Different duration of exposure to a pulsed magnetic field can cause changes in mRNA expression of apoptotic genes in oleic acid-treated neuroblastoma cells.

International journal of radiation biology Pub Date : 2024-01-01 Epub Date: 2024-08-01 DOI:10.1080/09553002.2024.2386968

Çiğdem Gökçek-Saraç, Ebru Çetin, Kayhan Ateş, Şükrü Özen, Serdar Karakurt

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Abstract

Purpose: Neuroblastoma, a prevalent childhood tumor, poses significant challenges in therapeutic interventions, especially for high-risk cases. This study aims to fill a crucial gap in our understanding of neuroblastoma treatment by investigating the potential molecular impacts of short- and long-term pulsed magnetic field exposure on the neuronal apoptosis mechanism in an in vitro model of neuroblastoma treated with oleic acid (OA).

Materials and methods: Cells were cultured and divided into six following experimental groups: (I) Nontreated group (NT); (II) OA-treated group (OA); (III) Group treated with OA after being exposed to the pulsed magnetic field for 15-min (15 min PEMF + OA); (IV) Group treated with OA after being exposed to the pulsed magnetic field for 12 h (12 h PEMF + OA); (V) Group exposed to the pulsed magnetic field for 15 min (15 min PEMF); and (VI) Group exposed to the pulsed magnetic field for 12 h (12 h PEMF). Cell viability, rates of apoptosis, and mRNA levels of key apoptotic genes (TP53, Bcl2, Bax, and Caspase-3) were assessed.

Results: Significant reductions in cell viability were observed, particularly in the group treated with OA following long-term pulsed magnetic field exposure. Flow cytometry revealed elevated apoptosis rates, notably in the early stages of apoptosis. qRT-PCR analysis demonstrated increased expression of cleaved Caspase-3, Bax/Bcl2 ratio, and TP53 in cells treated with OA following long-term pulsed magnetic field exposure, signifying enhanced apoptotic pathways.

Conclusions: The findings indicate that long-term pulsed magnetic field exposure and OA treatment exhibit potential synergistic effects leading to the induction of apoptosis in SH-SY5Y cells. We have concluded that stimulations of pulsed magnetic field have the potential to serve as an adjuvant therapy for oleic acid-based treatment of neuroblastoma.

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暴露于脉冲磁场的时间长短不同，会导致油酸处理过的神经母细胞瘤细胞中凋亡基因的 mRNA 表达发生变化。

目的：神经母细胞瘤是一种常见的儿童肿瘤，给治疗干预带来了巨大挑战，尤其是对高危病例。本研究旨在通过研究短期和长期脉冲磁场暴露对用油酸（OA）处理的神经母细胞瘤体外模型中神经细胞凋亡机制的潜在分子影响，填补我们对神经母细胞瘤治疗认识上的一个重要空白：将培养的细胞分为以下六个实验组：(I)未处理组（NT）；(II)OA 处理组（OA）；(III)暴露于脉冲磁场 15 分钟后用 OA 处理组（15 分钟 PEMF + OA）；(IV) 在脉冲磁场中暴露 12 小时后再用 OA 处理的组（12 小时 PEMF + OA）； (V) 在脉冲磁场中暴露 15 分钟后再用 OA 处理的组（15 分钟 PEMF）；以及 (VI) 在脉冲磁场中暴露 12 小时后再用 OA 处理的组（12 小时 PEMF）。对细胞活力、凋亡率和主要凋亡基因（TP53、Bcl2、Bax 和 Caspase-3）的 mRNA 水平进行了评估：结果：观察到细胞存活率显著降低，尤其是在长期暴露于脉冲磁场后接受 OA 治疗的组别中。qRT-PCR 分析表明，长期暴露于脉冲磁场后，用 OA 处理的细胞中裂解的 Caspase-3、Bax/Bcl2 比率和 TP53 的表达增加，表明细胞凋亡途径增强：研究结果表明，长期脉冲磁场暴露和 OA 处理具有潜在的协同效应，可诱导 SH-SY5Y 细胞凋亡。我们得出结论，脉冲磁场刺激有可能成为基于油酸治疗神经母细胞瘤的辅助疗法。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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International journal of radiation biology

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