CD95/Fas 配体 mRNA 对细胞的毒性机制不止一种。

IF 6.3 Q1 BIOCHEMISTRY & MOLECULAR BIOLOGY Molecular biomedicine Pub Date : 2023-04-15 DOI:10.1186/s43556-023-00119-1
Ashley Haluck-Kangas, Madelaine Fink, Elizabeth T Bartom, Marcus E Peter
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摘要

CD95/Fas 配体(CD95L)通过蛋白与 CD95 受体结合诱导细胞凋亡。然而,CD95L mRNA 还能在没有 CD95 的情况下通过诱导 DISE(生存基因消除诱导的死亡)诱导毒性,DISE 是一种由 RNA 干扰(RNAi)介导的细胞死亡形式。我们现在报告说,CD95L mRNA 处理产生的短(s)RNA 与 shL3 几乎相同,而 shL3 是一种商业 CD95L 靶向 shRNA,它导致了 DISE 的发现。这种处理过程不需要 miRNA 生物发生蛋白 Drosha 或 Dicer。有趣的是,CD95L 的毒性在某些细胞系中取决于 RISC 的核心成分 Ago2,而在另一些细胞系中则不然。在 HCT116 结肠癌细胞系中,Ago 1-4 在 RNAi 中似乎具有冗余功能。事实上,Ago 1/2/3基因敲除的细胞对CD95L mRNA毒性保持敏感。只有通过突变 CD95L ORF 中的所有帧内起始密码子才能阻断毒性。死亡细胞表现出富集了具有毒性6mer种子序列的RISC结合(R)-sRNA,而表达无毒性CD95L突变体则富集了具有无毒性6mer种子的R-sRNA。然而,CD95L 并非这些 R-sRNA 的唯一来源。我们发现 CD95L mRNA 可直接或间接诱导 DISE,而且 CD95L mRNA 的处理和毒性可能有不同的机制。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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CD95/Fas ligand mRNA is toxic to cells through more than one mechanism.

CD95/Fas ligand (CD95L) induces apoptosis through protein binding to the CD95 receptor. However, CD95L mRNA also induces toxicity in the absence of CD95 through induction of DISE (Death Induced by Survival Gene Elimination), a form of cell death mediated by RNA interference (RNAi). We now report that CD95L mRNA processing generates a short (s)RNA nearly identical to shL3, a commercial CD95L-targeting shRNA that led to the discovery of DISE. Neither of the miRNA biogenesis proteins Drosha nor Dicer are required for this processing. Interestingly, CD95L toxicity depends on the core component of the RISC, Ago2, in some cell lines, but not in others. In the HCT116 colon cancer cell line, Ago 1-4 appear to function redundantly in RNAi. In fact, Ago 1/2/3 knockout cells retain sensitivity to CD95L mRNA toxicity. Toxicity was only blocked by mutation of all in-frame start codons in the CD95L ORF. Dying cells exhibited an enrichment of RISC bound (R)-sRNAs with toxic 6mer seed sequences, while expression of the non-toxic CD95L mutant enriched for loading of R-sRNAs with nontoxic 6mer seeds. However, CD95L is not the only source of these R-sRNAs. We find that CD95L mRNA may induce DISE directly and indirectly, and that alternate mechanisms may underlie CD95L mRNA processing and toxicity.

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