Cancer Biology Program, Sidney Kimmel Comprehensive Cancer Center, Johns Hopkins University School of Medicine, Baltimore, MD.
Int J Cancer. 2014 Feb 1;134(3):596-605. doi: 10.1002/ijc.28390. Epub 2013 Aug 24.
Phenotypic differences among cancers with the same origin may be associated with chemotherapy response. CHFR silencing associated with DNA methylation has been suggested to be predictive of taxane sensitivity in diverse tumor types. However, the use of microsatellite instability (MSI:unstable-MSS:stable) as a predictive marker for therapeutic effect has had conflicting results. We examined these molecular alterations as predictors of chemotherapy sensitivity in colorectal cancer (CRC). Differential sensitivity to docetaxel and gemcitabine was compared to potential predictive biomarkers CHFR methylation and MSI status. Cell lines that were MSI-H/CHFR-methylated, MSS/CHFR-methylated and MSS/CHFR-unmethylated were assessed for in vivo sensitivity of CRC cell line xenografts to docetaxel and/or gemcitabine. We observed increased sensitivity in vitro to gemcitabine in cell lines with MSI and docetaxel in cell lines with CHFR inactivation via DNA methylation. In vivo treatment of human xenografts confirmed differential sensitivity, with the MSI-H/CHFR-methylated line RKO having tumor growth inhibition to each agent, and at least additive tumor growth inhibition with combination therapy. The MSS-CHFR-unmethylated line, CACO2 , was resistant to single and combination therapy, while COLO205, the MSS/CHFR-methylated line, showed tumor growth inhibition with docetaxel, but not gemcitabine, therapy. CHFR methylation in CRC cell lines predicted for sensitivity in vitro and in vivo to docetaxel, while MSI-H cell lines were more sensitive to gemcitabine. These data suggest that a subset of CRC patients would be selectively sensitive to a novel combination of gemcitabine and docetaxel, and are the basis for an ongoing clinical trial of this combination in a biomarker-selected patient population.
具有相同起源的癌症之间的表型差异可能与化疗反应有关。已有研究表明,与 DNA 甲基化相关的 CHFR 沉默可能是预测多种肿瘤类型紫杉烷敏感性的指标。然而,微卫星不稳定性(MSI:不稳定-MSS:稳定)作为治疗效果的预测标志物的应用结果存在争议。我们研究了这些分子改变作为结直肠癌(CRC)化疗敏感性的预测指标。比较了对多西紫杉醇和吉西他滨的差异敏感性与潜在的预测生物标志物 CHFR 甲基化和 MSI 状态。评估了 MSI-H/CHFR-甲基化、MSS/CHFR-甲基化和 MSS/CHFR-未甲基化的细胞系对 CRC 细胞系异种移植物对多西紫杉醇和/或吉西他滨的体内敏感性。我们观察到 MSI 细胞系中吉西他滨和 CHFR 失活通过 DNA 甲基化的细胞系中多西紫杉醇的体外敏感性增加。人异种移植物的体内治疗证实了差异敏感性,MSI-H/CHFR-甲基化的 RKO 细胞系对每种药物均具有肿瘤生长抑制作用,并且联合治疗具有至少相加的肿瘤生长抑制作用。MSS-CHFR-未甲基化的 CACO2 细胞系对单药和联合治疗均具有耐药性,而 MSS/CHFR-甲基化的 COLO205 细胞系对多西紫杉醇具有肿瘤生长抑制作用,但对吉西他滨无作用。CRC 细胞系中的 CHFR 甲基化预测了体外和体内对多西紫杉醇的敏感性,而 MSI-H 细胞系对吉西他滨更敏感。这些数据表明,一部分 CRC 患者将对吉西他滨和多西紫杉醇的新型联合治疗具有选择性敏感性,这是正在进行的在生物标志物选择的患者人群中进行该联合治疗的临床试验的基础。
