Welsh School of Pharmacy, Cardiff University, Redwood Building, Kind Edward VII Avenue, Cathays Park, Cardiff, CF10 3NB, UK.
Breast Cancer Res Treat. 2011 Feb;125(3):659-69. doi: 10.1007/s10549-010-0857-4. Epub 2010 Mar 31.
Acquired resistance to endocrine therapy in breast cancer is a major clinical problem. Previous reports have demonstrated that cell models of acquired endocrine resistance have altered cell-matrix adhesion and a highly migratory phenotype, features which may impact on tumour spread in vivo. Focal adhesion kinase (FAK) is an intracellular kinase that regulates signalling pathways central to cell adhesion, migration and survival and its expression is frequently deregulated in breast cancer. In this study, we have used the novel FAK inhibitor PF573228 to address the role of FAK in the development of endocrine resistance. Whilst total-FAK expression was similar between endocrine-sensitive and endocrine-resistant MCF7 cells, FAK phosphorylation status (Y397 or Y861) was altered in resistance. PF573228 promoted a dose-dependent inhibition of FAK phosphorylation at Y397 but did not affect other FAK activation sites (pY407, pY576 and pY861). Endocrine-resistant cells were more sensitive to these inhibitory effects versus MCF7 (mean IC(50) for FAK pY397 inhibition: 0.43 μM, 0.05 μM and 0.13 μM for MCF7, TamR and FasR cells, respectively). Inhibition of FAK pY397 was associated with a reduction in TamR and FasR adhesion to, and migration over, matrix components. PF573228 as a single agent (0-1 μM) did not affect the growth of MCF7 cells or their endocrine-resistant counterparts. However, treatment of endocrine-sensitive cells with PF573228 and tamoxifen combined resulted in greater suppression of proliferation versus single agent treatment. Together these data suggest the importance of FAK in the process of endocrine resistance, particularly in the development of an aggressive, migratory cell phenotype and demonstrate the potential to improve endocrine response through combination treatment.
在乳腺癌中,获得性内分泌治疗耐药是一个主要的临床问题。以前的报告表明,获得性内分泌耐药的细胞模型改变了细胞-基质黏附性和高迁移表型,这些特征可能会影响肿瘤在体内的扩散。黏着斑激酶(FAK)是一种细胞内激酶,调节细胞黏附、迁移和存活的信号通路,其表达在乳腺癌中经常失调。在这项研究中,我们使用新型 FAK 抑制剂 PF573228 来研究 FAK 在内分泌耐药发展中的作用。虽然内分泌敏感和内分泌耐药 MCF7 细胞之间总 FAK 表达相似,但耐药细胞中 FAK 磷酸化状态(Y397 或 Y861)发生改变。PF573228 可剂量依赖性地抑制 FAK 在 Y397 上的磷酸化,但不影响其他 FAK 激活位点(pY407、pY576 和 pY861)。与 MCF7 相比,内分泌耐药细胞对这些抑制作用更为敏感(FAK pY397 抑制的平均 IC50:MCF7、TamR 和 FasR 细胞分别为 0.43 μM、0.05 μM 和 0.13 μM)。FAK pY397 的抑制与 TamR 和 FasR 黏附至基质成分和迁移减少有关。PF573228 作为单一药物(0-1 μM)不影响 MCF7 细胞或其内分泌耐药细胞的生长。然而,PF573228 与他莫昔芬联合处理内分泌敏感细胞可导致增殖抑制作用大于单一药物处理。这些数据表明 FAK 在内分泌耐药过程中的重要性,特别是在形成侵袭性、迁移性细胞表型方面,并且表明通过联合治疗可能改善内分泌反应。
