Pfizer Inc., Oncology Research and Development, Pearl River, New York.
Pfizer Inc., Biomedicine Design, Groton, Connecticut.
Mol Cancer Ther. 2018 Jan;17(1):243-253. doi: 10.1158/1535-7163.MCT-17-0403. Epub 2017 Oct 20.
Trastuzumab emtansine (T-DM1) is an antibody-drug conjugate (ADC) that has demonstrated clinical benefit for patients with HER2 metastatic breast cancer; however, its clinical activity is limited by inherent or acquired drug resistance. The molecular mechanisms that drive clinical resistance to T-DM1, especially in HER2 tumors, are not well understood. We used HER2 cell lines to develop models of T-DM1 resistance using a cyclical dosing schema in which cells received T-DM1 in an "on-off" routine until a T-DM1-resistant population was generated. T-DM1-resistant N87 cells (N87-TM) were cross-resistant to a panel of trastuzumab-ADCs (T-ADCs) with non-cleavable-linked auristatins. N87-TM cells do not have a decrease in HER2 protein levels or an increase in drug transporter protein (e.g., MDR1) expression compared with parental N87 cells. Intriguingly, T-ADCs using auristatin payloads attached via an enzymatically cleavable linker overcome T-DM1 resistance in N87-TM cells. Importantly, N87-TM cells implanted into athymic mice formed T-DM1 refractory tumors that remain sensitive to T-ADCs with cleavable-linked auristatin payloads. Comparative proteomic profiling suggested enrichment in proteins that mediate caveolae formation and endocytosis in the N87-TM cells. Indeed, N87-TM cells internalize T-ADCs into intracellular caveolin-1 (CAV1)-positive puncta and alter their trafficking to the lysosome compared with N87 cells. T-DM1 colocalization into intracellular CAV1-positive puncta correlated with reduced response to T-DM1 in a panel of HER2 cell lines. Together, these data suggest that caveolae-mediated endocytosis of T-DM1 may serve as a novel predictive biomarker for patient response to T-DM1. .
曲妥珠单抗-美坦新偶联物(T-DM1)是一种抗体药物偶联物(ADC),已证明其对 HER2 转移性乳腺癌患者具有临床获益;然而,其临床活性受到固有或获得性耐药的限制。导致 T-DM1 临床耐药的分子机制,特别是在 HER2 肿瘤中,尚不清楚。我们使用 HER2 细胞系,采用周期性给药方案建立 T-DM1 耐药模型,在此方案中,细胞接受 T-DM1 的“开-关”常规治疗,直到产生 T-DM1 耐药群体。T-DM1 耐药 N87 细胞(N87-TM)对一组曲妥珠单抗-ADC(T-ADC)具有交叉耐药性,这些 ADC 含有不可切割连接的 auristatins。与亲本 N87 细胞相比,N87-TM 细胞的 HER2 蛋白水平没有下降,药物转运蛋白(例如 MDR1)表达也没有增加。有趣的是,使用通过酶切连接子连接的 auristatin 有效载荷的 T-ADC 克服了 N87-TM 细胞中的 T-DM1 耐药性。重要的是,植入裸鼠的 N87-TM 细胞形成了对 T-DM1 具有耐药性的肿瘤,但对具有可切割连接 auristatin 有效载荷的 T-ADC 仍然敏感。比较蛋白质组学分析表明,N87-TM 细胞中富含介导质膜小窝形成和内吞作用的蛋白。事实上,与 N87 细胞相比,N87-TM 细胞将 T-ADC 内化到细胞内的 caveolin-1(CAV1)阳性斑点中,并改变它们向溶酶体的运输。T-DM1 与细胞内 CAV1 阳性斑点的共定位与一系列 HER2 细胞系中对 T-DM1 反应的降低相关。总之,这些数据表明 T-DM1 的小窝介导内吞作用可能成为预测患者对 T-DM1 反应的新型生物标志物。
