一段促进转移的 tRNA 片段可驱动核仁蛋白寡聚化，并稳定其结合的代谢 mRNA。

A pro-metastatic tRNA fragment drives Nucleolin oligomerization and stabilization of its bound metabolic mRNAs.

机构信息

Laboratory of Systems Cancer Biology, The Rockefeller University, New York, NY 10065, USA.

Proteomics Resource Center, The Rockefeller University, New York, NY 10065, USA.

出版信息

Mol Cell. 2022 Jul 21;82(14):2604-2617.e8. doi: 10.1016/j.molcel.2022.05.008. Epub 2022 Jun 1.

DOI:10.1016/j.molcel.2022.05.008

PMID:35654044

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9444141/

Abstract

Stress-induced cleavage of transfer RNAs (tRNAs) into tRNA-derived fragments (tRFs) occurs across organisms from yeast to humans; yet, its mechanistic underpinnings and pathological consequences remain poorly defined. Small RNA profiling revealed increased abundance of a cysteine tRNA fragment (5'-tRF) during breast cancer metastatic progression. 5'-tRF was required for efficient breast cancer metastatic lung colonization and cancer cell survival. We identified Nucleolin as the direct binding partner of 5'-tRF. 5'-tRF promoted the oligomerization of Nucleolin and its bound metabolic transcripts Mthfd1l and Pafah1b1 into a higher-order transcript stabilizing ribonucleoprotein complex, which protected these transcripts from exonucleolytic degradation. Consistent with this, Mthfd1l and Pafah1b1 mediated pro-metastatic and metabolic effects downstream of 5'-tRF-impacting folate, one-carbon, and phosphatidylcholine metabolism. Our findings reveal that a tRF can promote oligomerization of an RNA-binding protein into a transcript stabilizing ribonucleoprotein complex, thereby driving specific metabolic pathways underlying cancer progression.

摘要

应激诱导的转移 RNA（tRNA）在从酵母到人类的生物体中被切割成 tRNA 衍生片段（tRFs）；然而，其机制基础和病理后果仍未得到明确界定。小 RNA 分析显示，在乳腺癌转移进展过程中，半胱氨酸 tRNA 片段（5'-tRF）的丰度增加。5'-tRF 是乳腺癌转移肺定植和癌细胞存活所必需的。我们确定核仁蛋白是 5'-tRF 的直接结合伴侣。5'-tRF 促进核仁蛋白及其结合的代谢物转录本 Mthfd1l 和 Pafah1b1 寡聚化，形成更高阶的转录本稳定的核糖核蛋白复合物，从而保护这些转录本免受核酸外切酶降解。与此一致的是，Mthfd1l 和 Pafah1b1 介导了 5'-tRF 影响叶酸、一碳和磷脂酰胆碱代谢下游的促转移和代谢效应。我们的研究结果表明，tRF 可以促进 RNA 结合蛋白寡聚化形成转录本稳定的核糖核蛋白复合物，从而驱动癌症进展所特有的特定代谢途径。

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