significance of all its members in embryonic development, reproduction, regeneration, regulation of aging and life span, as well as in the body's defense against cancer. With special attention we review the role of less studied members of the p53 family: p63 and p73, in oncogenesis and tumor progression and show that different isoforms of these proteins might exert a contrary effect on these processes.

[Characterization of new splicing mutation in steroid 21-hydroxylase gene].

Novel mutation in CYP21A2 gene causing the steroid 21-hydroxylase deficiency - C to G substitution in 7-position ofintron 2 acceptor splice site (c.290-7C>G) was identified. The effect of the mutation on splicing was checked in the system of CYP21A minigene expression in the cultured mammalian cells. The mutation impairs the usage of intron 2 acceptor splice site resulting in intron retention.

[Modulation of activated oncogene c-kit expression with RNA-interference].

Hyperexpression of oncogene c-kit is found in 80% patients with acute myeloid leukemia (AML). The transgenic model cell line expressing the oncogene c-kit was obtained by transduction with recombinant retrovirus. We have designed small interfering RNAs (siRNA) efficiently suppressing the expression of activated oncogene c-kit. Further small hairpin RNAs (shRNA) targeting c-kit mRNA were designed and expressed in lentiviral vectors. We report a stable reduction in c-kit expression following the introduction of shRNAs into model cells as well as Kasumi-1 cells from the patient with AML.

[Downregulation of activated leukemic oncogenes AML1-ETO and RUNX1(K83N) expression with RNA-interference].

In the present study we have applied the siRNA approach for substantial reduction of AML1-ETO and RUNX1 (K83N) expression, which are frequently found in the leukemic cells. We have designed small hairpin RNAs (shRNA) for targeting AML1-ETO oncogene and a region close to the 5'-untranslated region of mRNA for the mutant RUNX1 (K83N) oncogene and expressed the shRNAs in lentiviral vectors. We report a stable reduction in expression of the oncogenes following the introduction of shRNAs into cells.

[Organization and regulation of nucleocytoplasmic transport].

Separation of processes of DNA replication and transcription from protein synthesis, which occurs in eukaryotic cells, allows more precise control over these processes. Selective exchange of macromolecules between these two compartments is mediated by proteins of nuclear pore complex (NPC). Receptor proteins of karyopherin family interact with NPC components and transfer their cargos between nucleus and cytoplasm. Nucleocytoplasmic transport pathways are regulated on multiple levels by modulating the expression or function of single cargoes, transport receptors, or the transport channel. These levels of regulation have increasingly broad effects on transport pathways, and affect a wide range of processes, from gene expression to development and differentiation.

[Activated leukemic oncogenes responsible for neoplastic transformation of hematopoietic cells].

Leukemia is a heterogeneous group of malignant blood diseases, it could be characterized by the expansion of immature blast cells. It's still stay unknown the point molecular mechanism of leukemogenesis. It has been previously found that leukemia patients frequently have the mutations in genes responsible for normal proliferation and differentiation of hematopoietic stem cells. At present, scientific groups worldwide engaged in biomedical studies of structural and functional aspects of leukemic oncogenes and their role in human and beast leukemogenesis. In this review we describe the most recent conceptions of molecular properties of oncogenes activation of which may lead to the development of CBF-AML, in case of mutation in core-binding factors AML1 (CBFalpha) or CBFbeta.

[Baculovirus vectors for efficient gene delivery and expression in mammalian cells].

Baculovirus expression vectors are extensively used for the delivering foreign genes and expression of recombinant proteins in insect and mammalian cells. Modified baculoviruses containing mammalian promoter elements (BacMam viruses) for an efficient transient and stable transduction of diverse mammalian cells prove a high level of heterologous proteins' expression both in vitro and in vivo. Recombinant baculovirus vectors containing mammalian expression cassette with cytomegalovirus promoter, green or red fluorescent protein gene, polyadenylate signal SV40pA, and polylinker MCS were constructed for the delivery of genes encoding hepatitis C virus structural proteins into mammalian cells. In Hek293T and Huh7 cells formation of glycoprotein complexes and HCV-like particles was observed. A high efficiency of the baculovirus-mediated gene transfer and expression of the virus envelope proteins in mammalian cells was demonstrated with using fluorescence, flow cytometry and immunoblot techniques.

