Pml39, a Novel Protein of the Nuclear Periphery Required for Nuclear Retention of Improper mRNPs

Benoit Palancade,* Michela Zuccolo,* Sophie Loeillet, ${dagger}$ Alain Nicolas, ${dagger}$ and Valérie Doye*

^*Pores Nucléaires et Transport Nucléocytoplasmique, UMR144 CNRS and Recombinaison et Instabilité Génétique, UMR7147 CNRS/Université Pierre et Marie Curie, Institut Curie, Section de Recherche, 75248 Paris Cedex 05, France

Monitoring Editor: Susan Wente

Using a genetic screen, we haveidentified a previously uncharacterized S. cerevisiae ORF (renamedPml39) that displays a specific interaction with nucleoporinsof the Nup84 complex. Localization of a Pml39-GFP fusion andtwo-hybrid studies revealed that Pml39 is mainly docked to asubset of nuclear pore complexes opposite to the nucleolus throughinteractions with Mlp1 and Mlp2. The absence of Pml39 leadsto a specific leakage of unspliced mRNAs that is not enhancedupon MLP1 deletion. In addition, overexpression of PML39-GFPinduces a specific trapping of mRNAs transcribed from an intron-containingreporter and of the hnRNP Nab2 within discrete nuclear domains.In a nup60 ${Delta}$ mutant, Pml39 is mislocalized together with Mlp1and Mlp2 in intranuclear foci that also recruit Nab2. Moreover,pml39 ${Delta}$ partially rescues the thermosensitive phenotypes of mRNPassembly mutants, indicating that pml39 deletion also bypassesthe requirement for normally assembled mRNPs. Altogether, thesedata indicate that Pml39 is an upstream effector of the Mlps,involved in the retention of improper mRNPs in the nucleus beforetheir export.

Address correspondence to: Benoit Palancade (palancad{at}curie.fr)

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