[Genotyping of BRCA1, BRCA2 and CHEK2 germline mutations in Russian breast cancer patients using diagnostic biochips].

Germline mutations of BRCA1/2 genes cause the predisposition of their carriers to breast or/and ovary cancers (BC or/and OC) during the lifetime. Identification of these mutations is a basis of molecular diagnosis for BC susceptibility. Rapid genotyping technique using microarrays for identification of BRCA1 185delAG, 300T>G, 4153delA, 5382insC mutations and 4158 A>G sequence variant; BRCA2 695insT and 6174delT mutations; 1100delC mutation in CHEK2 gene was applied for 412 randomly collected breast cancer samples from the central region of European area of Russia. In 25 (6.0%) patients (6.0%) BC was associated with other tumours: OC, cervical cancer, colorectal cancer etc. BRCA1/2 and CHEK2 mutations were found in 33 (8.0%) BC patients. The most frequent mutation was BRCA1 5382insC, occurred in 16 (3.9%) BC patients, and CHEK2 1100delC, revealed in 7 (1.7%) BC patients. An application of diagnostic BC-microarray for genetic testing of BRCA1/2 and CHEK2 founder mutations has been discussed.

[Molecular genetics study of hereditary predisposition to diffuse gastric cancer in Russian patients].

About 3% of cases of gastric cancer (GC) cases are due to hereditary predisposition. Molecular causes of inherited predisposition to diffuse GC among Russian patients have not been studied. In the present work there was performed the molecular genetics study in 9 probands with signet-ring cell GC. Search of hereditary mutations was conducted in a suppressor gene of diffuse GC - the gene CDH1. We have discovered a new hereditary mutation (c.1005delA) and one rare variant (s.2253C> T). Frequency of hereditary mutations in sample of patients Russian was 1/9 (11,1%).

[Localization of point mutations in the coding part of the VHL gene in clear cell renal cancer].

VHL gene is often inactivated in sporadic clear cell renal cancer (CCRC) due to somatic mutations, and it's germline mutations cause hereditary CCRC--von Hippel-Lindau syndrome. Localization of mutations in VHL, identification of new mutations and their influence on CCRC progression and sensitivity to targeted therapy are actual problems in modern oncogenetics. We have provided search and characterization of mutations in 248 primary CCRC using SSCP-analysis and sequencing. Somatic mutations were detected in 37.5% of samples, 72% of mutations were identified for the first time. New missense-mutations were analyzed by alignment programs and three-dimensional structure modeling. Mutation frequency was compared in different groups of patients in respect to stage, grade, and metastases. It was demonstrated that 39.1% samples with stage I harbor somatic mutations, however, no association with progression or metastases was found. We also have investigated localization of mutations in the VHL coding part and positions of missense-mutations and inframe deletions/insertions focusing on VHL critical sequences. VHL mutation analysis performed in this study improve the possibilities of laboratory diagnostics of familial and sporadic CCRC.

[Comparison of different methods of molecular-genetic analysis of somatic mutations in K-ras gene in patients with colorectal cancer].

Two approaches to somatic point mutations in 12 and 13 codones of K-ras gene were analyzed: PCR/SSCP/ACRS/sequencing and allele-specific PCR in the real-life regimen (Russian set "KRAS-7M"). The comparison was carried out on 62 examples of genomic DNA extracted from frozen colon carcinomas, which underwent manual dissection. The results obtained in two attempts were consistent in 95,2% (N=59). Specificity and sensitivity of K-ras mutations detection using "KRAS-7M" set were 100 and 96,4% respectively, and 94,1 and 100% respectievly using PCR/SSCP/ACRS/automatic sequencing. False positive results were absent when detecting with "KRAS-7M" and accounted for 2 cases (5,9%) when using PCR/SSCP/ ACRS/automatic sequencing. The only false negative response (3,6%) was obtained analyzing mutations using "KRAS-7M".

[Detection of KRAS mutations in tumor cells using biochips].

Somatic mutations in the KRAS gene are important markers of some types of tumors, for example, pancreatic cancer, and may be useful in early diagnostics. A biochip has been developed which allows determining most frequent mutations in 12, 13 and 61 codons of the KRAS gene. To increase the sensitivity of the method and to make possible the analysis of minor fractions of tumor cells in clinical samples the method of blocking a wild type sequence PCR amplification by LNA-oligonucleotides has been used. The product of LNA-clamp PCR was further hybridized with oligonucleotide probes, immobilized on biochip. Biochip was tested with 42 clinical DNA samples from patients with pancreatic cancer, mostly ductal adenocarcinomas. As reference methods, the RFLP analysis and sequencing were used. The developed approach allows detecting somatic mutations in the KRAS gene if the portion of tumor cells with mutation is at least 1% of whole cell population.

