辐射和化学诱导的结肠癌细胞多药耐药性。

Radiation- and chemoinduced multidrug resistance in colon carcinoma cells.

作者信息

Bartkowiak Detlef, Stempfhuber Michael, Wiegel Thomas, Bottke Dirk

机构信息

Department of Radiotherapy and Radiooncology, University of Ulm, Ulm, Germany.

出版信息

Strahlenther Onkol. 2009 Dec;185(12):815-20. doi: 10.1007/s00066-009-1993-9.

DOI:10.1007/s00066-009-1993-9

PMID:20013091

Abstract

BACKGROUND AND PURPOSE

Radiation can induce multidrug resistance (MDR) and thus interfere with simultaneous or subsequent chemotherapy. In SW620 colon carcinoma cells, the interrelation of various biological endpoints of MDR was analyzed and the potential of fractionated irradiation and chemoselection to evoke MDR was compared.

MATERIAL AND METHODS

To induce/select an MDR phenotype, SW620 were exposed to either 27 Gy in 1.8-Gy daily fractions or to 50% inhibiting concentrations of doxorubicin or cisplatin, given over 6-15 weeks. Expression of genes involved in MDR, including glutathione metabolism, was determined by semiquantitative RT-PCR (reverse transcription-polymerase chain reaction). Efflux was analyzed by flow cytometry after staining with rhodamine-123 or 5-chloromethyl fluorescein diacetate. Apoptosis was monitored after pulse exposure to doxorubicin or cisplatin. Colony-forming assays were performed under continuous drug exposure.

RESULTS

A pronounced gene induction was found in MRP2 after cisplatin selection and up to 3 weeks after radiation. LRP was activated only shortly after radiation. Radiation enhanced rhodamine-123 efflux to a similar extent as short-term chemoselection but not as much as long-term drug exposure. Drug-induced apoptosis was slightly delayed in preirradiated cells. Clonogenic growth in the progeny of irradiated cells was less sensitive to cisplatin but not to doxorubicin.

CONCLUSION

Fractionated radiation can induce an MDR phenotype in SW620. However, long-term drug exposure establishes a more efficient selection. Various endpoints are not fully concordant regarding the extent of MDR. Posttranscriptional modifications, pleiotropic regulation, and alternative pathways may cause these discrepancies.

摘要

背景与目的

辐射可诱导多药耐药（MDR），从而干扰同步或后续化疗。在SW620结肠癌细胞中，分析了MDR各种生物学终点之间的相互关系，并比较了分次照射和化学选择诱导MDR的潜力。

材料与方法

为诱导/选择MDR表型，将SW620细胞每日以1.8 Gy的剂量照射27 Gy，或在6至15周内给予50%抑制浓度的阿霉素或顺铂。通过半定量逆转录聚合酶链反应（RT-PCR）测定参与MDR的基因表达，包括谷胱甘肽代谢相关基因。用罗丹明-123或5-氯甲基荧光素二乙酸酯染色后，通过流式细胞术分析药物外排。在脉冲暴露于阿霉素或顺铂后监测细胞凋亡。在持续药物暴露下进行集落形成试验。

结果

顺铂选择后及辐射后长达3周，MRP2基因有明显诱导。LRP仅在辐射后短时间内被激活。辐射增强罗丹明-123外排的程度与短期化学选择相似，但不如长期药物暴露。预照射细胞中药物诱导的凋亡略有延迟。照射细胞后代的克隆生长对顺铂不太敏感，但对阿霉素不敏感。

结论

分次辐射可在SW620细胞中诱导MDR表型。然而，长期药物暴露能建立更有效的选择。关于MDR程度，各种终点并不完全一致。转录后修饰、多效性调节和替代途径可能导致这些差异。

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辐射和化学诱导的结肠癌细胞多药耐药性。

Radiation- and chemoinduced multidrug resistance in colon carcinoma cells.

作者信息

机构信息

出版信息

BACKGROUND AND PURPOSE

MATERIAL AND METHODS

RESULTS

CONCLUSION

背景与目的

材料与方法

结果

结论

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