Kim Jiyun, Tanner Kandice
Laboratory of Cell Biology, Center for Cancer Research, National Cancer Institute, National Institutes of Health , Bethesda, MD , USA ; Nano System Institute, Seoul National University , Seoul , South Korea.
Laboratory of Cell Biology, Center for Cancer Research, National Cancer Institute, National Institutes of Health , Bethesda, MD , USA.
Front Oncol. 2015 Jul 29;5:170. doi: 10.3389/fonc.2015.00170. eCollection 2015.
Advances in cancer research have shown that a tumor can be likened to a foreign species that disrupts delicately balanced ecological interactions, compromising the survival of normal tissue ecosystems. In efforts to mitigate tumor expansion and metastasis, experimental approaches from ecology are becoming more frequently and successfully applied by researchers from diverse disciplines to reverse engineer and re-engineer biological systems in order to normalize the tumor ecosystem. We present a review on the use of 3D biomimetic platforms to recapitulate biotic and abiotic components of the tumor ecosystem, in efforts to delineate the underlying mechanisms that drive evolution of tumor heterogeneity, tumor dissemination, and acquisition of drug resistance.
癌症研究的进展表明,肿瘤可以被比作一种外来物种,它扰乱了微妙平衡的生态相互作用,危及正常组织生态系统的生存。为了减轻肿瘤的扩张和转移,来自不同学科的研究人员越来越频繁且成功地应用生态学的实验方法来逆向工程和重新设计生物系统,以使肿瘤生态系统正常化。我们综述了三维仿生平台在重现肿瘤生态系统的生物和非生物成分方面的应用,以努力阐明驱动肿瘤异质性演变、肿瘤播散和获得耐药性的潜在机制。