太赫兹辐射对小鼠干细胞基因表达的非热效应。

Non-thermal effects of terahertz radiation on gene expression in mouse stem cells.

作者信息

Alexandrov Boian S, Rasmussen Kim Ø, Bishop Alan R, Usheva Anny, Alexandrov Ludmil B, Chong Shou, Dagon Yossi, Booshehri Layla G, Mielke Charles H, Phipps M Lisa, Martinez Jennifer S, Chen Hou-Tong, Rodriguez George

出版信息

Biomed Opt Express. 2011 Sep 1;2(9):2679-89. doi: 10.1364/BOE.2.002679. Epub 2011 Aug 23.

DOI:10.1364/BOE.2.002679

PMID:21991556

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3184876/

Abstract

In recent years, terahertz radiation sources are increasingly being exploited in military and civil applications. However, only a few studies have so far been conducted to examine the biological effects associated with terahertz radiation. In this study, we evaluated the cellular response of mesenchymal mouse stem cells exposed to THz radiation. We apply low-power radiation from both a pulsed broad-band (centered at 10 THz) source and from a CW laser (2.52 THz) source. Modeling, empirical characterization, and monitoring techniques were applied to minimize the impact of radiation-induced increases in temperature. qRT-PCR was used to evaluate changes in the transcriptional activity of selected hyperthermic genes. We found that temperature increases were minimal, and that the differential expression of the investigated heat shock proteins (HSP105, HSP90, and CPR) was unaffected, while the expression of certain other genes (Adiponectin, GLUT4, and PPARG) showed clear effects of the THz irradiation after prolonged, broad-band exposure.

摘要

近年来，太赫兹辐射源在军事和民用领域的应用越来越广泛。然而，迄今为止，仅有少数研究对与太赫兹辐射相关的生物效应进行了考察。在本研究中，我们评估了间充质小鼠干细胞对太赫兹辐射的细胞反应。我们应用了来自脉冲宽带（中心频率为10太赫兹）源和连续波激光（2.52太赫兹）源的低功率辐射。采用建模、实证表征和监测技术，以尽量减少辐射引起的温度升高的影响。运用qRT-PCR评估选定的热激基因转录活性的变化。我们发现温度升高幅度极小，所研究的热休克蛋白（HSP105、HSP90和CPR）的差异表达未受影响，而在长时间宽带照射后，某些其他基因（脂联素、葡萄糖转运蛋白4和过氧化物酶体增殖物激活受体γ）的表达显示出太赫兹辐射的明显影响。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/4a2d/3184876/29567e0f5032/boe-2-9-2679-g001.jpg

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太赫兹辐射对小鼠干细胞基因表达的非热效应。

Non-thermal effects of terahertz radiation on gene expression in mouse stem cells.

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