G. S. Krasnov

RPN1, a new reference gene for quantitative data normalization in lung and kidney cancer

Quantitative methods of gene expression analysis in tumors require accurate data normalization, which allows comparison of different specimens with unknown mRNA/cDNA concentrations. For this purpose, reference genes with stable expression are used (e.g., GAPDH, ACTB, HPRT1, or TBP). The problem of choosing proper reference genes is still a topical issue, because well-known reference genes can be unsuitable for certain cancer types and their inappropriate use without additional testing can lead to wrong conclusions. A recently developed bioinformatical approach was employed to identify a new potential reference gene for lung and kidney tumors, RPN1, located on the long arm of chromosome 3. The method employed the mining of the dbEST and Oncomine databases and functional analysis of genes. RPN1 was selected from approximately 1500 candidate housekeeping genes. Using comparative genomic hybridization with NotI microarrays, we found no methylation, deletions, and/or amplifications in the RPN1-containing locus in 56 nonsmall cell lung and 42 clear cell renal cell cancer specimens. Real-time PCR showed that variation of RPN1 mRNA levels in nonsmall cell lung cancer and clear-cell renal cancer was low and comparable to that of the known reference genes GAPDH and GUSB, respectively. Expression levels of two hyalouronidase genes, HYAL1 and HYAL2, were assessed using the suggested references gene pairs (RPN1-GAPDH for lung cancer and RPN1-GUSB for kidney cancer), and these combinations were shown to produce accurate and reproducible data. These results suggest that RPN1 is a new, promising reference gene for quantitative data normalization in gene expression studies for lung and kidney cancers.

Downregulation of RBSP3 / CTDSPL , NPRL2 / G21 , RASSF1A , ITGA9 , HYAL1 , and HYAL2 in Non-Small Cell Lung Cancer

Chromosomal and genome abnormalities of 3p are frequent in many epithelial tumors, including lung cancer. Several critical regions with a high frequency of hemi-and homozygous deletions in tumors are known for 3p, and more than 20 cancer-related genes occur in 3p21.3. Quantitative real-time PCR was used to measure the mRNA level for tumor-suppressor and candidate genes of 3p21.3 (RBSP3/CTDSPL, NPRL2/G21, RASSF1A, ITGA9, HYAL1, and HYAL2) in major types of non-small cell lung cancer (NSCLC): squamous cell lung cancer (SCC) and lung adenocarcinoma (AC). A significant (2-to 100-fold) and frequent (44–100%) decrease in mRNA levels was observed in NSCLC. The mRNA level decrease and its frequency depended on the histological type of NSCLC for all genes. The downregulation of RASSF1A and ITGA9 was significantly associated with AC progression; the same tendency was observed for RBSP3/CTDSPL, NPRL2/G21, HYAL1, and HYAL2. In SCC, the downregulation of all genes was not associated with the clinical stage, tumor cells differentiation, and metastasis in lymph nodes. The RBSP3/CTDSPL, NPRL2/G21, ITGA9, HYAL1, and HYAL2 mRNA levels significantly (5-to 13-fold on average) decreased at a high frequency (83–100%) as early as SCC stage I. Simultaneous downregulation of all six genes was observed in some tumor samples and was independent of the gene position in 3p21.3 and the functions of the protein products. The Spearman correlation coefficient rs was 0.63–0.91, p < 0.001. The highest rs values were obtained for gene pairs ITGA9-HYAL2 and HYAL1-HYAL2, whose products mediate cell-cell adhesion and cell-matrix interactions; coregulation of the genes was assumed on this basis. Both genetic and epigenetic mechanisms proved to be important for downregulation of RBSP3/CTDSPL and ITGA9. This finding supported the hypothesis that the cluster of cancerrelated genes in the extended 3p21.3 locus is simultaneously inactivated during the development and progression of lung cancer and other epithelial tumors. A significant and frequent decrease in the mRNA level of the six genes in SCC could be important for developing specific biomarker sets for early SCC diagnosis and new approaches to gene therapy of NSCLC.

Expression of FTL and FTH genes encoding ferritin subunits in lung and renal carcinomas

Numerous human cancers are accompanied with the increase of ferritin content in blood serum. Ferritin is composed of light and heavy chains, encoded by FTL and FTH genes, respectively. The analysis of EST database showed that the expression of FTL and FTH genes in lung tumors is decreased compared to normal tissues, and is not altered in renal cancer cells. The alteration of mRNA corresponding to FTL and FTH genes was estimated by real-time PCR in primary lung and kidney tumors. A significant and frequent inhibition of FTL and FTH gene expression (on average by 11 and 9 times, in 83% (33/40) and 73% (11/15) of cases, respectively) was detected in primary squamous lung carcinoma. The expression of these genes was not altered so significantly (by 6 and 3 times, in 58% and 27% of samples) in clear cell renal cell carcinoma. Our work reports for the first time the down-regulation of FTL gene expression at the first stage of lung cancer (10/10), and proposes this gene as a potential oncomarker for early diagnosis. The FTL mRNA content may be quantified by non-competitive hybridization on expression DNA microarrays. The possible causes of a serum ferritin increase in lung squamous cell carcinoma and clear cell renal cell carcinoma are discussed.

