急性质子、光子和低剂量启动对肺细胞外基质和粘附分子相关基因的影响比较

Jian Tian, Sisi Tian, Daila S Gridley
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引用次数: 7

摘要

背景:执行太空任务的机组人员不可避免地暴露在低背景辐射下,而在主要由质子组成的太阳粒子事件(SPE)期间,可能会受到高得多的剂量。电离辐射会导致肺部病变。细胞粘附分子(CAM)被认为参与了纤维的形成。CAM和细胞外基质(ECM)之间的相互作用影响肺上皮修复机制。然而,关于质子对正常肺组织的生物学影响的数据非常有限。许多报告表明,暴露于低剂量/低剂量率(LDR)辐射可导致辐射适应,使细胞对随后的急性辐射更具抵抗力。本研究的目的是比较光子和质子急性照射后小鼠肺中ECM和CAM相关基因以及关键促纤维化介质的表达,并确定预暴露于LDR γ射线是否会诱导适应性效应。结果:总的来说,质子组和光子组在基因表达上存在显著差异。与0 Gy相比,两个时间点受质子影响的基因都多于光子(第21天11个vs. 6个,第56天14个vs. 8个),所有受质子影响的基因都上调了。当LDR γ射线与光子或质子结合时,许多基因被调节。Col1a1、mmp14和mmp15在第21天的所有放疗方案中均显著上调。同样,在急性和联合照射后,也检测了原纤维化蛋白的表达变化。结论:这些数据表明,急性传递的质子和光子在调节基因中存在显著差异,并且质子的作用比光子的作用更深远。预暴露于低dr γ射线使一些因急性辐照而改变的基因“正常化”。
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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Comparison of acute proton, photon, and low-dose priming effects on genes associated with extracellular matrix and adhesion molecules in the lungs.

Unlabelled:

Background: Crew members on space missions inevitably are exposed to low background radiation and can receive much higher doses during solar particle events (SPE) that consist primarily of protons. Ionizing radiation could cause lung pathologies. Cell adhesion molecules (CAM) are believed to participate in fibrogenesis. Interactions between CAM and extracellular matrix (ECM) affect epithelial repair mechanisms in the lung. However, there are very limited data on biological effects of protons on normal lung tissue. Numerous reports have shown that exposure to low-dose/low-dose-rate (LDR) radiation can result in radioadaptation that renders cells more resistant to subsequent acute radiation. The goal of this study was to compare expression of genes associated with ECM and CAM, as well as critical profibrotic mediators, in mouse lungs after acute irradiation with photons and protons, and also determine whether pre-exposure to LDR γ-rays induces an adaptive effect.

Results: Overall, a marked difference was present in the proton vs. photon groups in gene expression. When compared to 0 Gy, more genes were affected by protons than by photons at both time points (11 vs. 6 on day 21 and 14 vs. 8 on day 56), and all genes affected by protons were upregulated. Many genes were modulated by LDR γ-rays when combined with photons or protons. Col1a1, mmp14, and mmp15 were significantly upregulated by all radiation regimens on day 21. Similarly, the change in expression of profibrotic proteins was also detected after acute and combination irradiation.

Conclusion: These data show that marked differences were present between acutely delivered protons and photons in modulating genes, and the effect of protons was more profound than that of photons. Pre-exposure to LDR γ-rays 'normalized' some genes that were modified by acute irradiation.

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