Muramaki Mototsugu, So Alan, Hayashi Norihiro, Sowery Richard, Miyake Hideaki, Fujisawa Masato, Gleave Martin E
The Prostate Centre, Vancouver General Hospital, Vancouver, British Columbia, Canada.
BJU Int. 2009 Feb;103(3):384-90. doi: 10.1111/j.1464-410X.2008.08098.x. Epub 2008 Oct 24.
To characterize changes in clusterin (sCLU-2) expression in bladder cancer cells after continuous treatment with gemcitabine and to determine whether knockdown of sCLU-2 can re-introduce sensitivity of gemcitabine-resistant cells to treatment with gemcitabine.
A human bladder cancer cell line, UM-UC-3, was continuously exposed to increasing doses of gemcitabine in vitro, and a gemcitabine-resistant cell line UM-UC-3R was developed. The role of sCLU-2 in chemoresistant phenotype acquired in both in vitro and in vivo was then analysed using antisense oligonucleotide targeting the sCLU-2 gene (OGX-011).
Treatment of parental UM-UC-3 cells (UM-UC-3P) with gemcitabine induced transient up-regulation of sCLU-2 protein. There was a sustained increase in sCLU-2 expression levels in UM-UC-3R compared with UM-UC-3P cells (6.4-fold). Treatment of UM-UC-3R cells with OGX-011 resulted in a dose-dependent and sequence- specific inhibition in sCLU-2 expression. Furthermore, OGX-011 chemo-sensitized UM-UC-3R cells to gemcitabine in vitro with a reduction in the concentration that reduces the effect by 50% (IC50) from 100 nm to 10 nm. Tumour volume and the incidence of metastasis in nude mice injected with UM-UC-3R cells was significantly greater than those of nude mice injected with UM-UC-3P cells; however, systemic administration of OGX-011 plus a low dose of gemcitabine significantly suppressed tumour volume and the incidence of metastasis in both groups.
These findings suggest that sCLU-2 plays a significant role in the acquisition of chemoresistant phenotype in bladder cancer cells and the knockdown of sCLU-2 using OGX-011 combined with a chemotherapeutic agent could be an attractive approach for advanced bladder cancer through the enhancement of chemosensitivity.
表征吉西他滨持续处理后膀胱癌细胞中聚集素(sCLU-2)表达的变化,并确定sCLU-2的敲低是否能使吉西他滨耐药细胞重新恢复对吉西他滨治疗的敏感性。
在体外将人膀胱癌细胞系UM-UC-3持续暴露于递增剂量的吉西他滨,构建出吉西他滨耐药细胞系UM-UC-3R。然后使用靶向sCLU-2基因的反义寡核苷酸(OGX-011)分析sCLU-2在体外和体内获得的化疗耐药表型中的作用。
用吉西他滨处理亲本UM-UC-3细胞(UM-UC-3P)可诱导sCLU-2蛋白短暂上调。与UM-UC-3P细胞相比,UM-UC-3R中sCLU-2表达水平持续升高(6.4倍)。用OGX-011处理UM-UC-3R细胞导致sCLU-2表达呈剂量依赖性和序列特异性抑制。此外,OGX-011在体外使UM-UC-3R细胞对吉西他滨化疗增敏,使将效应降低50%的浓度(IC50)从100 nM降至10 nM。注射UM-UC-3R细胞的裸鼠的肿瘤体积和转移发生率显著高于注射UM-UC-3P细胞的裸鼠;然而,全身给予OGX-011加低剂量吉西他滨可显著抑制两组的肿瘤体积和转移发生率。
这些发现表明sCLU-2在膀胱癌细胞获得化疗耐药表型中起重要作用,使用OGX-011联合化疗药物敲低sCLU-2可能是通过增强化疗敏感性治疗晚期膀胱癌的一种有吸引力的方法。
