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肿瘤来源的外泌体在血管生成中的潜在作用。

Potential roles of tumor-derived exosomes in angiogenesis.

机构信息

a Department of Pathology , University of Pittsburgh School of Medicine , Pittsburgh , PA , USA.

c UPMC Hillman Cancer Center , Pittsburgh , PA , USA.

出版信息

Expert Opin Ther Targets. 2018 May;22(5):409-417. doi: 10.1080/14728222.2018.1464141. Epub 2018 Apr 26.

DOI:10.1080/14728222.2018.1464141
PMID:29634426
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6126896/
Abstract

Tumor-derived exosomes (TEX) and their role in tumor progression by accelerating angiogenesis are of great current interest. A better understanding of the mechanisms underlying TEX-blood vessels cross-talk may lead to improvements in current diagnosis, prognosis and treatment of cancer. Areas covered: For solid tumors, an adequate blood supply is of critical importance for their development, growth and metastasis. TEX, virus-size vesicles which circulate freely throughout body fluids and accumulate in the tumor microenvironment (TME), have been recognized as a new contributor to angiogenesis. TEX serve as a communication system between the tumor and various normal cells and are responsible for functional reprogramming of these cells. The molecular and genetic cargos that TEX deliver to the recipient cells involved in angiogenesis promote its induction and progression. The targeted inhibition of TEX pro-angiogenic functions might be a novel therapeutic approach for control of tumor progression. Expert opinion: TEX circulating in body fluids of cancer patients carry a complex molecular and genetic cargo and are responsible for phenotypic and functional reprogramming of endothelial cells and other normal cells residing in the TME.

摘要

肿瘤来源的外泌体(TEX)及其通过加速血管生成在肿瘤进展中的作用引起了极大的关注。更好地了解 TEX-血管相互作用的机制可能会导致当前癌症诊断、预后和治疗的改善。

涵盖领域

对于实体瘤,充足的血液供应对其发展、生长和转移至关重要。TEX 是一种自由循环于体液并在肿瘤微环境(TME)中积累的病毒大小的囊泡,已被认为是血管生成的新贡献者。TEX 作为肿瘤与各种正常细胞之间的通讯系统,负责这些细胞的功能重编程。TEX 传递给参与血管生成的受体细胞的分子和遗传物质负荷促进了其诱导和进展。靶向抑制 TEX 的促血管生成功能可能是控制肿瘤进展的一种新的治疗方法。

专家意见

在癌症患者的体液中循环的 TEX 携带复杂的分子和遗传物质负荷,负责对内皮细胞和其他驻留在 TME 中的正常细胞进行表型和功能重编程。

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