| Literature DB >> 30977120 |
Penghui Yang1,2, Xuanlin Huang3, Chengcai Lai2, Lin Li3,4, Tieling Li5, Peide Huang3,6, Songying Ouyang7,8, Jin Yan1, Sijie Cheng1, Guanglin Lei1, Zhaohai Wang1, Linxiang Yu1, Zhixian Hong1, Ruisheng Li1, Hui Dong9, Cheng Wang5,10, Yinghao Yu11, Xuan Wang12, Xianghong Li13, Liming Wang14, Fudong Lv15, Ye Yin3, Huanming Yang3,16, Jianxun Song17, Qiang Gao3, Xiliang Wang2, Shaogeng Zhang1.
Abstract
Primary hepatic neuroendocrine tumors (PHNETs) are extremely rare NETs originating from the liver. These tumors are associated with heterogeneous prognosis, and few treatment targets for PHNETs have been identified. Because the major genetic alterations in PHNET are still largely unknown, we performed whole-exome sequencing of 22 paired tissues from PHNET patients and identified 22 recurring mutations of somatic genes involved in the following activities: epigenetic modification (BPTF, MECP2 and WDR5), cell cycle (TP53, ATM, MED12, DIDO1 and ATAD5) and neural development (UBR4, MEN1, GLUL and GIGYF2). Here, we show that TP53 and the SET domain containing the 1B gene (SETD1B) are the most frequently mutated genes in this set of samples (3/22 subjects, 13.6%). A biological analysis suggests that one of the three SETD1B mutants, A1054del, promotes cell proliferation, migration and invasion compared to wild-type SETD1B. Our work unveils that SETD1B A1054del mutant is functional in PHNET and implicates genes including TP53 in the disease. Our findings thus characterize the mutational landscapes of PHNET and implicate novel gene mutations linked to PHNET pathogenesis and potential therapeutic targets.Entities:
Keywords: zzm321990SETD1B; PHNETs; whole-exome sequencing
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Year: 2019 PMID: 30977120 PMCID: PMC7111256 DOI: 10.1002/ijc.32334
Source DB: PubMed Journal: Int J Cancer ISSN: 0020-7136 Impact factor: 7.396