Identification of Proteins with Altered Expression in Colorectal Cancer by Means of 2D-Proteomics

Modern proteomic techniques make it possible to identify numerous changes in protein expression in tumors as compared to normal tissues. Although proteomics is currently widely used, identification of proteins differentially expressed in particular types of cancer remains a challenging task. The goal of our study was to detect novel protein markers of colorectal cancer using comparative proteomics of protein extracts obtained from primary tumors and adjacent normal tissues. Coloreetal cancer is nearly asymptomatic at the early stages, which calls for development of fast and sensitive methods for molecular diagnostics. Proteomes of 11 paired specimens of primary colorectal tumors and adjacent histologically normal tissues were studied using comparative 2D PAGE. Altogether, 16 proteins with altered expression levels were detected, including 13 proteins with increased levels and three proteins with decreased levels in tumor tissues. These proteins were identified using MALDI-TOF mass spectrometry. The proteins GPD1, RRBP1 (increased levels), HNRNPH1, and SERPINB6 (decreased levels) have been associated with colorectal cancer for the first time.

Increase in NETO2 gene expression is a potential molecular genetic marker in renal and lung cancers

Multiple changes in the genome, transcriptome, and proteome are frequent in cancer cells. A search for molecular markers based on DNA, mRNA, or proteins is a main method to develop early specific diagnostics for cancer. While universal markers are still unavailable, similar trends are known for the expression patterns of particular genes in certain epithelial tumors. A bioinformatic screening of transcriptomic databases identified the NETO2 gene as a new potential promising marker of renal cancer. A substantial increase in NETO2 mRNA level was detected in 90% clear-cell renal cell carcinomas, 70% of non-small cell lung cancers, and 50% of papillary renal cancers by real-time PCR. The NETO2 mRNA level was increased to a lesser extent in cervical carcinoma and colon cancer and tended to decrease in cancer of the stomach. The NETO2 gene, which codes for a membrane glycoprotein with an unclear function, was assumed to provide a new promising marker for early diagnosis in renal cancer and non-small cell lung cancer.

The role of microRNA in abiotic stress response in plants

Regulation of gene expression via microRNA is the key mechanism of response to biotic and abiotic stresses in plants. There are a lot of experimental data on the biological function of microRNAs in response to different stresses in various plant species. This review contains up-to-date information on molecular mechanisms of microRNA action in plants in response to abiotic stresses, including drought, salinity, mineral nutrient deficiency or imbalance.

Structure and function of enteric α-defensins in norm and pathology

The review summarizes the current data on the structure of enteric α-defensins, their functions in innate and adaptive immunity systems, and their role in intestinal illnesses.

Proteomic expression analysis of human colorectal cancer: Identification of soluble overexpressed proteins

Colorectal cancer is one of the most common malignancies in developed countries. Scarce clinical signs at the early stages of the disease and the lack of fast and sensitive diagnostic techniques based on the detection of tumor specific protein markers contribute greatly to the high mortality rate. The search for such markers is significantly complicated by the high levels of major structural and cytoskeletal proteins in normal and tumor tissues. Extraction with 0.2 M NaCl in the presence of the nonionic detergent NP-40 was performed to enrich the soluble protein fraction. This modification resulted in a considerably increased sensitivity of detection of minor proteins that may enter the circulation during carcinogenesis. The soluble protein profiles of the paired colon adenocarcinoma and normal tissue specimens were compared using 2D gel electrophoresis, which enabled the detection of 10 proteins whose levels in tumors were elevated at least 10-fold as compared to normal tissue. The proteins were identified by MALDI-TOF mass spectrometry, and two new protein markers of colon cancer, TAF9 and CISH, were discovered. Low levels of CISH synthesis in most normal human tissues and tumors other than colorectal cancer make it a prospective candidate diagnostic marker for this type of cancer.

Identification of proteins overexpressed in papillary thyroid tumors

A modified method of proteome comparative analysis based on preliminary removal of cell structural proteins by extraction using salt buffer and subsequent separation of extracts by two-dimensional gel electrophoresis was developed. Identification of differentially expressed proteins by mass spectrometry has revealed three proteins with noticeably increased level of synthesis in most samples of papillary thyroid tumors compared to normal tissues. An increase in ubiquitin content was found for the first time. Oncomarker search efficiencies by two-dimensional gel electrophoresis and bioinformatic search were compared.

Interaction of two tumor suppressors: Phosphatase CTDSPL and Rb protein

Earlier we established that CTDSPL gene encoding small carboxy-terminal domain serine phosphatase can be considered a classical tumor suppressor gene. Besides, transfection of tumor cell line MCF-7 with CTDSPL led to the content decrease of inactive phosphorylated form of another tumor suppressor, retinoblastoma protein (Rb), and subsequently to cell cycle arrest at the G1/S boundary. This result implied that small phosphatase CTDSPL is able to specifically dephosphorylate and activate Rb protein. In order to add some fuel to this hypothesis, in the present work we studied the interaction of two tumor suppressors CTDSPL and Rb in vitro. GST pool-down assay revealed that CTDSPL is able to precipitate Rb protein from MCF-7 cell extracts, while surface plasmon resonance technique showed that interaction of the two proteins is direct. Results of this study reassert that phosphatase CTDSPL and Rb could be involved in the common mechanism of cell cycle regulation.