hNIS基因转染SW480细胞裸鼠模型的建立及核素显像

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摘要目的：观察人钠/碘转运体（hNIS）重组质粒（pcDNA3.1+-hNIS）脂质体法转染结肠癌细胞（SW480）的裸鼠模型介导放射性核素显像的可行性。方法：酶切鉴定pcDNA3.1+-hNIS，转染SW480细胞并检测hNIS基因及蛋白的表达，筛选稳定表达hNIS的SW480细胞，建立肿瘤裸鼠模型并进行放射性核素99mTcO4-显像结果：pcDNA3.1+-hNIS转染SW480细胞后成功检测到hNIS基因及蛋白的表达，结肠癌裸鼠模型成功介导放射性核素99mTcO4-显像。结论：重组质粒pcDNA3.1+-hNIS可以实现结肠癌裸鼠模型的hNIS表达，使放射性核素显像和结肠癌放射性核素治疗成为可能。

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	张红征1
	杜凡2
	周佰林3
	文正伟1
	李焕斌1
	王玲1
	张琦1

关键词 ：人钠/碘转运体, 131I, 结肠肿瘤, 裸鼠

Abstract：Objective: To examine the feasibity of radionuclide imaging mediated by colon cancer cells (SW480) nude model transfected with a recombinant pcDNA3.1+-hNIS plasmid. Methods: pcDNA3.1+-hNIS was confirmed by restriction enzyme digestion, the hNIS gene and protein expression were detected after transfection, the SW480 cells of stably expressing hNIS were screened, the tumors nude mice model was established, then radioactive nuclide 99mTcO4- imaging was obtained. Results: After SW480 cells was transfected with pcDNA3.1+-hNIS, the hNIS gene and prote in expression were successfully detected. Radionuclide imaging was successfully mediated by colon cancer cells nude model. Conclusion: The hNIS expression can be achieved in colon nude model by the recombinant plasmid pcDNA3.1+-hNIS, and make the radionuclide imaging and radionuclide therapy of colon cancer as possible.

Key words： human sodium/iodide symporter 131I colonic neoplasms nude mice

收稿日期: 2015-03-26

通讯作者: 张琦，教授，硕士生导师，Email：wzzhangqi@126.com。

作者简介: 张红征（1984-），男，山东潍坊人，助教，硕士。

链接本文:

https://xb.wmu.edu.cn/CN/ 或 https://xb.wmu.edu.cn/CN/Y2015/V45/I11/803

[1] Jemal A, Bray F, Center MM, et al. Global cancer statistics [J]. CA Cancer J Clin, 2011, 61(2): 69-90.
[2] Kim YH, Youn H, Na J, et al. Codon-optimized human sodium iodide symporter (opt-hNIS) as a sensitive reporter and efficient therapeutic gene[J]. Theranostics, 2015, 5(1): 86-96.
[3] Terzić J, Grivennikov S, Karin E, et al. Inflammation and Colon Cancer[J]. Gastroenterology, 2010, 138(6): 2101-2114.
[4] Smit JW, Shroder-Van DEJ, Karperien M, et al. Reestablishment of in vitro and in vivo iodide uptake by transfection of the human sodium iodide symporter (hNIS) in a hNIS defective human thyroid carcinoma cell line[J]. Thyroid, 2000, 10(11): 939-943.
[5] 赵兴业, 李玮, 谭建, 等. hTERT启动子引导hNIS基因重组腺病毒介导放射性核素的裸鼠显像[J]. 天津医科大学学报, 2012, 18(4): 422-424.
[6] Gao XF, Zhou T, Chen GH, et al. Radioiodine therapy for castration-resistant prostate cancer following prostate-specific membrane antigen promoter-mediated transfer of the human sodium iodide symporter[J]. Asian J Androl, 2014, 16(1): 120-123.
[7] Faivre J, Clerc J, Gerolami R, et al. Long-term radioiodine retention and regression of liver cancer after sodium iodide symporter gene transfer in wistar rats[J]. Cancer Res, 2004,64(21): 8045-8051.
[8] Dwyer RM, Bergert ER, O’Connor MK, et al. In vivo radioiodide imaging and treatment of breast cancer xenografts after MUC1-driven expression of the sodium iodide symporter[J]. Clin Cancer Res, 2005, 11(4): 1483-1489.
[9] Yan Y, Zhang H, Zhang Y, et al. Transfection of the human sodium/iodide symporter (NIS) gene with liposomes and the expression of the NIS protein in human lung A549 cancer cells[J]. Chin J Clin Oncol, 2008, 5(1): 30-34.
[10] Zuckier LS, Dohan O, Li Y, et al. Kinetics of perrhenate uptake and comparative biodistribution of perrhenate, pertechnetate, and iodide by NaI symporter-expressing tissues in vivo[J]. J Nucl Med, 2004, 45(3): 500-507.
[11] Scholz IV, Cengic N, Baker CH, et al. Radioiodine therapy of colon cancer following tissue-specific sodium iodide symporter gene transfer[J]. Gene Ther, 2005, 12(3): 272-280.
[12] 杜凡, 周佰林, 张红征, 等. 人钠/碘转运体基因转染结肠癌SW480细胞介导放射性碘治疗的实验研究[J]. 温州医科大学学报, 2014, 44(5): 334-337.