A gene therapy approach to enhance the targeted radiotherapy of neuroblastoma.

Medical and pediatric oncology Pub Date : 2000-12-01 DOI:10.1002/1096-911x(20001201)35:6<708::aid-mpo49>3.0.co;2-f

S Cunningham, M Boyd, M M Brown, S Carlin, A McCluskey, A Livingstone, R J Mairs, T E Wheldon

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引用次数: 24

Abstract

Background: The aims of this study were to determine whether the introduction and expression of the noradrenaline transporter (NAT) gene into NAT-negative neuroblastoma cell lines would make them amenable to targeted radiotherapy using [(131)I]MIBG.

Procedure: Neuroblastoma cell lines were transfected with a eukaryotic expression vector containing the bovine noradrenaline transporter cDNA under the expression of the CMV promoter. Stable transfectants were created by selection in geneticin (G418) and were characterised for their MIBG uptake ability and susceptibility to [(131)I]MIBG therapy.

Results: The cell line SK-N-MC, which normally shows no ability to take up MIBG, was successfully transfected with bNAT. SK-N-MC.bNAT transfectants exhibited uptake and release kinetics similar to those of the natural NAT-expressing cell line SK-N-BE(2c). Levels of [(131)I]MIBG uptake were 33% of those of the highest naturally NAT-expressing cell line SK-N-BE(2c). Growth delay assays using multicellular spheroids indicated that this degree of [(131)I]MIBG uptake was sufficient to inhibit growth at radioactive concentrations of 4 Mbq/ml.

Conclusions: These results demonstrate the feasibility of combining gene therapy with targeted radiotherapy to enhance uptake, and hence radiation dose, to neuroblastoma tumours using [(131)I]MIBG. With the appropriate delivery vehicle and tumour-specific control of expression, the introduction of noradrenaline transporter molecules may be a viable means of enhancing the response of neuroblastoma tumours to [(131)I]MIBG therapy.

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增强神经母细胞瘤靶向放疗的基因治疗方法。

背景:本研究的目的是确定在NAT阴性的神经母细胞瘤细胞系中引入和表达去甲肾上腺素转运蛋白(NAT)基因是否会使它们适应使用[(131)I]MIBG进行靶向放疗。方法:用含有牛去甲肾上腺素转运蛋白cDNA的真核表达载体转染神经母细胞瘤细胞系，表达巨细胞病毒启动子。通过遗传蛋白(G418)的选择创造了稳定的转染物，并以其MIBG摄取能力和对[(131)I]MIBG治疗的敏感性为特征。结果:正常情况下不能吸收MIBG的细胞株SK-N-MC成功转染了bNAT。SK-N-MC。bNAT转染表现出与天然表达nat的细胞系SK-N-BE相似的摄取和释放动力学(2c)。[(131)I]MIBG摄取水平是天然表达最高的nk - n - be细胞系的33% (2c)。使用多细胞球体进行的生长延迟试验表明，在放射性浓度为4 Mbq/ml时，这种[(131)I]MIBG摄取程度足以抑制生长。结论:这些结果证明了基因治疗与靶向放疗联合使用[(131)I]MIBG增强神经母细胞瘤肿瘤的吸收，从而增强辐射剂量的可行性。通过适当的递送载体和肿瘤特异性表达控制，引入去甲肾上腺素转运蛋白分子可能是增强神经母细胞瘤肿瘤对MIBG治疗反应的一种可行手段[(131)1]。

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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Medical and pediatric oncology

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