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在放射性血管肉瘤中存在一致的 MYC 和 FLT4 基因扩增,但在其他放射性相关的非典型血管病变中不存在。

Consistent MYC and FLT4 gene amplification in radiation-induced angiosarcoma but not in other radiation-associated atypical vascular lesions.

机构信息

Department of Pathology, Memorial Sloan-Kettering Cancer Center, New York, NY, USA.

出版信息

Genes Chromosomes Cancer. 2011 Jan;50(1):25-33. doi: 10.1002/gcc.20827.

DOI:10.1002/gcc.20827
PMID:20949568
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3150534/
Abstract

Angiosarcoma (AS) is a distinct group of sarcomas characterized by upregulation of vascular-specific receptor tyrosine kinases, including TIE1, KDR, TEK, and FLT1. In keeping with the clinical heterogeneity, gene-expression profiling distinguishes two AS genomic clusters, which correlate with anatomical location and prior exposure to radiation. Furthermore, a high percentage of secondary AS, but not primary AS, shows distinct 8q24 chromosomal gains, due to MYC amplification. In this study, we mined the transcriptional output of 10 secondary and 11 primary AS to better define the dichotomy in the pathogenesis of these two clinical subsets. The oncogenic role of MYC was investigated further in secondary AS as well as in radiation-induced atypical vascular lesions (AVL) and other radiation-associated sarcomas. High-level MYC amplification was found in 100% of secondary AS, but in none of the AVL or other radiation-associated sarcomas. Coamplification of FLT4 (encoding VEGFR3) was identified in 25% of secondary AS, but not in other types. Our findings reinforce the distinct pathogenesis of AS subtypes, with MYC amplification being an early, but necessary event in secondary AS. Secondary genetic hits, such as FLT4 gene coamplification or KDR mutations, may play a role in tumor progression as well as potential therapeutic targeting.

摘要

血管肉瘤(AS)是一组独特的肉瘤,其特征是血管特异性受体酪氨酸激酶的上调,包括 TIE1、KDR、TEK 和 FLT1。与临床异质性一致,基因表达谱将两种 AS 基因组簇区分开来,这与解剖位置和先前的辐射暴露有关。此外,由于 MYC 扩增,相当大比例的继发性 AS,而不是原发性 AS,显示出明显的 8q24 染色体增益。在这项研究中,我们挖掘了 10 例继发性和 11 例原发性 AS 的转录产物,以更好地定义这两种临床亚型发病机制的二分法。进一步研究了 MYC 在继发性 AS 以及放射性诱导的非典型血管病变(AVL)和其他放射性相关肉瘤中的致癌作用。在 100%的继发性 AS 中发现了高水平的 MYC 扩增,但在 AVL 或其他放射性相关肉瘤中没有发现。在 25%的继发性 AS 中发现了 FLT4(编码 VEGFR3)的共扩增,但在其他类型中没有发现。我们的发现强化了 AS 亚型的不同发病机制,MYC 扩增是继发性 AS 的早期但必要事件。继发性遗传打击,如 FLT4 基因共扩增或 KDR 突变,可能在肿瘤进展以及潜在的治疗靶向中发挥作用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/0977/3150534/a869e9241dc6/nihms308206f1.jpg

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