The role of the tumor-microenvironment in lung cancer-metastasis and its relationship to potential therapeutic targets

静脉注射 转移 医学 间质细胞 肿瘤微环境 肺癌 旁分泌信号 癌症研究 自分泌信号 原发性肿瘤 癌细胞 癌症干细胞 癌症 血管生成 内科学 病理 受体
作者
Steven L. Wood,Maria Pernemalm,Philip Crosbie,Anthony D. Whetton
出处
期刊:Cancer Treatment Reviews [Elsevier BV]
卷期号:40 (4): 558-566 被引量:501
标识
DOI:10.1016/j.ctrv.2013.10.001
摘要

Non-small cell lung cancer (NSCLC) accounts for >80% of lung cancer cases and currently has an overall five-year survival rate of only 15%. Patients presenting with advanced stage NSCLC die within 18-months of diagnosis. Metastatic spread accounts for >70% of these deaths. Thus elucidation of the mechanistic basis of NSCLC-metastasis has potential to impact on patient quality of life and survival. Research on NSCLC metastasis has recently expanded to include non-cancer cell components of tumors-the stromal cellular compartment and extra-cellular matrix components comprising the tumor-microenvironment. Metastasis (from initial primary tumor growth through angiogenesis, intravasation, survival in the bloodstream, extravasation and metastatic growth) is an inefficient process and few released cancer cells complete the entire process. Micro-environmental interactions assist each of these steps and discovery of the mechanisms by which tumor cells co-operate with the micro-environment are uncovering key molecules providing either biomarkers or potential drug targets. The major sites of NSCLC metastasis are brain, bone, adrenal gland and the liver. The mechanistic basis of this tissue-tropism is beginning to be elucidated offering the potential to target stromal components of these tissues thus targeting therapy to the tissues affected. This review covers the principal steps involved in tumor metastasis. The role of cell-cell interactions, ECM remodeling and autocrine/paracrine signaling interactions between tumor cells and the surrounding stroma is discussed. The mechanistic basis of lung cancer metastasis to specific organs is also described. The signaling mechanisms outlined have potential to act as future drug targets minimizing lung cancer metastatic spread and morbidity.
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