Contributions of the Individual Domains in Human La Protein to Its RNA 3′-End Binding Activity

Uta-Maria Ohndorf,Clemens Steegborn,Rainer Knijff,Peter Sondermann

doi:10.1074/jbc.m102891200

Uta-Maria Ohndorf, Clemens Steegborn + Show 2 more

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https://doi.org/10.1074/jbc.m102891200

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Abstract

The autoantigen La regulates the maturation of RNA polymerase III transcripts by binding to their poly(U) termination signal. The modular protein harbors a N-terminal RNA recognition motif (RRM), RRM1, and in the C-terminal domain, a second, atypical RRM2, in addition to a phosphorylation site, and a putative nucleotide binding site. This study presents a detailed investigation into the RNA 3'-end binding properties of La by using binding titration and competition assays with subsequent gel mobility shift analysis. Two truncation mutants containing one (La-RRM1) or both (La-RRM1-RRM2) RNA-binding domains were constructed, overexpressed, and purified. A K(d) value of 25 +/- 10 nm for La binding to a nonameric RNA ligand with the oligouridylate recognition sequence was obtained, discriminating with a specificity ratio of approximately 100 for this probe over a RNA ligand with a 3'-poly(A) stretch. The N-terminal La-RRM1 region was identified as the major contributor of these properties to La, manifested in a 5-fold lower K(d) of 5 +/- 3 nm and a slightly increased specificity ratio of 120 for the RNA ligand. The atypical RRM2 in the C-terminal domain of La has an unprecedented negative effect on 3'-end RNA recognition, as indicated by a higher K(d) value of 90 +/- 10 nm for the La-RRM1-RRM2 mutant but comparable specificity. Thus the C-terminal regions beyond RRM2 positively modulate the RNA binding affinity of La. Negative regulation, however, occurs through Ser(366) phosphorylation decreasing the binding affinity by 2-fold. ATP had no influence on RNA complex formation. The functional implications of these findings for the mechanism of action of La are discussed.

Highlights

Human La protein was originally identified as a major target of the autoimmune response in patients suffering from the autoimmune diseases Sjogren’s syndrome and systemic lupus erythematosus [1]
Associated with all RNA polymerase III transcripts where the 3Ј-UUU-OH sequence is added as the transcription termination signal, La is thought to play a central role in the metabolism of these RNAs by acting as a molecular chaperone that stabilizes and/or structures them for further processing [3]
Protease digestion showed that the La protein can be divided in a N-terminal and a highly charged C-terminal domain connected by a 43-amino acid linker [16]

Summary

Introduction

Human La protein (lupus antigen or La/SS-B) was originally identified as a major target of the autoimmune response in patients suffering from the autoimmune diseases Sjogren’s syndrome and systemic lupus erythematosus [1]. Our assay system was designed to investigate the contributions of the individual protein regions solely to the 3Ј-end binding affinity of La. The two parameters, binding affinity and specificity, that characterize the RNA complex formation were determined by gel mobility shift analysis and compared with the truncated proteins under identical assay conditions.

Results

Conclusion