苏氨酸通过 YRDC 介导的密码子偏倚性翻译重编程为神经胶质瘤供能。
Threonine fuels glioblastoma through YRDC-mediated codon-biased translational reprogramming.
机构信息
Hillman Cancer Center, University of Pittsburgh Medical Center, Pittsburgh, PA, USA.
Department of Neurosurgery, the First Affiliated Hospital of Sun Yat-sen University, Guangdong Provincial Key Laboratory of Brain Function and Disease, Guangdong Translational Medicine Innovation Platform, Guangzhou, China.
出版信息
Nat Cancer. 2024 Jul;5(7):1024-1044. doi: 10.1038/s43018-024-00748-7. Epub 2024 Mar 22.
Cancers commonly reprogram translation and metabolism, but little is known about how these two features coordinate in cancer stem cells. Here we show that glioblastoma stem cells (GSCs) display elevated protein translation. To dissect underlying mechanisms, we performed a CRISPR screen and identified YRDC as the top essential transfer RNA (tRNA) modification enzyme in GSCs. YRDC catalyzes the formation of N-threonylcarbamoyladenosine (tA) on ANN-decoding tRNA species (A denotes adenosine, and N denotes any nucleotide). Targeting YRDC reduced tA formation, suppressed global translation and inhibited tumor growth both in vitro and in vivo. Threonine is an essential substrate of YRDC. Threonine accumulated in GSCs, which facilitated tA formation through YRDC and shifted the proteome to support mitosis-related genes with ANN codon bias. Dietary threonine restriction (TR) reduced tumor tA formation, slowed xenograft growth and augmented anti-tumor efficacy of chemotherapy and anti-mitotic therapy, providing a molecular basis for a dietary intervention in cancer treatment.
癌症通常会重新编程翻译和代谢,但人们对这两个特征在癌症干细胞中如何协调知之甚少。在这里,我们发现胶质母细胞瘤干细胞(GSCs)表现出更高的蛋白质翻译水平。为了剖析潜在的机制,我们进行了 CRISPR 筛选,发现 YRDC 是 GSCs 中最重要的转移 RNA(tRNA)修饰酶。YRDC 催化在 ANN 解码 tRNA 种类上形成 N-硫代羰基腺苷酸(tA)(A 表示腺苷,N 表示任何核苷酸)。靶向 YRDC 减少了 tA 的形成,抑制了体外和体内的整体翻译和肿瘤生长。苏氨酸是 YRDC 的必需底物。苏氨酸在 GSCs 中积累,通过 YRDC 促进 tA 的形成,并使蛋白质组转向支持具有 ANN 密码子偏向的有丝分裂相关基因。饮食苏氨酸限制(TR)减少了肿瘤 tA 的形成,减缓了异种移植物的生长,并增强了化疗和抗有丝分裂治疗的抗肿瘤疗效,为癌症治疗中的饮食干预提供了分子基础。
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