Leroux M E, Auzenne E, Evans R, Hail N, Spohn W, Ghosh S C, Farquhar D, McDonnell T, Klostergaard J
Department of Molecular and Cellular Oncology, The University of Texas, MD Anderson Cancer Center, Houston, TX 77030, USA.
Prostate. 2007 Nov 1;67(15):1699-717. doi: 10.1002/pros.20645.
Elevated BCL-2 is one mechanism of therapeutic resistance in prostate cancer (PC), and new approaches are needed to overcome such resistance.
We evaluated the effects of BCL-2 over-expression in human prostatic adenocarcinoma cells on their susceptibility to sphingolipids (SLs) and to the sphingosine kinase (SpK) inhibitor, SKI II.
In survival assays, no significant differences were observed in the responses to sphingosine or ceramide among parental PC-3 cells lacking detectable BCL-2 and BCL-2 over-expressing PC-3 transfectants; similarly, the responses to dimethyl-sphingosine (DMSP) of parental LNCaP cells and a BCL-2 over-expressing LNCaP transfectant were equivalent. SKI II induced protracted, BCL-2-independent survival loss in both PC-3 and LNCaP parental/transfectant pairs; in contrast, DMSP induced rapid cell shrinkage, caspase activation and caspase-dependent DNA fragmentation. DMSP-induced DNA fragmentation and loss of mitochondrial membrane potential were equivalent in BCL-2 transfectants and parental PC-3 cells and were not associated with BCL-2 downregulation. DMSP-mediated cytotoxicity was not associated with the enhanced production of reactive oxygen intermediates. SL analyses of parental and transfectant PC-3 cells did not reveal increased levels of sphingosine-1-phosphate in the BCL-2 transfectants; further, there only a modest early shift, corresponding to apoptotic onset, in pro- versus anti-apoptotic SLs in response to DMSP treatment.
Thus, in contrast to the inhibitory effects of BCL-2 on apoptosis induced by various agents in tumor cells, SKI II and selected pro-apoptotic SLs appear atypical in their independence from such inhibition, and may have merits as new candidates for treatment of AI PC.
BCL-2水平升高是前列腺癌(PC)治疗耐药的一种机制,需要新的方法来克服这种耐药性。
我们评估了人前列腺腺癌细胞中BCL-2过表达对其对鞘脂(SLs)和鞘氨醇激酶(SpK)抑制剂SKI II敏感性的影响。
在生存分析中,未检测到BCL-2的亲代PC-3细胞与过表达BCL-2的PC-3转染细胞对鞘氨醇或神经酰胺的反应无显著差异;同样,亲代LNCaP细胞和过表达BCL-2的LNCaP转染细胞对二甲基鞘氨醇(DMSP)的反应相当。SKI II在PC-3和LNCaP亲代/转染细胞对中均诱导了持久的、不依赖BCL-2的生存丧失;相反,DMSP诱导细胞迅速收缩、半胱天冬酶激活和半胱天冬酶依赖性DNA片段化。在BCL-2转染细胞和亲代PC-3细胞中,DMSP诱导的DNA片段化和线粒体膜电位丧失相当,且与BCL-2下调无关。DMSP介导的细胞毒性与活性氧中间体的产生增加无关。对亲代和转染的PC-3细胞进行的鞘脂分析未发现BCL-2转染细胞中鞘氨醇-1-磷酸水平升高;此外,在DMSP处理后,促凋亡与抗凋亡鞘脂仅出现适度的早期变化,对应于凋亡开始。
因此,与BCL-2对肿瘤细胞中各种药物诱导的凋亡的抑制作用相反,SKI II和选定的促凋亡鞘脂似乎在独立性上不依赖这种抑制,可能作为治疗雄激素非依赖性前列腺癌的新候选药物具有优势。
