EIF4A1
eIF4A标准
重编程
Wnt信号通路
生物
翻译(生物学)
真核翻译
癌症研究
肿瘤发生
癌症
细胞生物学
信号转导
遗传学
转移
信使核糖核酸
细胞
基因
作者
Joseph A. Waldron,Georgios Kanellos,Rachael C.L. Smith,John R. P. Knight,June Munro,Constantia Alexandrou,Nikola Vlahov,Luis Pardo-Fernandez,M. H. Moore,Sarah L. Gillen,Douglas Strathdee,David Stevenson,Fiona Warrander,Kathryn Gilroy,Colin Nixon,Barbara Cadden,Ian R. Powley,Leah Officer-Jones,Fiona Ballantyne,Jennifer Hay
标识
DOI:10.1101/2023.11.10.566546
摘要
Abstract Dysregulated translation is a hallmark of cancer. Targeting the translational machinery represents a therapeutic avenue which is being actively explored. eIF4A inhibitors target both eIF4A1, which promotes translation as part of the eIF4F complex, and eIF4A2, which can repress translation via the CCR4–NOT complex. While high eIF4A1 expression is associated with poor patient outcome, the role of eIF4A2 in cancer remains unclear. Furthermore, the on-target toxicity of targeting specific eIF4A paralogues in healthy tissue is under-explored. We show that while loss of either paralogue is tolerated in the wild-type intestine, eIF4A1 is specifically required to support the translational demands of oncogenic Wnt signalling. Intestinal tumourigenesis is suppressed in colorectal cancer models following loss of eIF4A1 but accelerated following loss of eIF4A2, while eIF4A inhibition with eFT226 mimics loss of eIF4A1 in these models.
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