[Alteration of SEMA3B gene expression levels in epithelial tumors].

Gene expression decreasing in tumors permits to suggest tumor-suppressor activities for these genes. Thus, mRNA quantity decrease was found for SEMA3B gene in many cell lines of small cell (SCLC) and non-small cell lung carcinoma (NSCLC) and it is well-known that SEMA3B suppresses growth of the NCI-H1299 non-small cell lung carcinoma (NSCLC) cell line and tumor formation in nude mice. The aim of this work was to study spectrum of SEMA3B expression level in epithelial tumors of various locations. Using semi-quantitative RT-PCR it was shown for the first time decrease of SEMA3B mRNA quantity (10-250 times as much) in cell lines of renal, breast and ovarian tumors (4/11, 36%). SEMA3B expression profiles in primary tumors of five locations (kidney, lung, breast, ovary and colon) were studied for the first time. This analysis revealed decrease of mRNA quantity (5-1000 times as much) in clear cell renal cell carcinomas with significant high frequency: 25/51, 49% (cases with decrease of mRNA quantity) and 5/51, 10% (cases with increase), P < 0.0001 by Fisher exact test. In addition, the first data about comparatively frequent decrease of mRNA quantity in ovarian (5/16, 31% vs. 2/16, 12%) and colorectal carcinomas (6/11, 54% vs. 2/11,18%) were shown. These results permitted to suggest a possible role of SEMA3B in inhibiting of growth of renal, ovarian and colorectal cancer cells.

Replication protein A modulates the activity of human telomerase in vitro.

Our aim was to investigate how replication protein A (RPA) in a wide range of concentration can regulate the activity of human telomerase. We used an in vitro system based on human cell extracts with or without RPA. It has been shown that removal of RPA leads to loss of telomerase activity and addition of RPA restores telomerase activity and at the same time promotes telomerase processivity. However, high excess of RPA inhibited telomerase processivity and caused the synthesis of relatively short DNA fragments (about 50-100 nucleotides). We assume that, together with other telomere-binding proteins, RPA may take part in activation of telomere overhang elongation by telomerase at a certain stage of a cell cycle as well as in regulation of telomere length.

[New furano- and pyrrolo[2,3-d]pyrimidine nucleosides and their 5'-triphosphates: synthesis and biological properties].

Bicyclic furano[2,3-d]pyrimidine ribonucleosides were synthesized by Pd(0)- and CuI-catalyzed coupling of 5-iodouridine with terminal alkynes. The treatment of the resulting nucleosides with ammonia or methylamine solution in aqueous alcohol resulted in pyrrolo- and N(7)-methylpyrrolo[2,3-d]pyrimidine nucleosides. 5'-O-Triphosphates of bicyclic nucleosides were obtained by the treatment of the nucleosides with POCl3 in the presence of a "proton sponge." The 5'-O-triphosphates are not substrates for HCV RNA-dependent RNA polymerase, but are effective substrates for HCV RNA helicase/NTPase and did not inhibit ATP hydrolysis. Only 3-(beta-D-ribofuranosyl)-6-decyl-2,3-dihydrofuro-[2,3-d]pyrimidin-2-one showed a moderate anti-HCV activity in the HCV replicon system and efficiently inhibited replication of bovine viral diarrhea virus (BVDV) in KCT-cells, other compounds being inactive. None of the compounds were cytotoxic within the tested range of concentrations.

[Lentiviral vectors].

The delivery of genetic material to mammalian cells has a great importance for modern fundamental biology, biomedicine, biotechnology, agriculture and veterinary medicine. The development of new efficient techniques of gene transfer to human cells has led to the establishment of gene therapy, a novel type of treatment targeting severe metabolic disorders, some viral infections, including HIV, autoimmune diseases and genetic defects causing cancer. This review summarizes the achievements in lentiviral-mediated gene transfer, a powerful tool for use in human gene therapy and transgenic research, with a special focus on the genome structure and life cycle of lentiviruses, as well as on the design and safety aspects of lentiviral vector systems.