Nuclear relocalisation of cytoplasmic poly(A)-binding proteins PABP1 and PABP4 in response to UV irradiation reveals mRNA-dependent export of metazoan PABPs

Nuclear relocalisation of cytoplasmic poly(A)-binding proteins PABP1 and PABP4 in response to UV irradiation reveals mRNA-dependent export of metazoan PABPs

Poly(A)-binding protein 1 (PABP1) has a fundamental role in the regulation of mRNA translation and stability, both of which are crucial for a wide variety of cellular processes. Although generally a diffuse cytoplasmic protein, it can be found in discrete foci such as stress and neuronal granules. M...

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Published in:Journal of cell science Vol. 124; no. Pt 19; pp. 3344 - 3355
Main Authors: Burgess, Hannah M, Richardson, William A, Anderson, Ross C, Salaun, Christine, Graham, Sheila V, Gray, Nicola K
Format: Journal Article
Language:English
Published: England Company of Biologists 01-10-2011
Subjects:
Active Transport, Cell Nucleus
Animals
Apoptosis - radiation effects
Blood Proteins - metabolism
Cell Nucleus - metabolism
Cytoplasm - metabolism
Cytoplasmic Granules - metabolism
HeLa Cells
Humans
Immediate-Early Proteins - biosynthesis
Metazoa
Mice
Microscopy, Fluorescence
NIH 3T3 Cells
Poly(A)-Binding Protein I - metabolism
Poly(A)-Binding Proteins - metabolism
Protein Biosynthesis
Protein Transport - radiation effects
Recombinant Proteins - biosynthesis
RNA Transport
RNA, Messenger - metabolism
Ultraviolet Rays
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Summary:Poly(A)-binding protein 1 (PABP1) has a fundamental role in the regulation of mRNA translation and stability, both of which are crucial for a wide variety of cellular processes. Although generally a diffuse cytoplasmic protein, it can be found in discrete foci such as stress and neuronal granules. Mammals encode several additional cytoplasmic PABPs that remain poorly characterised, and with the exception of PABP4, appear to be restricted in their expression to a small number of cell types. We have found that PABP4, similarly to PABP1, is a diffusely cytoplasmic protein that can be localised to stress granules. However, UV exposure unexpectedly relocalised both proteins to the nucleus. Nuclear relocalisation of PABPs was accompanied by a reduction in protein synthesis but was not linked to apoptosis. In examining the mechanism of PABP relocalisation, we found that it was related to a change in the distribution of poly(A) RNA within cells. Further investigation revealed that this change in RNA distribution was not affected by PABP knockdown but that perturbations that block mRNA export recapitulate PABP relocalisation. Our results support a model in which nuclear export of PABPs is dependent on ongoing mRNA export, and that a block in this process following UV exposure leads to accumulation of cytoplasmic PABPs in the nucleus. These data also provide mechanistic insight into reports that transcriptional inhibitors and expression of certain viral proteins cause relocation of PABP to the nucleus.
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Present address: Department of Microbiology, NYU Langone Medical Center, 550 First Avenue, New York, NY 10016, USA
Present address: Centre de Recherche INSERM U845, Université Paris Descartes, Faculté de Médecine, 156 Rue de Vaugirard, F-75015 Paris, France
ISSN:0021-9533
1477-9137
DOI:10.1242/jcs.087692