Electroporation-mediated Metformin for effective anticancer treatment of triple-negative breast cancer cells

Praveen Sahu, Ignacio G. Camarillo, Pragatheiswar Giri, Raji Sundararajan
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Abstract

In this research, we investigated the efficacy of Metformin, the most commonly administered type-2 diabetes drug for triple negative breast cancer (TNBC) treatment, due to its various anticancer properties. It is a plant-based bio-compound, synthesized as a novel biguanide, called dimethyl biguanide or metformin. One of the ways it operates is by hindering electron transport chain-complex I, in mitochondria, which causes a drop-in energy (ATP) generation. This eventually builds energetic stress and a decline in energy. Therefore, the natural cellular processes and proliferating tumor cells are obstructed. Here, we used electroporation, where, the MDA-MB-231, human TNBC cells were subjected to high intensity, short-duration electrical pulses (EP) in the presence of Metformin. The cell viability results indicate lower cell viability of 43.45% as compared to 85.20% with drug alone at 5mM concentration. This indicates that Metformin, the most common diabetes drug could also be explored for cancer treatment.
电穿孔介导二甲双胍对三阴性乳腺癌细胞的有效抗癌治疗
二甲双胍是最常用的 2 型糖尿病药物,具有多种抗癌特性,因此我们研究了二甲双胍对三阴性乳腺癌(TNBC)的疗效。二甲双胍是一种基于植物的生物化合物,由一种新型双胍合成,称为二甲基双胍或二甲双胍。它的作用方式之一是阻碍线粒体中的电子传递链-复合体 I,从而导致能量(ATP)生成下降。因此,细胞的自然过程和肿瘤细胞的增殖都会受到阻碍。在这里,我们使用电穿孔技术,在二甲双胍存在的情况下,对 MDA-MB-231、人类 TNBC 细胞进行高强度、短时间的电脉冲(EP)。细胞存活率结果显示,在 5mM 浓度下,细胞存活率为 43.45%,而单独使用药物时为 85.20%。
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