Department of Drug Sciences, Section of Pharmacology, University of Pavia, Pavia, Italy.
J Cell Physiol. 2014 Nov;229(11):1776-86. doi: 10.1002/jcp.24631.
In neurogenerative diseases, comprising Alzheimer's (AD), functional alteration in autophagy is considered one of the pathological hallmarks and a promising therapeutic target. Epidemiological investigations on the possible causes undergoing these diseases have suggested that electromagnetic fields (EMF) exposition can contribute to their etiology. On the other hand, EMF have therapeutic implications in reactivating neuronal functionality. To partly clarify this dualism, the effect of low-frequency EMF (LF-EMF) on the modulation of autophagy was investigated in human neuroblastoma SH-SY5Y cells, which were also subsequently exposed to Aβ peptides, key players in AD. The results primarily point that LF-EMF induce a significant reduction of microRNA 30a (miR-30a) expression with a concomitant increase of Beclin1 transcript (BECN1) and its corresponding protein. Furthermore, LF-EMF counteract the induced miR-30a up-regulation in the same cells transfected with miR-30a mimic precursor molecules and, on the other side, rescue Beclin1 expression after BECN1 siRNA treatment. The expression of autophagy-related markers (ATG7 and LC3B-II) as well as the dynamics of autophagosome formation were also visualized after LF-EMF exposition. Finally, different protocols of repeated LF-EMF treatments were assayed to contrast the effects of Aβ peptides in vitro administration. Overall, this research demonstrates, for the first time, that specific LF-EMF treatments can modulate in vitro the expression of a microRNA sequence, which in turn affects autophagy via Beclin1 expression. Taking into account the pivotal role of autophagy in the clearance of protein aggregates within the cells, our results indicate a potential cytoprotective effect exerted by LF-EMF in neurodegenerative diseases such as AD. J. Cell. Physiol. 229: 1776-1786, 2014. © 2014 Wiley Periodicals, Inc.
在神经退行性疾病中,包括阿尔茨海默病(AD),自噬的功能改变被认为是病理标志之一,也是有前途的治疗靶点。对这些疾病可能病因的流行病学研究表明,电磁场(EMF)暴露可能有助于其发病机制。另一方面,EMF 在重新激活神经元功能方面具有治疗意义。为了部分阐明这种双重性,研究了低频电磁场(LF-EMF)对人神经母细胞瘤 SH-SY5Y 细胞自噬调节的影响,这些细胞随后也暴露于 AD 关键参与者 Aβ肽中。结果主要表明,LF-EMF 诱导 microRNA 30a(miR-30a)表达显著降低,同时 Beclin1 转录物(BECN1)及其相应蛋白增加。此外,LF-EMF 可以逆转相同细胞中转染 miR-30a 模拟前体分子后诱导的 miR-30a 上调,并在 BECN1 siRNA 处理后恢复 Beclin1 表达。在 LF-EMF 暴露后,还观察到自噬相关标记物(ATG7 和 LC3B-II)的表达以及自噬体形成的动力学。最后,还测试了不同的 LF-EMF 重复处理方案,以对比体外 Aβ肽给药的影响。总的来说,这项研究首次证明,特定的 LF-EMF 处理可以调节体外 microRNA 序列的表达,进而通过 Beclin1 表达影响自噬。考虑到自噬在细胞内清除蛋白质聚集体中的关键作用,我们的结果表明 LF-EMF 在阿尔茨海默病等神经退行性疾病中具有潜在的细胞保护作用。J. Cell. Physiol. 229: 1776-1786, 2014。©2014 Wiley Periodicals, Inc.
