Author: Lee, Hungâ€Chieh; Fu, Chuanâ€Yang; Lin, Chengâ€Yung; Hu, Jiaâ€Rung; Huang, Tingâ€Ying; Lo, Kaiâ€Yin; Tsai, Hsinâ€Yue; Sheu, Jinâ€Chuan; Tsai, Huaiâ€Jen
Title: Poly(U)â€specific endoribonuclease ENDOU promotes translation of human CHOP mRNA by releasing uORF elementâ€mediated inhibition Cord-id: scy0txgm Document date: 2021_1_28
ID: scy0txgm
Snippet: Upstream open reading frames (uORFs) are known to negatively affect translation of the downstream ORF. The regulatory proteins involved in relieving this inhibition are however poorly characterized. In response to cellular stress, eIF2α phosphorylation leads to an inhibition of global protein synthesis, while translation of specific factors such as CHOP is induced. We analyzed a 105â€nt inhibitory uORF in the transcript of human CHOP (huORF(chop)) and found that overexpression of the zebrafish
Document: Upstream open reading frames (uORFs) are known to negatively affect translation of the downstream ORF. The regulatory proteins involved in relieving this inhibition are however poorly characterized. In response to cellular stress, eIF2α phosphorylation leads to an inhibition of global protein synthesis, while translation of specific factors such as CHOP is induced. We analyzed a 105â€nt inhibitory uORF in the transcript of human CHOP (huORF(chop)) and found that overexpression of the zebrafish or human ENDOU poly(U)â€endoribonuclease (Endouc or ENDOUâ€1, respectively) increases CHOP mRNA translation also in the absence of stress. We also found that Endouc/ENDOUâ€1 binds and cleaves the huORF(chop) transcript at position 80Gâ€81U, which induces CHOP translation independently of phosphorylated eIF2α. However, both ENDOU and phosphoâ€eIF2α are nonetheless required for maximal translation of CHOP mRNA. Increased levels of ENDOU shift a huORF(chop) reporter as well as endogenous CHOP transcripts from the monosome to polysome fraction, indicating an increase in translation. Furthermore, we found that the uncapped truncated huORF(chop)â€69â€105â€nt transcript contains an internal ribosome entry site (IRES), facilitating translation of the cleaved transcript. Therefore, we propose a model where ENDOUâ€mediated transcript cleavage positively regulates CHOP translation resulting in increased CHOP protein levels upon stress. Specifically, CHOP transcript cleavage changes the configuration of huORF(chop) thereby releasing its inhibition and allowing the stalled ribosomes to resume translation of the downstream ORF.
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