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低 LET γ 射线和高 LET α 粒子照射下正常人类支气管上皮细胞染色体畸变复杂性降低。

Reduced chromosome aberration complexity in normal human bronchial epithelial cells exposed to low-LET γ-rays and high-LET α-particles.

机构信息

Centre for Cell Chromosome Biology.

出版信息

Int J Radiat Biol. 2013 Nov;89(11):934-43. doi: 10.3109/09553002.2013.805889. Epub 2013 Jun 13.

DOI:10.3109/09553002.2013.805889
PMID:23679558
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3836394/
Abstract

PURPOSE

Cells of the lung are at risk from exposure to low and moderate doses of ionizing radiation from a range of environmental and medical sources. To help assess human health risks from such exposures, a better understanding of the frequency and types of chromosome aberration initially-induced in human lung cell types is required to link initial DNA damage and rearrangements with transmission potential and, to assess how this varies with radiation quality.

MATERIALS AND METHODS

We exposed normal human bronchial lung epithelial (NHBE) cells in vitro to 0.5 and 1 Gy low-linear energy transfer (LET) γ-rays and a low fluence of high-LET α-particles and assayed for chromosome aberrations in premature chromosome condensation (PCC) spreads by 24-color multiplex-fluorescence in situ hybridization (M-FISH).

RESULTS

Both simple and complex aberrations were induced in a LET and dose-dependent manner; however, the frequency and complexity observed were reduced in comparison to that previously reported in spherical cell types after exposure to comparable doses or fluence of radiation. Approximately 1-2% of all exposed cells were categorized as being capable of transmitting radiation-induced chromosomal damage to future NHBE cell generations, irrespective of dose.

CONCLUSION

One possible mechanistic explanation for this reduced complexity is the differing geometric organization of chromosome territories within ellipsoid nuclei compared to spherical nuclei. This study highlights the need to better understand the role of nuclear organization in the formation of exchange aberrations and, the influence three-dimensional (3D) tissue architecture may have on this in vivo.

摘要

目的

肺部细胞容易受到来自各种环境和医疗源的低剂量和中剂量电离辐射的影响。为了帮助评估此类暴露对人类健康的风险,需要更好地了解人类肺细胞类型中最初诱导的染色体畸变的频率和类型,以便将初始 DNA 损伤和重排与传播潜力联系起来,并评估其随辐射质量的变化情况。

材料和方法

我们将体外培养的正常人支气管肺上皮(NHBE)细胞暴露于 0.5 和 1 Gy 低线性能量转移(LET)γ射线和低通量高 LET α 粒子下,并通过 24 色多重荧光原位杂交(M-FISH)检测过早染色体凝聚(PCC)分裂中的染色体畸变。

结果

无论是在 LET 还是剂量依赖性方面,均诱导了简单和复杂的畸变;然而,与以前在类似剂量或辐射通量下暴露于球形细胞类型后观察到的畸变频率和复杂性相比,观察到的畸变频率和复杂性降低了。大约有 1-2%的所有受照射的细胞被归类为能够将辐射诱导的染色体损伤传递给未来的 NHBE 细胞世代,而与剂量无关。

结论

这种复杂性降低的一种可能的机制解释是,与球形核相比,椭球体核内染色体区域的几何组织不同。这项研究强调了需要更好地了解核组织在交换畸变形成中的作用,以及三维(3D)组织架构对此在体内的影响。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ff7b/3836394/f6cb3bc89271/RAB-89-934-g003.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ff7b/3836394/f8d7c1aeed54/RAB-89-934-g001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ff7b/3836394/b577a9888370/RAB-89-934-g002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ff7b/3836394/f6cb3bc89271/RAB-89-934-g003.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ff7b/3836394/f8d7c1aeed54/RAB-89-934-g001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ff7b/3836394/b577a9888370/RAB-89-934-g002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ff7b/3836394/f6cb3bc89271/RAB-89-934-g003.jpg

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