Structural basis of 3′-end poly(A) RNA recognition by LARP1

Author:

Kozlov Guennadi12,Mattijssen Sandy3,Jiang Jianning12,Nyandwi Samuel12,Sprules Tara24,Iben James R3,Coon Steven L3,Gaidamakov Sergei3,Noronha Anne M5,Wilds Christopher J5,Maraia Richard J3,Gehring Kalle12ORCID

Affiliation:

1. Department of Biochemistry, McGill University , Montréal, Canada

2. Centre de recherche en biologie structurale, McGill University , Montréal, Canada

3. Intramural Research Program, Eunice Kennedy Shriver National Institute of Child Health and Human Development, National Institutes of Health , Bethesda , MD, United States

4. Quebec/Eastern Canada NMR Centre, McGill University , Montréal, Canada

5. Department of Chemistry and Biochemistry, Concordia University , Montréal, Canada

Abstract

Abstract La-related proteins (LARPs) comprise a family of RNA-binding proteins involved in a wide range of posttranscriptional regulatory activities. LARPs share a unique tandem of two RNA-binding domains, La motif (LaM) and RNA recognition motif (RRM), together referred to as a La-module, but vary in member-specific regions. Prior structural studies of La-modules reveal they are pliable platforms for RNA recognition in diverse contexts. Here, we characterize the La-module of LARP1, which plays an important role in regulating synthesis of ribosomal proteins in response to mTOR signaling and mRNA stabilization. LARP1 has been well characterized functionally but no structural information exists for its La-module. We show that unlike other LARPs, the La-module in LARP1 does not contain an RRM domain. The LaM alone is sufficient for binding poly(A) RNA with submicromolar affinity and specificity. Multiple high-resolution crystal structures of the LARP1 LaM domain in complex with poly(A) show that it is highly specific for the RNA 3′-end, and identify LaM residues Q333, Y336 and F348 as the most critical for binding. Use of a quantitative mRNA stabilization assay and poly(A) tail-sequencing demonstrate functional relevance of LARP1 RNA binding in cells and provide novel insight into its poly(A) 3′ protection activity.

Funder

Canadian Institutes of Health Research

National Institutes of Health

Publisher

Oxford University Press (OUP)

Subject

Genetics

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