[Role of fibroblast growth factors in pancreatic cancer]. / Rol' signal'nogo puti FGF/FGFR v kantserogeneze podzheludochnoi zhelezy.

Fibroblast growth factors belong to a family of growth factors that are involved in various processes in organism and have a wide range of biological functions. Specifically for pancreas, FGFs are important during both organogenesis and carcinogenesis. One of the main characteristic of pancreatic cancer, is it close interaction between cancer and stromal cells via different factors, including FGF. Pathological changes in FGF/FGFR signaling pathway is a complex process. The remodeling effects and stimulation of tumor growth are mostly depend not only on types of receptors, but also from their isoforms. FGF/FGFR signaling pathway is a perspective specific marker for cancer progression, and a potential drug target, which can be used for treatment of pancreatic cancer.

Expression of Therapeutic Gene FCU1 Sensitizes Pancreatic Cancer Cells to 5-Fluorocytosine and Enhances the Cytotoxic Effect of 5-Fluorouracil.

Hybrid therapeutic gene FCU1 gene was cloned into a lentiviral expression vector and the therapeutic effect of its expression was studied in three pancreatic cancer cell lines. Expression of FCU1 gene sensitized cells of two of three studied pancreatic cancer cell lines to 5-fluorocytosine. In addition, uracil phosphoribosyl transferase activity of the hybrid FCU1 protein increased sensitivity of transfected cells of all three studied pancreatic cancer cell lines to 5-fluorouracil, a standard chemotherapeutic agent.

[Comparative analysis of activity of different promoters for NIS gene expression in melanoma cells].

Development of targeted drug delivery system is key problem of cancer gene therapy. To ensure specific delivery of these therapeutic compounds to the tumor it is preferable for therapeutic gene expression to occur predominantly in cancer cells. Therefore, when testing drug in vivo, it is necessary to study distribution of therapeutic gene expression products in different tissues of the organism. Sodium iodide symporter (NIS) is attractive reporter because its tissue level is easily quantitatively detected by noninvasive imaging methods. Different promoters are used to direct expression of therapeutic genes in tumor cells: strong nonspecific, moderate tissue-specific and tumor-specific. Tumor-specific promoters function in wide range of tumor cells, however they are relatively weak. Relationship between promoter and sodium iodide symporter activity is unclear to date. In this report we examined activity of different promoters in two melanoma cell lines, functional activity of NIS driven by these promoters, also we compared promoter strength and NIS activity. We demonstrated that in spite of strong differences in promoter activity functional activity of NIS directed by these promoters varies weakly. Relatively weak melanoma-specific promoter directs high NIS activity in melanoma cell, however weaker cancer-specific promoters drive high NIS activity only in certain melanoma cell line.

[Quantitative comparison of expression for genes linked in bicistronic vectors via ires or 2A-peptide of porcine teschovirus-1 sequence].

Simultaneous expression of multiple target genes is often required in biotechnology. Multicistronic vectors coding for several proteins are being actively developed for this purpose. In commercially available vectors different variants ofencephalomyocarditis virus internal ribosome entry site (IRES EMCV) are used most often. However, many researchers consider that utilization ofself-cleaving 2A peptides sequences within multi- and bicistronic vectors is more promising. In this work, we compared the efficiency of gene expression in cells transfected with bicistronic vectors based on IRES EMCV and 2A peptide sequence derived form porcine teschovirus-1 (P2A). Efficiency ofgene expression was determined in three mammalian cell lines by measurement of co-expression levels of genes coding for RFP and EGFP proteins linked by IRES or P2A sequence. Higher level oftransgene expression was exhibited by cells transfected with the vector containing the 2A peptide sequence.

[Comparative analysis of herpes simplex virus thymidine kinase gene expression potentiation via HIV-1 Tat-TAR-system and cancer-specific promoters in p53(+) and p53(-) cells].