[Li-Fraumeni syndrome: clinico-molecular diagnostics and medico-genetic counseling].

Li-Fraumeni syndrome (sarcoma family syndrome, OMIM 151623) is a rare clinically and genetically hetergoeneous autosomal dominant disorder characterized by the evolvement and accumulation of soft-tissue osteogenic sarcomas in members of a family, as well as uni- and bilateral breast cancer in young women, brain tumours, adrenocortical cancer, and lymphoproliferative diseases. Germinal mutations of the TP53 gene constitute the etiological genetic basis of Li-Fraumeni syndrome. American Society of Clinical Oncology (ASCO) and National Comprehensive Cancer Network developed recommendations for genetic testing and observation of carriers of TP53 mutations. In vitro and in vivo studies demonstrated correlation between the TP53-mutant genotype and resistance to standard therapeutic modalities. This finding gave impetus to the development of new genotherapeutic approaches to the treatment of TP53-associated tumours in patients with Li-Fraumeni syndrome.

[Bystander effect development in human mesenchymal stem cells after exposure to adaptive dose of X-radiation].

Transposition and mutual approaching of pericentromeric loci 1q12 of homological chromosomes from the nuclear membrane towards the nuclear centre as well as activation of the chromosomal nucleolus-forming regions (NFR) are observed in human mesenchymal stem cells (hMSCs) as an initial stages of the adaptive response (AR) after exposure to low doses of X-radiation (10 cGy). All these reactions are also induced after addition of cultivation medium from irradiated cells to intact bystander-cells and this phenomenon called bystander effect (BE). Recently the same AR and BE induction results were obtained for human G0-lymphocytes. All these data indicate the existence of universal reaction of homological chromosome loci transposition which was revealed during AR development in differentiated (lymphocytes) and non-differentiated (hMSCs) and also it shows possibility of radiational BE development in suspension and monolayer cell cultures upon addition of stress-signalization factors in incubation medium. We suppose that these factors are extracellular genome DNA fragments apoptotic cells.

[The response of human cancer stem cells on low-dose X-ray exposure].

Recently we found that transposition of homologous chromosomes 1q12 loci towards the nuclear centre and activation of the chromosomal nucleolus-forming regions (NFR) are observed in human lymphocytes after exposure to low doses of X-radiation (10 cGy). These cell reactions were studied for human breast cancer stem cell cultures. There are two cell types in cell culture from single donor: with two (type 1) and three (type 2) loci of 1q12. It was shown that an adaptive response induced by X-ray irradiation is developed only in cells of the type 1 but not in type 2 ones after 3 and 10 cGy doses. We observed a considerable death of cell type 2 after low-dose exposure. Activation of the NFR in breast cancer stem cells after irradiation was not found. In this paper we discuss features of studied cancer stem cells lines and their responses to low doses of ionizing radiation.

[Analysis of BRCA1/2 and CHEK2 mutations in ovarian cancer and primary multiple tumors involving the ovaries. Patients of Russian population using biochips].

Ovarian cancer (OC) is one of the leading cause of cancer death in women. Inherited BRCA1 and BRCA2 mutations strikingly increase OC risk (with lifetime risk estimates ranging at 10-60%). Mutation 1100delC in CHEK2 gene was shown to be associated with breast cancer in women carrying this mutation. Knowledge of the nature and frequency of population-specific mutations in these genes is a critical step in the development of simple and inexpensive diagnostic approaches to DNA analysis. The frequencies of 185delAG, 300T>G, 4153delA, 4158A>G, 5382insC mutations in BRCA1 gene, 695insT and 6174delT mutations in BRCA2 gene and 1100delC mutation in CHEK2 gene were analyzed using biochips in Russian OC patients. We studied 68 women who received a diagnosis of epithelial OC and 19 women with primary multiple tumors involving the ovaries. The 185delAG, 300T>G, 4153delA and 5382insC in BRCA1 gene were identified. The most prevailing mutation was 5382insC in BRCA1 gene (87.5% of all BRCA1 mutations OC patients, 50.0% in patients with primary multiple tumors involving the ovaries). No mutations in BRCA2 and CHEK2 genes were detected.

