Simigdala Nikiana, Gao Qiong, Pancholi Sunil, Roberg-Larsen Hanne, Zvelebil Marketa, Ribas Ricardo, Folkerd Elizabeth, Thompson Andrew, Bhamra Amandeep, Dowsett Mitch, Martin Lesley-Ann
The Breast Cancer Now Toby Robins Research Centre, The Institute of Cancer Research, London, SW3 6JB, UK.
Department of Chemistry, University of Oslo, 0371, Oslo, Norway.
Breast Cancer Res. 2016 Jun 1;18(1):58. doi: 10.1186/s13058-016-0713-5.
Therapies targeting estrogenic stimulation in estrogen receptor-positive (ER+) breast cancer (BC) reduce mortality, but resistance remains a major clinical problem. Molecular studies have shown few high-frequency mutations to be associated with endocrine resistance. In contrast, expression profiling of primary ER+ BC samples has identified several promising signatures/networks for targeting.
To identify common adaptive mechanisms associated with resistance to aromatase inhibitors (AIs), we assessed changes in global gene expression during adaptation to long-term estrogen deprivation (LTED) in a panel of ER+ BC cell lines cultured in 2D on plastic (MCF7, T47D, HCC1428, SUM44 and ZR75.1) or in 3D on collagen (MCF7) to model the stromal compartment. Furthermore, dimethyl labelling followed by LC-MS/MS was used to assess global changes in protein abundance. The role of target genes/proteins on proliferation, ER-mediated transcription and recruitment of ER to target gene promoters was analysed.
The cholesterol biosynthesis pathway was the common upregulated pathway in the ER+ LTED but not the ER- LTED cell lines, suggesting a potential mechanism dependent on continued ER expression. Targeting the individual genes of the cholesterol biosynthesis pathway with siRNAs caused a 30-50 % drop in proliferation. Further analysis showed increased expression of 25-hydroxycholesterol (HC) in the MCF7 LTED cells. Exogenous 25-HC or 27-HC increased ER-mediated transcription and expression of the endogenous estrogen-regulated gene TFF1 in ER+ LTED cells but not in the ER- LTED cells. Additionally, recruitment of the ER and CREB-binding protein (CBP) to the TFF1 and GREB1 promoters was increased upon treatment with 25-HC and 27-HC. In-silico analysis of two independent studies of primary ER+ BC patients treated with neoadjuvant AIs showed that increased expression of MSMO1, EBP, LBR and SQLE enzymes, required for cholesterol synthesis and increased in our in-vitro models, was significantly associated with poor response to endocrine therapy.
Taken together, these data provide support for the role of cholesterol biosynthesis enzymes and the cholesterol metabolites, 25-HC and 27-HC, in a novel mechanism of resistance to endocrine therapy in ER+ BC that has potential as a therapeutic target.
针对雌激素受体阳性(ER+)乳腺癌(BC)中雌激素刺激的疗法可降低死亡率,但耐药性仍是一个主要的临床问题。分子研究表明,很少有高频突变与内分泌耐药相关。相比之下,原发性ER+ BC样本的表达谱分析已确定了几个有前景的靶向特征/网络。
为了确定与芳香化酶抑制剂(AIs)耐药相关的常见适应性机制,我们评估了在塑料上二维培养(MCF7、T47D、HCC1428、SUM44和ZR75.1)或在胶原蛋白上三维培养(MCF7)的一组ER+ BC细胞系适应长期雌激素剥夺(LTED)过程中全局基因表达的变化,以模拟基质成分。此外,采用二甲基标记后进行液相色谱-串联质谱(LC-MS/MS)来评估蛋白质丰度的全局变化。分析了靶基因/蛋白质在增殖、ER介导的转录以及ER募集到靶基因启动子方面的作用。
胆固醇生物合成途径是ER+ LTED细胞系而非ER- LTED细胞系中共同上调的途径之一,这表明存在一种依赖于持续ER表达的潜在机制。用小干扰RNA(siRNAs)靶向胆固醇生物合成途径中的各个基因会导致增殖下降30 - 50%。进一步分析显示,MCF7 LTED细胞中25-羟基胆固醇(HC)的表达增加。外源性25-HC或27-HC可增加ER+ LTED细胞中ER介导的转录以及内源性雌激素调节基因TFF1的表达,但在ER- LTED细胞中则无此作用。此外,用25-HC和27-HC处理后,ER和CREB结合蛋白(CBP)募集到TFF1和GREB1启动子的情况增加。对两项关于接受新辅助AIs治疗的原发性ER+ BC患者的独立研究进行的计算机分析表明,胆固醇合成所需且在我们的体外模型中表达增加的MSMO1、EBP、LBR和SQLE酶的表达增加与内分泌治疗反应不佳显著相关。
综上所述,这些数据支持胆固醇生物合成酶以及胆固醇代谢产物25-HC和27-HC在ER+ BC内分泌治疗耐药新机制中的作用,该机制具有作为治疗靶点的潜力。
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