Enhancing lung cancer growth inhibition with calcium ions: Role of mid- and high-frequency electric field pulses

IF 6.9 2区 医学 Q1 MEDICINE, RESEARCH & EXPERIMENTAL Biomedicine & Pharmacotherapy Pub Date : 2024-11-17 DOI:10.1016/j.biopha.2024.117691
Nina Rembiałkowska , Julia Kucharczyk , Eivina Radzevičiūtė-Valčiukė , Vitalij Novickij , Margherita Tonci , Ata Dündar , Julita Kulbacka , Wojciech Szlasa
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Abstract

Calcium electroporation (CaEP) involves the combination of calcium ions with electroporation, which is induced by pulsed electric fields (PEFs). This study explores the application of high-frequency unipolar nanosecond pulsed electric fields (nsPEFs: 8–14 kV/cm, 200 ns, 10 kHz, 100 kHz, 1 MHz repetition frequency pulse bursts, n = 100) and their potential in inhibiting lung cancer cell growth. As a reference, standard microsecond range parametric protocols were used (100 µs x 8 pulses). Methods included cell permeability quantification through Yo-Pro-1 uptake, cell viability assays, immunofluorescence studies for apoptosis and EMT markers, analysis of cell death types depending on repetition frequency pulse bursts. We determined the susceptibility of human lung cancer to electric pulses, characterized the efficacy of CaEP, and investigated cell death types depending on repetition frequency pulse bursts. We have shown that adding calcium ions to the applied nsPEF protocol increases cytotoxicity. Additionally, the use of these electroporation parameters can modulate key cellular processes, such as the epithelial-mesenchymal transition and apoptosis, as indicated by changes in the expression of markers such as E-cadherin, N-cadherin, BCL-2, and p53. Changes in cell morphology over time were observed using holotomographic microscopy. The study provides insights into the modulation of key cellular processes, indicating that nsPEF technology could improve the outcomes of conventional cancer treatments through enhanced efficacy and potentially mitigating drug resistance mechanisms. The promising results advocate for further research to optimize nsPEF protocols for clinical application, highlighting the potential of electrical fields in advancing cancer therapy.
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用钙离子增强对肺癌生长的抑制作用:中频和高频电场脉冲的作用
钙电穿孔(CaEP)涉及钙离子与电穿孔的结合,而电穿孔是由脉冲电场(PEFs)诱导的。本研究探索了高频单极纳秒脉冲电场(nsPEFs)的应用:8-14 kV/cm、200 ns、10 kHz、100 kHz、1 MHz 重复频率脉冲串,n = 100)的应用及其抑制肺癌细胞生长的潜力。作为参考,使用了标准微秒范围参数方案(100 µs x 8 脉冲)。研究方法包括通过 Yo-Pro-1 摄取量化细胞渗透性、细胞活力测定、细胞凋亡和 EMT 标记的免疫荧光研究,以及根据重复频率脉冲串分析细胞死亡类型。我们确定了人类肺癌对电脉冲的易感性,描述了 CaEP 的功效,并根据重复频率脉冲串研究了细胞死亡类型。我们发现,在应用的 nsPEF 方案中加入钙离子会增加细胞毒性。此外,这些电穿孔参数的使用可以调节关键的细胞过程,如上皮-间质转化和细胞凋亡,如 E-cadherin、N-cadherin、BCL-2 和 p53 等标志物的表达变化。使用全息显微镜观察了细胞形态随时间的变化。这项研究深入揭示了关键细胞过程的调控,表明 nsPEF 技术可以通过增强疗效和潜在的减轻耐药机制来改善传统癌症治疗的结果。这些令人鼓舞的结果推动了进一步的研究,以优化 nsPEF 方案的临床应用,凸显了电场在推进癌症治疗方面的潜力。
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来源期刊
CiteScore
11.90
自引率
2.70%
发文量
1621
审稿时长
48 days
期刊介绍: Biomedicine & Pharmacotherapy stands as a multidisciplinary journal, presenting a spectrum of original research reports, reviews, and communications in the realms of clinical and basic medicine, as well as pharmacology. The journal spans various fields, including Cancer, Nutriceutics, Neurodegenerative, Cardiac, and Infectious Diseases.
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