Objective:to study the prognostic significance of the expression of cancer-testis (CT) genes PRAME, NY-ESO1, GAGE1, MAGE A3, MAGE A6, MAGE A12, SSX1, SLLP1, PASD1 in patients with multiple myeloma (MM) and their influence on overall survival and relapse rate. To determine their effect on suсh clinical parameters as levels of lactate dehydrogenase, leucocytes, hemoglobin, calcium, albumen, creatinine, beta-2-microglobulin.Materials and methods.Real-time polymerase chain reaction was performed on complementary DNA obtained from bone marrow of 77 patients with MM. The statistical analysis was performed using the Statistica 10.0 software package. To estimate prognostic values of the CT gene expression data were analyzed by the Kaplan – Meier method.Results.The study was conducted to determine the level of expression of CT genes PRAME, NY-ESO1, GAGE1, MAGE A3, MAGE A6, MAGE A12, SSX1, SLLP1, PASD1 in a group of patients with MM. The group included primary and receiving cancer treatment in MM patients. According to the log-rank criterion expression of any of the CT genes PRAME, NY-ESO1, GAGE1, MAGE A3, MAGE A6, MAGE A12, SSX1, SLLP1, PASD1 exerts a significant influence on overall survival and progression-free survival/relapse. It was also determined that providing expression of some CT genes, the levels of creatinine, calcium, beta-2-microglobulin were much higher to compare with patients without expression.
Aranosa, nitrozourea derivative is a DNA-methylating agent that has been approved for treatment of patients with disseminated melanoma. Aranoza effect is based on DNA damage and then as a result apoptosis mechanisms start launching. The important role in this process must be played by p53 protein, and its different dysfunctions can result in drug resistance. Objective. The purpose is to study p53 mutational status in cell lines of human skin metastatic melanoma and to estimate its connection with сell lines resistance to aranoza. Materials and methods. The research was conducted on 14 cell lines of human skin metastatic melanoma. Aranoza IC50 for cell lines was determined by MTT-test. The 17р chromosome’s condition was estimated by fluorescence in situ hybridization. The presence of point mutations in DNA-binding domain of human p53 was researched by Sanger sequencing. Results. Skin metastatic melanoma cell lines had different sensitivity to aranoza. Almost all cell lines were heterogeneous in the condition of 17 th chromosome. P53 point mutations were found in 2 cell lines. But one part of resistant cell lines almost didn’t have any mutational disorders of p53, another part of resistant lines on the contrary had plenty of p53 mutational disorders. Conclusion. The correlation of resistance and p53 mutations can be established for one part of human skin metastatic melanoma cell lines. But for another part of human skin metastatic melanoma cell lines resistance most likely are driven by other mechanisms.
Molecular genetic detection of CALR gene somatic mutations is required for myeloproliferative neoplasms diagnosis and treatment according to the novel WHO clinical recommendations. CALR mutations are found in approximately 25–35 % cases of essential thrombocythemia and primary myelofibrosis and they are associated with benign clinical outcome. In this study we have compared sensitivity and selectivity of seve ral different options of CALR mutation molecular genetic detection in blood samples of 379 CMD patients and 17 healthy donors. Among methods compared in our study there have been conventional polymerase chain reaction with electrophoretic detection, real-time quantitative polymerase chain reaction, direct Sanger sequencing of polymerase chain reaction fragments and polymerase chain reaction high resolution melting curve analysis. By means of melting curve analysis CALR mutations have been found in 97 (25.5 %) patients, whereas in the cases of Sanger sequencing and polymerase chain reaction there have been 87 (23.0 %) and 84 (22.1 %) CALR mutation positive patients respectively.
Background . Multiple myeloma (MM) is a malignant lymphoproliferative B-cell disease characterization by clonal proliferation of plasma cells in the bone marrow and beyond its borders. Currently, a wide range of cytogenetic anomalies and molecular-biological parameters are studied as prognostic factors.Objective: a comparative study of the frequency, features and clinical significance of chromosomal abnormalities in MM by conventional cytogenetic and fluorescent in situ hybridization (FISH) methods.Materials and methods . 77 patients with MM, which admitted in N.N. Blokhin National Medical Research Center of Oncology, were included in the study from 2016 to 2017.Results . Chromosomal alterations were detected only in one case (1/77) by conventional cytogenetic method G-banding. However cytogenetic aberrations were revealed in 26 % of cases (20/77) using FISH. Deletions of different regions of chromosomes, indicating the possible presence of a hypodiploid clone or loss of some regions, were found in one patient in the second FISH analysis after 6 months. In the cohort of patients with chromosomal abnormalities (n = 20) a partial trisomy 11q, a deletion of the region q32 of the chromosome 14, a translocation t(4;14)(p16;q32) and IGHV gene rearrangement were determined in 30 % (6/20) as sole anomalies. Two or more cytogenetic aberrations were identified in the remaining 14 patients. Our study confirms that chromosomal abnormalities are more likely detected at later stages of MM (IA и IIA – 0 %, IIIA и IIIВ – 27 and 47 % respectively).Conclusion . FISH allows to detect chromosomal changes in tumor plasma cells regardless of the mitosis phase. In MM, it becomes particularly important in connection with low proliferative activity of plasma cells. Additionally, in the fourth of MM patients in the study submicroscopic chromosomal aberrations were discovered using FISH. The improvement of the probe panel and the widespread use of locus specific FISH don’t replace G-banding that allows to see damages of all chromosomes at once.
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