Cancer cells reprogramme translation and metabolism to fuel tumorigenesis. Here, we show that hepatocellular carcinoma (HCC) paradoxically maintains low tyrosine levels despite increased uptake and reduced metabolism, redirecting tyrosine to translation via MYC-driven upregulation of tyrosyl-tRNA synthetase 1 (YARS1) and tRNA-Tyr(GUA). Restricting tyrosine translation availability (RTTA) via dietary limitation, YARS1/tRNA-Tyr(GUA) ablation, tyrosine degradation (TAL), or YARS1 inhibition (tyrosinol) disturbs this adaptation, leading to the mitigation of tumorigenesis and extension of survival. Mechanistically, RTTA reduces tyrosine codon-dependent translation of mitochondrial complex I subunit NDUFB8 and lipid regulator SCD1, causing complex I misassembly, oxidative phosphorylation failure, and lipid peroxidation-induced ferroptosis. Genome-wide CRISPR screening identifies that loss of GPX4 and BCL2 by genetic manipulation or pharmacological treatment enhances the ability of RTTA to inhibit hepatocellular carcinogenesis. Our findings establish RTTA as a therapeutic strategy targeting tyrosine dependency and highlight combinatorial targeting of translation-metabolism crosstalk and ferroptosis pathways in liver cancer.
Targeting tRNA-dependent tyrosine usage unveils a metabolic vulnerability in hepatocellular carcinoma.
针对 tRNA 依赖的酪氨酸利用揭示了肝细胞癌的代谢脆弱性。
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| 期刊: | Nature Communications | 影响因子: | 15.700 |
| 时间: | 2026 | 起止号: | 2026 Mar 6; 17(1):2244 |
| doi: | 10.1038/s41467-026-70112-z | 研究方向: | 代谢、细胞生物学、肿瘤 |
| 疾病类型: | 肝癌 | ||
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