A review of the development of tumor vasculature and its effects on the tumor microenvironment.

Hypoxia (Auckland, N.Z.) Pub Date : 2017-04-11 eCollection Date: 2017-01-01 DOI:10.2147/HP.S133231
Jake C Forster, Wendy M Harriss-Phillips, Michael Jj Douglass, Eva Bezak
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引用次数: 186

Abstract

Background: The imbalance of angiogenic regulators in tumors drives tumor angiogenesis and causes the vasculature to develop much differently in tumors than in normal tissue. There are several cancer therapy techniques currently being used and developed that target the tumor vasculature for the treatment of solid tumors. This article reviews the aspects of the tumor vasculature that are relevant to most cancer therapies but particularly to vascular targeting techniques.

Materials and methods: We conducted a review of identified experiments in which tumors were transplanted into animals to study the development of the tumor vasculature with tumor growth. Quantitative vasculature morphology data for spontaneous human head and neck cancers are reviewed. Parameters assessed include the highest microvascular density (h-MVD) and the relative vascular volume (RVV). The effects of the vasculature on the tumor microenvironment are discussed, including the distributions of hypoxia and proliferation.

Results: Data for the h-MVD and RVV in head and neck cancers are highly varied, partly due to methodological differences. However, it is clear that the cancers are typically more vascularized than the corresponding normal tissue. The commonly observed chronic hypoxia and acute hypoxia in these tumors are due to high intratumor heterogeneity in MVD and lower than normal blood oxygenation levels through the abnormally developed tumor vasculature. Hypoxic regions are associated with decreased cell proliferation.

Conclusion: The morphology of the vasculature strongly influences the tumor microenvironment, with important implications for tumor response to medical intervention such as radiotherapy. Quantitative vasculature morphology data herein may be used to inform computational models that simulate the spatial tumor vasculature. Such models may play an important role in exploring and optimizing vascular targeting cancer therapies.

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肿瘤血管的发展及其对肿瘤微环境的影响。
背景:肿瘤中血管生成调节因子的失衡驱动肿瘤血管生成,导致肿瘤血管的发育与正常组织有很大不同。目前有几种针对肿瘤血管系统的肿瘤治疗技术正在使用和发展。本文综述了与大多数癌症治疗相关的肿瘤脉管系统的各个方面,特别是血管靶向技术。材料和方法:我们回顾了已确定的肿瘤移植到动物体内的实验,以研究肿瘤生长过程中肿瘤血管的发育。本文综述了人类自发性头颈癌的定量血管形态学数据。评估的参数包括最高微血管密度(h-MVD)和相对血管体积(RVV)。讨论了血管对肿瘤微环境的影响,包括缺氧和增殖的分布。结果:头颈癌患者的h-MVD和RVV数据差异很大,部分原因是方法学的差异。然而,很明显,癌症通常比相应的正常组织血管化得更多。在这些肿瘤中常见的慢性缺氧和急性缺氧是由于肿瘤内MVD的高度异质性和通过异常发育的肿瘤血管而低于正常的血氧水平。缺氧区与细胞增殖减少有关。结论:血管形态强烈影响肿瘤微环境,对肿瘤对放射治疗等医疗干预的反应具有重要意义。这里的定量血管形态数据可用于告知模拟空间肿瘤血管的计算模型。这些模型可能在探索和优化血管靶向肿瘤治疗中发挥重要作用。
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