Mechanisms of cytotoxic activity of pyrrole-carboxamides against multidrug-resistant tumor cell sublines

A. R. Galembikova; P. D. Dunaev; F. F. Bikinieva; I. G. Mustafin; P. B. Kopnin; S. S. Zykova; F. I. Mukhutdinova; E. A. Sarbazyan; S. V. Boichuk

doi:10.17650/2313-805X-2023-10-3-59-71

Успехи молекулярной онкологии (Oct 2023)

Mechanisms of cytotoxic activity of pyrrole-carboxamides against multidrug-resistant tumor cell sublines

A. R. Galembikova,
P. D. Dunaev,
F. F. Bikinieva,
I. G. Mustafin,
P. B. Kopnin,
S. S. Zykova,
F. I. Mukhutdinova,
E. A. Sarbazyan,
S. V. Boichuk

Affiliations

A. R. Galembikova: Kazan State Medical University, Ministry of Health of Russia
P. D. Dunaev: Kazan State Medical University, Ministry of Health of Russia
F. F. Bikinieva: Kazan State Medical University, Ministry of Health of Russia
I. G. Mustafin: Kazan State Medical University, Ministry of Health of Russia
P. B. Kopnin: Research Institute of Carcinogenesis of the N. N. Blokhin National Medical Research Center of Oncology, Ministry of Health of Russia
S. S. Zykova: Perm State Pharmaceutical Academy, Ministry of Health of Russia
F. I. Mukhutdinova: Kazan State Medical University, Ministry of Health of Russia
E. A. Sarbazyan: Kazan National Research Technological University
S. V. Boichuk: Kazan State Medical University, Ministry of Health of Russia; Research Laboratory “Biomarker”, Institute of Fundamental Medicine and Biology of the Kazan Federal University; Russian Medical Academy of Continuing Professional Education, Ministry of Health of Russia; Central Research Laboratory of the Kazan State Medical University, Ministry of Health of Russia

DOI: https://doi.org/10.17650/2313-805X-2023-10-3-59-71
Journal volume & issue: Vol. 10, no. 3
pp. 59 – 71

Abstract

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Introduction. Mitotic poisoning agents (MPAs) affecting the dynamic state of the microtubules, are the well-known and effective chemotherapeutic agents. Mitotic poisoning agents are binding to the microtubules, and thereby interfere with tubulin polymerization or depolymerization dynamic state, resulting in the cell cycle arrest in M-phase (mitotic catastrophe) and subsequent apoptotic cell death. We reported previously about potent cytotoxic activities against the pyrrole-carboxamides (PCs) (PC-61 and PC-84) against broad spectrum of cancer cell lines, including triple negative breast cancer, lung and prostate cancer.Aim. To examine the cytotoxic activities of PC-61 and PC-84 against multidrug-resistant cancer cell lines indicated above.Materials and methods. Studу was performed on the triple-negative paclitaxel-resistant breast cancer cell line HCC1806 Tx-R and doxorubicin-resistant osteosarcoma SaOS-2 Dox-R cell line.Results. The cytotoxic activity of PCs was due to the inhibition of tubulin polymerization. Immunofluorescence staining data revealed PC’s ability to interfere with tubulin’s assembly in multidrug-resistant cancer cell lines. As an outcome of inhibition of tubulin polymerization, PCs induced cell cycle arrest in M-phase, and further led to apoptotic cell death of cancer cells.Conclusion. Collectively, we demonstrated potent cytotoxic activity of PCs against cancer cell lines with multidrug-resistant phenotype, which arising the possibilities to develop novel and effective anti-tumor agents that belongs to mitotic poisoning agents

Published in Успехи молекулярной онкологии

ISSN: 2313-805X (Print); 2413-3787 (Online)
Publisher: ABV-press
Country of publisher: Russian Federation
LCC subjects: Medicine: Internal medicine: Neoplasms. Tumors. Oncology. Including cancer and carcinogens
Website: http://umo.abvpress.ru

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