BALB/c 小鼠甲状腺内氡-211 暴露后的转录反应揭示了不同的基因表达谱。

Transcriptional response of BALB/c mouse thyroids following in vivo astatine-211 exposure reveals distinct gene expression profiles.

机构信息

Department of Radiation Physics, Institute of Clinical Sciences, Sahlgrenska Cancer Center, Sahlgrenska Academy, University of Gothenburg, Sahlgrenska University Hospital, Gothenburg, SE-413 45, Sweden.

出版信息

EJNMMI Res. 2012 Jun 14;2(1):32. doi: 10.1186/2191-219X-2-32.

DOI:10.1186/2191-219X-2-32

PMID:22697397

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3489558/

Abstract

BACKGROUND

Astatine-211 (211At) is an alpha particle emitting halogen with almost optimal linear energy transfer for creating DNA double-strand breaks and is thus proposed for radionuclide therapy when bound to tumor-seeking agents. Unbound 211At accumulates in the thyroid gland, and the concept of basal radiation-induced biological effects in the thyroid tissue is, to a high degree, unknown and is most valuable.

METHODS

Female BALB/c nude mice were intravenously injected with 0.064 to 42 kBq of 211At, resulting in absorbed doses of 0.05 to 32 Gy in the thyroid gland. Thyroids were removed 24 h after injection; total RNA was extracted from pooled thyroids and processed in triplicate using Illumina MouseRef-8 Whole-Genome Expression Beadchips.

RESULTS

Thyroids exposed to 211At revealed distinctive gene expression profiles compared to non-irradiated controls. A larger number of genes were affected at low absorbed doses (0.05 and 0.5 Gy) compared to intermediate (1.4 Gy) and higher absorbed doses (11 and 32 Gy). The proportion of dose-specific genes increased with decreased absorbed dose. Additionally, 1.4 Gy often exerted opposite regulation on gene expression compared to the other absorbed doses. Using Gene Ontology data, an immunological effect was detected at 0.05 and 11 Gy. Effects on cellular response to external stress and cell cycle regulation and proliferation were detected at 1.4 and 11 Gy.

CONCLUSIONS

Conclusively, the cellular response to ionizing radiation is complex and differs with absorbed dose. The response acquired at high absorbed doses cannot be extrapolated down to low absorbed doses or vice versa. We also demonstrated that the thyroid - already at absorbed doses similar to those obtained in radionuclide therapy - responds with expression of a high number of genes. Due to the increased heterogeneous irradiation at low absorbed doses, we suggest that this response partly originates from non-irradiated cells in the tissue, i.e., bystander cells.

摘要

背景

砹-211（211At）是一种发射α粒子的卤素，其线性能量转移几乎为最佳，可用于产生 DNA 双链断裂，因此当其与靶向肿瘤的试剂结合时，被提议用于放射性核素治疗。未结合的 211At 在甲状腺中蓄积，而甲状腺组织中基础辐射诱导的生物学效应的概念在很大程度上是未知的，且极具价值。

方法

雌性 BALB/c 裸鼠经静脉注射 0.064 至 42 kBq 的 211At，甲状腺吸收剂量为 0.05 至 32 Gy。注射后 24 小时取出甲状腺；从合并的甲状腺中提取总 RNA，并用 Illumina MouseRef-8 全基因组表达 Beadchips 进行三重复处理。

结果

与未照射对照相比，暴露于 211At 的甲状腺显示出独特的基因表达谱。与中间（1.4 Gy）和高（11 和 32 Gy）吸收剂量相比，低吸收剂量（0.05 和 0.5 Gy）下受影响的基因更多。随着吸收剂量的降低，剂量特异性基因的比例增加。此外，1.4 Gy 对基因表达的调节往往与其他吸收剂量相反。使用基因本体论数据，在 0.05 和 11 Gy 下检测到免疫效应。在 1.4 和 11 Gy 下检测到细胞对外界应激的反应以及细胞周期调控和增殖的效应。

结论

总之，细胞对电离辐射的反应是复杂的，并且随吸收剂量而变化。高吸收剂量下获得的反应不能外推到低吸收剂量或反之亦然。我们还证明，甲状腺-即使在吸收剂量类似于放射性核素治疗中获得的吸收剂量-也会通过表达大量基因来响应。由于低吸收剂量下的不均匀照射增加，我们建议这种反应部分源自组织中的未照射细胞，即旁观者细胞。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c993/3489558/fc568a667861/2191-219X-2-32-1.jpg

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BALB/c 小鼠甲状腺内氡-211 暴露后的转录反应揭示了不同的基因表达谱。

Transcriptional response of BALB/c mouse thyroids following in vivo astatine-211 exposure reveals distinct gene expression profiles.

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