Litcius/Paper detail

Global 5′-UTR RNA structure regulates translation of a <i>SERPINA1</i> mRNA

Philip J. Grayeski, Chase A. Weidmann, Jayashree Kumar, Lela Lackey, Anthony M. Mustoe, Steven Busan, Alain Laederach, Kevin M. Weeks

2022Nucleic Acids Research25 citationsDOIOpen Access PDF

Abstract

SERPINA1 mRNAs encode the protease inhibitor α-1-antitrypsin and are regulated through post-transcriptional mechanisms. α-1-antitrypsin deficiency leads to chronic obstructive pulmonary disease (COPD) and liver cirrhosis, and specific variants in the 5'-untranslated region (5'-UTR) are associated with COPD. The NM_000295.4 transcript is well expressed and translated in lung and blood and features an extended 5'-UTR that does not contain a competing upstream open reading frame (uORF). We show that the 5'-UTR of NM_000295.4 folds into a well-defined multi-helix structural domain. We systematically destabilized mRNA structure across the NM_000295.4 5'-UTR, and measured changes in (SHAPE quantified) RNA structure and cap-dependent translation relative to a native-sequence reporter. Surprisingly, despite destabilizing local RNA structure, most mutations either had no effect on or decreased translation. Most structure-destabilizing mutations retained native, global 5'-UTR structure. However, those mutations that disrupted the helix that anchors the 5'-UTR domain yielded three groups of non-native structures. Two of these non-native structure groups refolded to create a stable helix near the translation initiation site that decreases translation. Thus, in contrast to the conventional model that RNA structure in 5'-UTRs primarily inhibits translation, complex folding of the NM_000295.4 5'-UTR creates a translation-optimized message by promoting accessibility at the translation initiation site.

Topics & Concepts

Five prime untranslated regionBiologyUpstream open reading frameTranslation (biology)Untranslated regionMessenger RNARNAThree prime untranslated regionEukaryotic translationGeneticsNucleic acid structureOpen reading frameProtein biosynthesisMolecular biologyGenePeptide sequenceRNA and protein synthesis mechanismsRNA modifications and cancerRNA Research and Splicing