伦瓦提尼
基因敲除
肝细胞癌
癌症研究
下调和上调
甲基转移酶
生物
索拉非尼
细胞凋亡
生物化学
基因
甲基化
作者
Manling Huang,Jianting Long,Zhijia Yao,Yi Zhao,Yutong Zhao,Junbin Liao,Kai Lei,Han Xiao,Zihao Dai,Sui Peng,Shuibin Lin,Lixia Xu,Ming Kuang
出处
期刊:Cancer Research
[American Association for Cancer Research]
日期:2022-09-14
卷期号:83 (1): 89-102
被引量:77
标识
DOI:10.1158/0008-5472.can-22-0963
摘要
Abstract The tyrosine kinase inhibitor lenvatinib is a first-line drug for treating patients with advanced hepatocellular carcinoma (HCC). However, its efficacy is severely hampered by drug resistance. Insights into the molecular mechanisms underlying lenvatinib resistance could provide new strategies to improve and prolong responses. Here, we performed unbiased proteomic screening of parental and lenvatinib-resistant HCC cells and discovered that methyltransferase-like protein-1 (METTL1) and WD repeat domain 4 protein (WDR4), the two key components of the tRNA N7-methylguanosine (m7G) methyltransferase complex, were dramatically upregulated in lenvatinib-resistant cells. METTL1 knockdown overrode resistance by impairing the proliferation capacity of HCC cells and promoting apoptosis under lenvatinib treatment. In addition, overexpression of wild-type METTL1 but not its catalytic dead mutant induced lenvatinib resistance. Animal experiments including hydrodynamic injection, subcutaneous implantation, and orthotopic xenograft mouse models further demonstrated the critical function of METTL1/WDR4-mediated m7G tRNA modification in promoting lenvatinib resistance in vivo. Mechanistically, METTL1 promoted translation of EGFR pathway genes to trigger drug resistance. This work reveals the important role of METTL1-mediated m7G tRNA modification in promoting lenvatinib resistance and provides a promising prediction marker and intervention target for resistance. Significance: Upregulation of tRNA m7G methyltransferase complex components METTL1 and WDR4 promotes lenvatinib resistance in HCC and confers a sensitivity to METTL1 targeting, providing a promising strategy to override resistance.
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