Tumor-specific promoters are predominantly active and ensure expression of the gene under control exclusively in cancer cells. However, a low activity of the promoters is an essential disadvantage for their therapy usage. To achieve a higher expression level of the therapeutic gene, herpes simplex virus thymidine kinase (HSV-tk), the Tat-TAR-system being utilized by HIV-1 for increasing own gene expression was developed. A potentiating activity of tat gene under control of two different cancer-specific gene (human survivin gene and human telomerase reverse transcriptase) promoters for increasing of the HSV-tk gene expression being regulated by TAR-element was evaluated, and activity of the cancer-specific promoters in the Tat-TAR-system was compared. Co-transfection of the cells with the both constructions led to the tat protein synthesis and its affect the HIV-1 TAR-element. An expression level of HSV-tk gene ensured by the both promoters in the binary system was close to that for strong non-specific cytomegalovirus (CMV) promoter. Enzymatic activity of HSV-tk protein in cells having both elements of Tat-TAR-system was two orders of magnitude higher than that in the cells transfected with HSV-tk gene under control of the cancer-specific promoter. Notably, the effect was independent of p53-status of transfected cells: HSV-tk expression level was almost the same in p53(+) and p53(-) cells. The obtained results show that system may be used for therapy of different cancer types both p53-defective and p53-positive ones inhibiting cancer-specific promoters activity.

[Study of transactivation effect on transcription by Tat-TAR-system of human immunodeficiency virus type 1 (HIV-1) in non-lymphoid cells HEK293 and Calu-1].

An important problem in the development of gene therapy approaches in oncology is the necessity of using promoters providing specific and high level of gene expression in tumor cells. To solve this problem, we used inducible system of gene expression regulation (Tat-TAR-system), which is utilized by human immunodeficiency virus (HIV). tat and tk-HSV genes, as well as a fragment of LTR HIV-1, were cloned in the retrovirus vector, tk-HSV gene was under control of the LTR HIV-1 fragment. Potential capacity of these constructions for transactivating tk-HSV gene transcription was studied. Basal expression level of this gene was defined in transient transfection of HEK293 cells. It was shown that specific transactivation of the tk-HSV gene was controlled by the LTR HIV-1 fragment in lung carcinoma cells Calu-1, permanently transfected by the tat gene construction. The effect of transactivation of tk-HSV transcription in Tat-TAR-system was demonstrated in Calu-1 cells in conditions of control of cancer-specific tat gene over BIRC5 promoter.

[Structure and functions of isoforms of polyfunctional tumoral suppressor PML].

Polyfunctional protein PML contributes significantly in vital activity of cell. 11 isoforms of PML differ from one another by C-terminal domain. In spite of intensive research into the protein, the role of the isoforms in cellular processes remains obscure. In addition, the literature contains various names of the isoforms. The goal of this work was to review the structure of the PML gene, variants of alternative splicing of mPNA, and domain organization of corresponding protein forms. The PML isoforms were classified and functional specificity of each PML isoform was characterized: contribution to gene transcription, contribution to cell apoptosis, cell growth, immune response, formation of nuclear bodies.

[Expression of FTL and FTH genes encoding ferretin subunits in lung and renal carcinomas].

The level of ferritin in serum is known to be increased frequently in most human cancers. Ferritin consists of the heavy and light chains, encoded by FTL and FTH genes. The analysis of the EST database showed that the level of FTL and FTH mRNA is decreased in lung squamous cell carcinomas as compared to the normal tissues, no change in the mRNA level was observed in clear cell renal cell carcinoma. Using real-time PCR we estimated the mRNA level of these genes in primary tumors. It was shown significant and frequent decrease of FTL and FTH mRNA level in lung squamous cell carcinoma: on the average by 11 and 9 times in 83% (33/40) and 73% (11/15) of cases, respectively. In clear cell renal cell carcinoma the changes were not so marked both with respect to the level of decrease (on the average 6 and 3 times) and to its frequency (58 and 27%). In the present work it has been shown for the first time that the FTL mRNA is frequently down-regulated even at the early stages of lung squamous cell carcinoma in all studied samples. This fact permits to consider this gene as potential oncomarker of early diagnosis. The FTL mRNA content may be quantified by non-concurrent hybridization on expression DNA microarrays. The possible causes of a serum ferritin increase in lung cancer and renal cancer are discussed.

