ANTITUMOR ACTIVITY OF SOME PYRIDINECARBOXY ACID COMPOUNDS IN TUMOR CELL CULTURES

Bulletin "Biomedicine and sociology" Pub Date : 2023-06-30 DOI:10.26787/nydha-2618-8783-2023-8-2-10-15

Epishkina A.A., D. O.N., B. D.S., Tumutolova O.N., B. E.V., Kutorkina E.A., Pakina V.A.

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Abstract

We studied the antitumor activity of two compounds - derivatives of pyridinecarboxylic acids with laboratory codes LHT-13-19 and LHT-17-19 in two cancer cell cultures: colon HT29 and estrogen-sensitive breast cancer MCF-7. Сompounds were synthesized in the department of chemistry, technology of synthetic drugs and analytical control of VNС BAV (Russia). A possible mechanism for the development of secondary chemoresistance was determined on the organoid model of triple-negative breast cancer, provided to us by scientists from the FGBI “N.N. Dmitry Rogachev" of the Ministry of Health of Russia. Both compounds were shown to be cytotoxic against two human neoplasias with an inhibitory concentration of 1.3 × 10-7 for substance LHT-17-19 and LHT-13-19 – 7.6 × 10-3 M for colon cancer HT29 and 1.6×10-5 (LHT-17-19) and 3.8×1 (LHT-13-19) for MCF-7 breast cancer. During the formation of secondary resistance of triple-negative breast cancer cells to LHT-13-19, the reverse transport of compound molecules is activated, as evidenced by the increase in the concentration of the substance in the cultivation medium after washing the three-dimensional culture. Under the same experimental conditions, although secondary resistance to LHT-17-19 is formed, no efflux of molecules into the medium is observed, which indicates that in this case other mechanisms not related to reverse transport may be involved.

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一些吡啶羧酸类化合物在肿瘤细胞培养中的抗肿瘤活性

我们研究了两种化合物——实验室代码为LHT-13-19和LHT-17-19的吡啶羧酸衍生物在结肠癌HT29和雌激素敏感乳腺癌MCF-7两种癌细胞培养物中的抗肿瘤活性。Сompounds是在化学系合成的，合成药物技术和VNС BAV(俄罗斯)的分析控制。FGBI“N.N.”的科学家向我们提供了三阴性乳腺癌的类器官模型，确定了继发性化疗耐药发展的可能机制俄罗斯卫生部的德米特里·罗加乔夫说。这两种化合物对两种人类肿瘤具有细胞毒性，对物质LHT-17-19和LHT-13-19的抑制浓度为1.3 × 10-7，对结肠癌HT29的抑制浓度为7.6 × 10-3 M，对MCF-7乳腺癌的抑制浓度为1.6×10-5 (LHT-17-19)和3.8×1 (LHT-13-19)。三阴性乳腺癌细胞对LHT-13-19的继发性耐药形成过程中，化合物分子的反向转运被激活，三维培养洗净后培养液中该物质浓度升高。在相同的实验条件下，虽然形成了对LHT-17-19的二次抗性，但没有观察到分子向介质的外排，这表明在这种情况下可能涉及与反向运输无关的其他机制。

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Bulletin "Biomedicine and sociology"

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