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ARE‐mRNA degradation requires the 5′–3′ decay pathway

2005; Springer Nature; Volume: 7; Issue: 1 Linguagem: Inglês

10.1038/sj.embor.7400572

1469-3178

Georg Stoecklin, Thomas Mayo, Paul Anderson,

RNA and protein synthesis mechanisms

As an important mode of suppressing gene expression, messenger RNAs containing an AU‐rich element (ARE) in the 3′ untranslated region are rapidly degraded in the cytoplasm. ARE‐mediated mRNA decay (AMD) is initiated by deadenylation, and in vitro studies have indicated that subsequent degradation occurs in the 3′–5′ direction through a complex of exonucleases termed the exosome. An alternative pathway of mRNA degradation occurs at processing bodies, cytoplasmic foci that contain decapping enzymes, the 5′–3′ exonuclease Xrn1 and the Lsm1–7 heptamer. To determine which of the two pathways is important for AMD in live cells, we targeted components of both pathways using short interfering RNA in human HT1080 cells. We show that Xrn1 and Lsm1 are essential for AMD. On the other side, out of three exosome components tested, only knockdown of PmScl‐75 caused a strong inhibition of AMD. Our results show that mammalian cells, similar to yeast, require the 5′–3′ Xrn1 pathway to degrade ARE‐mRNAs.