[Increase of BIRC5 gene expression in non-small cell lung cancer and esophageal squamous cell carcinoma does not correlate with expression of genes SMAC/DIABLO and PML encoding its inhibitors].

Survivin (BIRC5) is one of the members of IAP-family apoptosis inhibitors. The BIRCS gene is expressed in most human embryonic tissues and malignant tumors but not in normal differentiated tissues of adult human. It was suggested that BIRC5 proteins inhibit apoptosis and play an essential role in tumorigenesis, makings surviving an attractive target for anticancer therapy. The mechanisms regulating level of survivin are not completely understood. It was supposed that natural inhibitors of survivin, namely SMAC and PML, play an important role in these processes. Using RT-PCR and immunoblotting we analyzed the transcription level of BIRC5, SMAC and PML genes and content of corresponding proteins in normal and tumor human tissues in non-small cell lung cancer and esophageal squamous cell carcinoma. It was demonstrated that BIRC5 is transcribed only in tumor tissues, whereas expression levels of SMAC and PML are the same in normal and tumor tissues. The contents of proteins correspond to levels of mRNA of the respective genes. Thus the increase of level of survivin in tumor tissues is not the result of decrease in content of its inhibitors SMAC and PML, as their content in tumor and normal cells is the same.

[Down-regulation of RBSP3/CTDSPL, NPRL2/G21, RASSF1A, ITGA9, HYAL1 and HYAL2 genes in non-small cell lung cancer].

Chromosomal and genome abnormalities of 3p are frequent events in many epithelial tumours, including lung cancer. Several critical regions with high frequency of hemi--and homozygous deletions in tumours were detected on 3p and more then 20 different cancer-related genes were identified in 3p21.3 locus. Real-time PCR was used to measure mRNA level of tumour-suppressor genes and candidates in 3p21.3 (RBSP3/CTDSPL, NPRL2/G21, RASSF1A, ITGA9, HYAL1 and HYAL2 in basic types of non-small cell lung cancer (NSCLC)--squamous cell lung cancer (SCC) and lung adenocarcinoma (AC). Significant (from 2 to 100 times) and frequent (from 44 to 100%) mRNA level decrease was shown in NSCLC. Level and frequency of mRNA decrease for all genes depended on histological type of NSCLC. Down-regulation of RASSF1A and ITGA9 was associated significantly with AC progression, the same tendency was found for genes RBSP3/CTDSPL, NPRL2/G21, HYAL1 and HYAL2. On the contrary, down-regulation of all genes in SCC was not associated with clinical stages, tumor cells differentiation and metastases in lymph nodes. Significant decrease of RBSP3/CTDSPL, NPRL2/G21, ITGA9, HYAL1 and HYAL2 mRNA levels (on average, 5-13 times) with high frequency (83-100%) was already shown at the first stage of SCC. Simultaneous decrease of all six genes mRNA level was found in the same tumor samples and was not depended on their localization on 3p21.3 and functions of the proteins. Spearman's correlation coefficient r(s) was from 0.63 to 0.91, P < 0.001. Co-regulation of gene pairs ITGA9 and HYAL2, HYAL1 and HYAL2, which mediate cell-cell adhesion and cell-matrix interaction, was suggested based on the obtained data. It was shown that genetic and epigenetic mechanisms were important for down-regulation of RBSP3/CTDSPL and ITGA9 genes. These results supported the hypothesis on simultaneous inactivation of cluster cancer-related genes in extended 3p21.3 locus during development and progression of lung cancer and other epithelial tumors. Significant and frequent decrease of mRNA level of six genes in SCC could be important for development of specific biomarker sets for early SCC diagnosis and new therapeutic approaches/strategies for NSCLC.

