*Department of Hematology/Oncology Research, Amgen Inc., Seattle, Washington; and †Therapeutic Innovation Unit, Amgen Inc., Seattle, Washington.
J Thorac Oncol. 2014 Mar;9(3):345-54. doi: 10.1097/JTO.0000000000000070.
Bone metastasis is a serious complication in patients with lung cancer, occurring in up to 40% of patients. Tumor cell-mediated osteolysis occurs ultimately through induction of RANK ligand (RANKL) within the bone stroma although this hypothesis has not been tested extensively in the setting of non-small-cell lung cancer (NSCLC). By using two novel NSCLC bone metastasis mouse models, we examined the effects of RANKL inhibition on osteolysis and tumor progression.
We treated mice bearing skeletal NSCLC tumors with osteoprotegerin-Fc (OPG-Fc) to assess whether osteoclast inhibition through RANKL inhibition would affect bone metastases at early or late stages of bone colonization. Progression of skeletal tumor was determined by radiography, longitudinal bioluminescent imaging, and histological analyses.
OPG-Fc reduced development and progression of radiographically evident osteolytic lesions and also significantly reduced skeletal tumor progression in both NSCLC bone metastasis models. In the H1299 human NSCLC bone metastasis model, OPG-Fc plus docetaxel in combination resulted in significantly greater inhibition of skeletal tumor growth compared with either single agent alone. The observed ability of RANKL inhibition to reduce NSCLC osteolytic bone destruction or skeletal tumor burden was associated with decreases in tumor-associated osteoclasts.
These results demonstrate that RANKL is required for the development of tumor-induced osteolytic bone destruction caused by NSCLC cells in vivo. RANKL inhibition also reduced skeletal tumor burden, presumably through the indirect mechanism of blocking tumor-induced osteoclastogenesis and resultant production of growth factors and calcium from the bone microenvironment. RANKL inhibition also provided an additive benefit to docetaxel treatment by augmenting the reduction of tumor burden.
骨转移是肺癌患者的严重并发症,高达 40%的患者会发生骨转移。肿瘤细胞介导的溶骨性作用最终通过在骨基质中诱导核因子κB 受体激活配体(RANKL)来实现,尽管这一假说尚未在非小细胞肺癌(NSCLC)中得到广泛验证。通过使用两种新型 NSCLC 骨转移小鼠模型,我们研究了 RANKL 抑制对溶骨性作用和肿瘤进展的影响。
我们用骨保护素-Fc(OPG-Fc)治疗患有骨骼 NSCLC 肿瘤的小鼠,以评估通过 RANKL 抑制抑制破骨细胞是否会影响骨骼定植早期或晚期的骨转移。通过放射学、纵向生物发光成像和组织学分析来确定骨骼肿瘤的进展情况。
OPG-Fc 减少了影像学上明显的溶骨性病变的发展和进展,并且在两种 NSCLC 骨转移模型中也显著减少了骨骼肿瘤的进展。在 H1299 人 NSCLC 骨转移模型中,与单一药物治疗相比,OPG-Fc 加多西他赛联合治疗导致骨骼肿瘤生长的抑制作用显著增加。观察到的 RANKL 抑制减少 NSCLC 溶骨性骨破坏或骨骼肿瘤负担的能力与肿瘤相关破骨细胞的减少有关。
这些结果表明,RANKL 是 NSCLC 细胞在体内诱导溶骨性骨破坏所必需的。RANKL 抑制还降低了骨骼肿瘤负担,推测是通过阻断肿瘤诱导的破骨细胞生成以及由此产生的生长因子和钙从骨微环境中的间接机制。RANKL 抑制还通过增强对肿瘤负担的减少为多西他赛治疗提供了附加益处。
