SWI/SNF atp酶亚基BRM和BRG1的缺失驱动肺癌的发展

Stefanie B. Marquez-Vilendrer, S. Rai, Sarah J B Gramling, Li Lu, D. Reisman
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引用次数: 27

摘要

Brg1和Brm的失活加速了肺肿瘤的发展,缩短了肿瘤潜伏期,并导致分化丧失。Brg1和/或Brm缺失的肿瘤通过局部肿瘤侵袭和远端肿瘤转移的发展,再现了人类肺癌的演变过程,从而使该模型在肺癌研究中有用。Brg1缺失部分通过驱动E-cadherin缺失和Vimentin上调促进转移。Brg1/Brm的双重缺失导致肿瘤抑制基因、DNA修复基因、分化基因和细胞粘附基因下调,同时致癌基因、血管生成基因、转移基因和抗凋亡基因上调,从而改变了6%以上的小鼠基因组,进一步加速了肿瘤的发展。此外,这种Brg1/Brm驱动的基因表达变化导致Brg1/Brm敲除小鼠的致瘤性比野生型小鼠增加了近两倍。最重要的是,Brg1/ brm驱动的肺癌发展在组织学和临床上反映了人类肺癌的发展,从而使这种GEMM模型具有潜在的用途。
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Loss of the SWI/SNF ATPase subunits BRM and BRG1 drives lung cancer development
Inactivation of Brg1 and Brm accelerated lung tumor development, shortened tumor latency, and caused a loss of differentiation. Tumors with Brg1 and/or Brm loss recapitulated the evolution of human lung cancer as observed by the development of local tumor invasion as well as distal tumor metastasis, thereby making this model useful in lung cancer studies. Brg1 loss contributed to metastasis in part by driving E-cadherin loss and Vimentin up-regulation. By changing more than 6% of the murine genome with the down-regulation of tumor suppressors, DNA repair, differentiation and cell adhesion genes, and the concomitant up-regulation of oncogenes, angiogenesis, metastasis and antiapoptosis genes, caused by the dual loss of Brg1/Brm further accelerated tumor development. Additionally, this Brg1/Brm-driven change in gene expression resulted in a nearly two-fold increase in tumorigenicity in Brg1/Brm knockout mice compared with wild type mice. Most importantly, Brg1/Brm-driven lung cancer development histologically and clinically reflects human lung cancer development thereby making this GEMM model potentially useful.
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