[Transcription TIMP3, DAPk1 and AKR1B10 genes in squamous cell lung cancer].

Lung cancer is one of the most frequent neoplasia in the Russia, the United States and Europe. This cancer is associated with functional activity changes of many genes. In the present study TIMP3, DAPK1 and AKR1B10 genes transcription analysis of squamous cell lung cancer specimens was carried out using reverse transcription-PCR. Substantial increasing of AKR1B10 transcription level is revealed in 80% tumor samples. TIMP3 and DAPK1 transcription level is considerably decreased in 76 and 72% tumor specimens, accordingly. These results may point out that all three genes are important for squamous cell lung cancer tumorogenesis while AKR1B10 is potential oncogene whereas TIMP3 and DAPK1 are potential tumor suppressor genes. We suggest that revealed substantial transcription level-changes of investigated genes may be used for oncodiagnostics.

[Selective amplification of evolutionally conserved expressed sequences]. / Selektivnaia amplifikatsiia évoliutsionno konservativnykh ékspressiruiushchikhsia posledovatel'nostei.

An efficacious method of cloning the sequences common for two cDNAs was proposed. The method was used for constructing a library of expressed sequences evolutionarily conserved for human and hamster.

[Mapping the genes for ribosomal proteins S14 and S17 on human chromosomes using cDNA from a panel of hybrid cells]. / Kartirovanie genov ribosomnykh belkov S14 i S17 na khromosomakh cheloveka s ispol'zovaniem kDNK iz paneli gibridnykh kletok.

A new method of mapping transcriptionally active genes of ribosomal proteins onto human chromosomes is proposed. The method is based on the detection of the expression of human ribosomal protein mRNA in rodent-human hybrid cells carrying different human chromosomes. Using this method, the functional gene of the human ribosomal protein S17 was mapped and the location of the S14 ribosomal protein gene on chromosome 5 was confirmed.

[Isolation and characteristics of an ordered library of transcribed sequences of human chromosome 19 from hybrid human-hamster cells]. / Poluchenie i kharakteristiki uporiadochennoi biblioteki transkribiruemykh posledovatel'nostei khromosomy 19 cheloveka iz gibridnykh kletok chelovek-khomiak.

A new technique based on Alu-PCR amplification of hn-RNA is described for the extraction of human-specific transcribed sequences from a hybrid cell line. Arrayed library of hn-cDNA was constructed and characterized by sequencing about 80 individual clones. A high enrichment by human-specific sequences (about 95%) was demonstrated.

[Construction of a mapping panel of human-rodent hybrid cells]. / Sozdanie kartiruiushchei paneli gibridnykh kletok chelovek-gryzun.

A clone panel of 27 human-Chinese hamster and 4 human-mouse somatic cell hybrids which contained as minimum five discriminating clones for any chromosome pairs was set up. Segregation analysis of 45 human chromosome-specific isoenzymes and PCR markers in hybrid clones allowed to demonstrate a possibility to apply the obtained panel for chromosome mapping of human genes.

[Use of isoenzyme and PCR markers for analyzing human chromosomes in human-rodent hybrid cells]. / Ispol'zovanie izofermentnykh i PCR-markerov dlia analiza khromosom cheloveka v gibridnykh kletkakh chelovek-gryzun.

The possibility of using isozyme and PCR markers for estimation of preservation of human chromosomes in human.rodent somatic cell hybrids is considered. Methods of electrophoretic separation of 33 isozymes and 11 PCR markers for 22 human autosomes and X chromosome are described. Using these isozymes and PCR primers as markers of known regions and arms of human chromosomes, one can avoid errors in typization of chromosomes with complicated rearrangements which simulate similar patterns of G-banding. The method proposed in the paper not only facilitates considerably the analysis of hybrid clones, but is also an easy and reliable tool in selection of somatic cell hybrid clones for further investigation.