Department of Hematology and Medical Oncology, University Medical Center Göttingen (UMG), Göttingen, Germany.
Cell Biology Program, Memorial Sloan Kettering Cancer Center, Göttingen, Germany.
Clin Cancer Res. 2018 Jan 15;24(2):460-473. doi: 10.1158/1078-0432.CCR-17-1778. Epub 2017 Oct 30.
Angiosarcomas are soft tissue sarcomas with endothelial differentiation and vasoformative capacity. Most angiosarcomas show strong constitutive expression of the endothelial adhesion receptor CD31/PECAM-1 pointing to an important role of this molecule. However, the biological function of CD31 in angiosarcomas is unknown. The expression levels of CD31 in angiosarcoma cells and its effects on cell viability, colony formation, and chemoresistance were evaluated in human angiosarcoma clinical samples and in cell lines through isolation of CD31 and CD31 cell subsets. The redox-regulatory CD31 function linked to YAP signaling was determined using a CD31-blocking antibody and siRNA approach and was further validated in CD31-knockout endothelial cells. We found that most angiosarcomas contain a small CD31 cell population. CD31 cells had lost part of their endothelial properties and were more tumorigenic and chemoresistant than CD31 cells due to more efficient reactive oxygen species (ROS) detoxification. Active downregulation of CD31 resulted in loss of endothelial tube formation, nuclear accumulation of YAP, and YAP-dependent induction of antioxidative enzymes. Addition of pazopanib, a known enhancer of proteasomal YAP degradation resensitized CD31 cells for doxorubicin resulting in growth suppression and induction of apoptosis. Human angiosarcomas contain a small aggressive CD31 population that have lost part of their endothelial differentiation programs and are more resistant against oxidative stress and DNA damage due to intensified YAP signaling. Our finding that the addition of YAP inhibitors can resensitize CD31 cells toward doxorubicin may aid in the rational development of novel combination therapies to treat angiosarcomas. .
血管肉瘤是具有内皮分化和血管形成能力的软组织肉瘤。大多数血管肉瘤表现出强烈的内皮黏附受体 CD31/PECAM-1 的组成性表达,表明该分子的重要作用。然而,CD31 在血管肉瘤中的生物学功能尚不清楚。通过分离 CD31 和 CD31 细胞亚群,在人血管肉瘤临床样本和细胞系中评估了 CD31 在血管肉瘤细胞中的表达水平及其对细胞活力、集落形成和化学抗性的影响。使用 CD31 阻断抗体和 siRNA 方法确定了与 YAP 信号相关的氧化还原调节性 CD31 功能,并在 CD31 敲除内皮细胞中进一步验证了该功能。我们发现大多数血管肉瘤包含一小部分 CD31 细胞。CD31 细胞已经失去了部分内皮特性,由于更有效地清除活性氧 (ROS),它们比 CD31 细胞具有更强的致瘤性和化学抗性。CD31 的活性下调导致内皮管形成丧失、YAP 的核积累以及 YAP 依赖性抗氧化酶的诱导。添加帕唑帕尼,一种已知的增强蛋白酶体 YAP 降解的药物,可使 CD31 细胞对阿霉素重新敏感,导致生长抑制和凋亡诱导。人血管肉瘤包含一小部分侵袭性 CD31 细胞,这些细胞已经失去了部分内皮分化程序,由于 YAP 信号的增强,它们对氧化应激和 DNA 损伤的抵抗力更强。我们发现添加 YAP 抑制剂可以使 CD31 细胞对阿霉素重新敏感,这可能有助于合理开发新的联合治疗方法来治疗血管肉瘤。