[Analysis of polymorphic variants of gene GIPC1 CGG repeats in healthy individuals and in patients with breast cancer and non-small cell lung cancer].

The GIPC1 gene product promotes clustering of some transmembrane receptors, including those involved in carcinogenesis, and protects them against ubiquitin-dependent degradation. The 5' untranslated region of GIPC1 contains a polymorphic trinucleotide CGG repeat, which has not been characterized earlier. In the present study, we have carried out comparative analysis of the allele and genotype frequencies of this repeat in 129 samples of breast cancer (BC), 58 samples of non-small cell lung cancer (NSCLC), and 215 samples of healthy donors. The CGG repeat in the 5' untranslated GIPC1 gene region was shown to be highly polymorphic and represented by at least eight alleles. Alleles CGG10-13 were major, occurring at frequencies of 22, 41, 27, and 9%, respectively; the total frequency of the remaining alleles was approximately 1%. Heterozygosity of the CGG repeat was 0.70. Allele CGG12 was shown to be associated with high risk of developing NSCLC (alpha = 0.05).

[Population genetic analysis of the association between the BRCA1 and P53 gene polymorphisms and the risk of sporadic breast cancer].

Polymorphism of two tumor-suppressor genes, BRCA1 and P53, was examined. DNA was extracted from blood leukocytes of the women affected with breast cancer (N = 151) and of the women with no clinical symptoms of tumor diseases (N = 191). Typing of the polymorphic variants was performed using PCR-RFLP method. It was demonstrated that the genetic structure of the patient group (taking into consideration BRCA1 and P53 polymorphic variants) differed from that of the control group. The group of genotypes, found exclusively among the patients, as well as the group of "resistant" genotypes revealed predominantly among the controls, was described. Detection of the genotype A1A1 B1B1 S1S1 C1C1 F1F1 J2J2, whose frequency in control group was eight times higher than in the patient group, was an additional confirmation of the existence of "resistant" genotypes. These findings point to the association between the combinations of the BRCA1 and P53 allelic variants and the risk of breast cancer.

[Association of polymorphism of genetic markers of CYP19 and CYP17 with sporadic breast cancer]. / Izuchenie assotsiatsii polimorfnykh markerov genov CYP19 i CYP17 so sporadicheskim rakom molochnoi zhelezy.

Polymorphic alleles of CYP17 and CYP19, which are involved in estrogen biosynthesis, were tested for association with breast cancer (BC). Microsatellite (TTTA)n and 3-bp deletion of CYP19 and single-nucleotide polymorphism T27C of CYP17 were analyzed in 123 BC patients and 119 healthy women. Of the six (TTTA)n alleles observed, allele (TTTA)8 proved to be associated with BC (11.8% vs. 6.3%, P = 0.04). Genotype A2/A2 of CYP17 was also associated with BC (32.5% vs. 20.2%, P = 0.04). Risk of BC was especially high in the presence of both factors (7.3% vs. 0%, P < 0.01). Allele (TTTA)8 and genotype A2/A2 were assumed to be risk factors of BC.

[Abnormal methylation of several tumor suppressor genes in sporadic breast cancer]. / Anomal'noe metilirovanie nekotorykh genov-supressorov pri sporadicheskom rake molochnoi zhelezy.

Multiplex methylation-sensitive PCR was employed in studying the methylation of CpG islands in the RB1, p16/CDKN2A, p15/CDKN2B, p14/ARF, CDH1, MGMT, HIC1, and N33 promoter regions in breast carcinoma (105 tumors). Methylation was often observed for the two major suppressor genes involved in cell-cycle control through the Cdk-Rb-E2F signaling pathway, RB1 (18/105, 17%) and p16 (59/105, 56%); both genes were methylated in 13 tumors. Methylation involved p15 in two (2%) tumors; CDH1, in 83 (79%) tumors; MGMT, in eight (8%) tumors, and N33, in nine (9%) tumors. The p14 promoter was not methylated in the tumors examined.

[Analysis of mutations in the RET proto-oncogene in patients with medullary thyroid tumor]. / Analiz mutatsii v protoonkogene RET u bol'nykh s medulliarnym rakom shchitovidnoi zhelezy.

