Your search keyword '"Zavyalova, M. V."' showing total 4 results

1. Different morphological structures of breast tumors demonstrate individual drug resistance gene expression profiles

Author

Tatiana Gerashchenko, Denisov, E. V., Novikov, N. M., Tashireva, L. A., Kaigorodova, E. V., Savelieva, O. E., Zavyalova, M. V., Cherdyntseva, N. V., and Perelmuter, V. M.

Subjects

Reviews

Abstract

Aim: To identify gene expression profiles involved in drug resistance of different morphological structures (tubular, alveolar, solid, trabecular, and discrete) presented in breast cancer. Material and Methods: Ten patients with luminal breast cancer have been included. A laser microdissection-assisted microarrays and qRT-PCR were used to perform whole-transcriptome profiling of different morphological structures, to select differentially expressed drug response genes, and to validate their expression. Results: We found 27 differentially expressed genes (p < 0.05) encoding drug uptake (SLC1A3, SLC23A2, etc.) and efflux (ABCC1, ABCG1, etc.) transporters, drug targets (TOP2A, TYMS, and Tubb3), and proteins that are involved in drug detoxification (NAT1 and ALDH1B1), cell cycle progression (CCND1, AKT1, etc.), apoptosis (CASP3, TXN2, etc.), and DNA repair (BRCA1 and USP11). Each type of structures showed an individual gene expression profile related to resistance and sensitivity to anticancer drugs. However, most of the genes (19/27; p < 0.05) were expressed in alveolar structures. Functional enrichment analysis showed that drug resistance is significantly associated with alveolar structures. Other structures demonstrated the similar number (10–13 out of 27) of expressed genes; however, the spectrum of resistance and sensitivity to different anticancer drugs varied. Conclusion: Different morphological structures of breast cancer show individual expression of drug resistance genes. Key Words: breast cancer, tumor heterogeneity, gene expression, chemotherapy, drug resistance.

2. The phenomenon of multi-drug resistance in the treatment of malignant tumors

Author

Vtorushin, S. V., Khristenko, K. Y., Zavyalova, M. V., Perelmuter, V. M., Litviakov, N. V., Denisov, E. V., Anastasia Dulesova, and Cherdyntseva, N. V.

Subjects

Reviews

Abstract

Multi-drug resistance (MDR) is a condition when there is broad cross-resistance of cells to various agents which are different in structure and effect. Modern perceptions on mechanisms of MDR development in malignant tumors have been considered, in particular, in tre­ating breast cancer. Physiological functions and contribution to MDR development of ABC-transporter protein families have been described. The role of activation of glutathione system enzymes and apoptosis-regulating proteins in MDR formation has been shown. Key Words: multi-drug resistance, ABC-transporters, glutathione system, apoptosis-controlling genes.

3. The significance of intratumor morphological heterogeneity in breast cancer progression and pathogenetic mechanisms

Author

Denisov, E. V., Gerashchenko, T. S., Tashireva, L. A., Pautova, D. N., Zavyalova, M. V., Nadezda Cherdyntseva, and Perelmuter, V. M.

4. Intratumoral morphological heterogeneity of breast cancer as an indicator of the metastatic potential and tumor chemosensitivity

Author

Gerashchenko, T. S., Zavyalova, M. V., Denisov, E. V., Krakhmal, N. V., Pautova, D. N., Nikolai Litviakov, Vtorushin, S. V., Cherdyntseva, N. V., and Perelmuter, V. M.