AAREC Filia Research, 1 place Paul Verlaine, 92100 Boulogne-Billancourt, France.
Cancer Chemother Pharmacol. 2013 May;71(5):1297-307. doi: 10.1007/s00280-013-2129-6. Epub 2013 Mar 12.
To evaluate first-generation rapamycin analogs (everolimus, temsirolimus, and rapamycin) and second-generation drugs inhibiting mTOR kinase (AZD-8055), PI3K (BKM-120) or both (BEZ-235 and GDC-0980) in hepatocellular carcinoma (HCC) and renal cell carcinoma (RCC) cells characterized for acquired resistance to sorafenib or sunitinib.
Anti-proliferative (MTT assay) and cell signaling (Western blot) effects of rapamycin analogs (1-20 μM) and second-generation drugs (0.03-20.0 μM) were assessed in human HCC SK-HEP1, RCC 786-0, and sorafenib- (SK-Sora) or sunitinib-resistant (786-Suni) cells.
In SK-HEP1 cells displaying high PTEN and Bcl2 expression, rapamycin analogs had poor anti-proliferative effects. However, SK-Sora cells were more sensitive to rapamycin analogs (≥1 μM) than SK-HEP1 cells. In 786-0 cells, lacking PTEN and Bcl2 expression, ≥1 μM rapamycin analogs blocked mTORC1 signaling, transiently activated Akt, and inhibited cell proliferation. Protracted sunitinib exposure in 786-Suni cells yielded an increase in p27 expression and a decreased sensitivity to rapamycin analogs, although mTORC1 function could be inhibited with rapamycin analogs. Second-generation drugs induced more potent growth inhibition than rapamycin analogs at concentrations >0.03 μM in parental cells, SK-Sora, and 786-Suni cells. Growth inhibitory concentrations of these new drugs also blocked mTORC1 downstream targets.
Rapamycin analogs inhibited mTORC1 downstream targets and yielded anti-proliferative effects in HCC and RCC cells. Second-generation drugs also appeared to be potent inhibitors of mTORC1 signaling; however, they appeared to be far more potent in inhibiting cellular proliferation in parental HCC and RCC cells and in cells developing resistance to sorafenib or sunitinib.
评估第一代雷帕霉素类似物(依维莫司、替西罗莫司和雷帕霉素)和抑制 mTOR 激酶的第二代药物(AZD-8055、BKM-120)或同时抑制两者(BEZ-235 和 GDC-0980)在索拉非尼或舒尼替尼耐药的人肝癌(HCC)和肾细胞癌(RCC)细胞中的作用。
采用 MTT 法检测雷帕霉素类似物(1-20 μM)和第二代药物(0.03-20.0 μM)对人 HCC SK-HEP1、RCC 786-0 以及索拉非尼耐药(SK-Sora)或舒尼替尼耐药(786-Suni)细胞的增殖抑制作用和细胞信号转导(Western blot)作用。
在高表达 PTEN 和 Bcl2 的 SK-HEP1 细胞中,雷帕霉素类似物的增殖抑制作用较差。然而,SK-Sora 细胞对雷帕霉素类似物(≥1 μM)比 SK-HEP1 细胞更敏感。在缺乏 PTEN 和 Bcl2 表达的 786-0 细胞中,≥1 μM 的雷帕霉素类似物可阻断 mTORC1 信号转导,短暂激活 Akt,并抑制细胞增殖。在 786-Suni 细胞中,持续暴露于舒尼替尼会导致 p27 表达增加和对雷帕霉素类似物的敏感性降低,尽管雷帕霉素类似物可抑制 mTORC1 功能。与雷帕霉素类似物相比,在亲本细胞、SK-Sora 和 786-Suni 细胞中,浓度大于 0.03 μM 的第二代药物诱导了更强的生长抑制作用。这些新药的生长抑制浓度也阻断了 mTORC1 下游靶点。
雷帕霉素类似物抑制 mTORC1 下游靶点,并在 HCC 和 RCC 细胞中产生增殖抑制作用。第二代药物似乎也是 mTORC1 信号的有效抑制剂;然而,它们在抑制亲本 HCC 和 RCC 细胞以及对索拉非尼或舒尼替尼耐药的细胞的增殖方面似乎更为有效。