The spectrum of mutations of the RET protooncogene was analyzed in Russian patients with inherited or sporadic medullary thyroid carcinoma (MTC). Four RET exons (11, 13, 15, and 16) were subjected to molecular analysis, and mutations were revealed and identified in 47.4% (9/19) patients with sporadic MTC. In total, six mutations (including three new ones) were observed. The most common mutation affected codon 918 to cause substitution of methionine with threonine and accounted for 31.6% alleles. Analysis of exons 11 and 16 revealed four mutations in patients with inherited multiple endocrine neoplasia type 2 (MEN 2). Mutations were found in each patient. Thyroidectomy was performed in four asymptomatic carriers of RET mutations from three MET 2A families (in two families, affected relatives had bilateral pheochromocytoma). In two patients, analysis of the surgery material revealed MTC microfoci in both lobes of the thyroid gland. The results provide the ground for constructing a bank of genetic information on Russian MTC patients with the clinically verified diagnosis.

[Hereditary cancer: identification, genetic heterogeneity, medico-genetic consult]. / Nasledstvennyi rak: identifikatsiia, geneticheskaia geterogennost', mediko-geneticheskoe konsul'tirovanie.

The paper deals with a role of inherited factors responsible for the occurrence of malignant tumors. Inherited types of cancer are shown to occur virtually at its sites and averaged 5-15%. Formalized criteria for identifying inherited cancer diseases and their etiological and genetic heterogeneity are presented. A role of genes that genetically predispose to particular forms of cancer is shown, which allows for early (preclinical) diagnosis and prevention of cancer diseases.

[Molecular diagnosis of multiple type 2 endocrine neoplasia]. / Molekuliarnaia diagnostika mnozhestvennoi éndokrinnoi neoplazii tipa 2.

The paper reviews the data on the molecular structure of the protooncogene RET encoding for receptor-type protein kinase, on the mechanism of transformation of the normal protooncogene RET to a dominant transforming oncogene, and on RET mutations detected in patients with the MEN-2 syndrome. Moreover, it presents the authors' own findings. The familial medullary thyroid carcinoma burdened genealogy shows a new point mutation TCG(Ser)-->GCG(Ala) in codon 891, in the exon 15 of the protooncogene RET. This mutation was not detected in the chromosomes of healthy individuals. Analyzing the linkage with two known and two new polymorphic markers showed that there was a cisaggregation of informative polymorphic markers, phenotypic manifestation of the disease, and mutations in the genealogy in question. In the protooncogene RET, there were two new polymorphisms: G/A at position 24 in intron 14 and C/T in codon 836 (exon 14). The rate of the polymorphism encountered in codon 836 proved to be similar for the Russians and the Germans (0.96%), which was also seen for two earlier described polymorphisms in codon 691 (0.80 and 0.81, respectively) and in codon 904 (0.21 and 0.22). At the same time, there were statistically significant differences in the rates of intron 14 polymorphism (0.87 and 0.77, respectively). In a family having MEN 2, a proband displayed TGC-->CGC mutation in codon 634 of the gene RET in the heterozygous state. The mutation results in substitution of cysteine amino acid residue in the cysteine-rich extracellular domain of protein kinase encoded by the gene RET for arginine. The results of molecular analysis were used to confirm its clinical diagnosis and to indicate that effective care should be delivered in MEN 2a.

[Cell-free DNA fragments increase transcription in human mesenchymal stem cells, activate TLR-dependent signal pathway and supress apoptosis].

Human mesenchymal stem cells (MSCs) are now widely adopted in regenerative medicine. However, many questions on the role of different signaling pathways in the regulation of stem cell (SC) functional activity within the organism remain unaswered. In damaged regions the level of cell death increases and DNA fragments from dead cells (cell-free DNA, cfDNA) are accumulated in blood. We showed that in adipose-derived MSCs exposed in vitro to cfDNA fragments the transcription level increased (the total amount of cellular RNA and the rRNA amount rose). GC-rich CfDNA fragments (GC-DNA) activated the TLR9-dependent signal pathway: the expression of TLR9 and of TLR9-signaling pathway adapter--MyD88--was up-regulated. AT-rich DNA fragments did not increase the TLR9 expression, though, the MyD88 expression level rose. So we suggest that AT-DNA acts via some other receptors that nevertheless activate MyD88-dependent signalling in MSCs. We also showed that cfDNA fragments decreased the activity of caspase, an apoptotic enzyme. So, ctDNA can significantly influence the functional activity ofMSC by activating TLR9- and MyD88-dependent signal pathways and lowering the apoptosis level.