Abstract
La proteins are RNA chaperones that perform various functions depending on distinct RNA-binding modes and their subcellular localization. In the nucleus, they help process UUU-3'OH-tailed nascent RNA polymerase III transcripts, such as pre-tRNAs, whereas in the cytoplasm they contribute to translation of poly(A)-tailed mRNAs. La accumulation in the nucleus and cytoplasm is controlled by several trafficking elements, including a canonical nuclear localization signal in the extreme C terminus and a nuclear retention element (NRE) in the RNA recognition motif 2 (RRM2) domain. Previous findings indicate that cytoplasmic export of La due to mutation of the NRE can be suppressed by mutations in RRM1, but the mechanism by which the RRM1 and RRM2 domains functionally cooperate is poorly understood. In this work, we use electromobility shift assays (EMSA) to show that mutations in the NRE and RRM1 affect binding of human La to pre-tRNAs but not UUU-3'OH or poly(A) sequences, and we present compensatory mutagenesis data supporting a direct interaction between the RRM1 and RRM2 domains. Moreover, we use collision-induced unfolding and time-resolved hydrogen-deuterium exchange MS analyses to study the conformational dynamics that occur when this interaction is intact or disrupted. Our results suggest that the intracellular distribution of La may be linked to its RNA-binding modes and provide the first evidence for a direct protein-protein interdomain interaction in La proteins.
Highlights
La proteins are RNA chaperones that perform various functions depending on distinct RNA-binding modes and their subcellular localization
We tested human La (hLa) and various mutants for changes in their structural dynamics using collision-induced unfolding (CIU) and time-resolved electrospray ionization hydrogen– deuterium exchange (TRESI-HDX) in the presence and absence of RNA to better understand the nature of potential interactions between RRM1-␣1 and RNA recognition motif 2 (RRM2)-␣3 and how these are affected by the presence of a ligand
Other work has demonstrated that La binds structured RNAs that lack UUU-3ЈOH such as the domain IV region of the hepatitis C viral RNA [7]. This alternative binding mode relies on the La motif, RRM1, and RRM2 regions and does not display any apparent sequence specificity, even if it requires (a) a hairpin and (b) either a 5Ј or 3Ј single-stranded extension
Summary
La proteins are RNA chaperones that perform various functions depending on distinct RNA-binding modes and their subcellular localization In the nucleus, they help process UUU3OH–tailed nascent RNA polymerase III transcripts, such as pre-tRNAs, whereas in the cytoplasm they contribute to translation of poly(A)-tailed mRNAs. La accumulation in the nucleus and cytoplasm is controlled by several trafficking elements, including a canonical nuclear localization signal in the extreme C terminus and a nuclear retention element (NRE) in the RNA recognition motif 2 (RRM2) domain. We tested for a direct interaction between the RRM1-␣1 helix and RRM2-␣3 helix by making compensatory mutations to these two regions and assessing these mutants for their ability to bind these same RNAs. we tested hLa and various mutants for changes in their structural dynamics using collision-induced unfolding (CIU) and time-resolved electrospray ionization hydrogen– deuterium exchange (TRESI-HDX) in the presence and absence of RNA to better understand the nature of potential interactions between RRM1-␣1 and RRM2-␣3 and how these are affected by the presence of a ligand. Altered engagement of NRE mutants with RNA may be related to their role in subcellular localization
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