Dual RNA processing roles of Pat1b via cytoplasmic Lsm1-7 and nuclear Lsm2-8 complexes

Pat1 RNA-binding proteins, enriched in P-bodies, are key players in cytoplasmic 5’ to 3’ mRNA decay, activating decapping of mRNA in complex with the Lsm1-7 heptamer. Using co-immunoprecipitation and immunofluorescence approaches coupled with RNAi, we provide evidence for a nuclear complex of Pat1b with the Lsm2-8 heptamer, which binds to the spliceosomal U6 snRNA. Furthermore, we establish the set of interactions connecting Pat1b/Lsm2-8/U6 snRNA/SART3 and additional U4/U6.U5 tri-snRNP components, in Cajal bodies, the site of snRNP biogenesis. RNAseq following Pat1b depletion revealed the preferential up-regulation of mRNAs normally found in P-bodies and enriched in 3’ UTR AU-rich elements. Changes in >180 alternative splicing events were also observed, characterized by skipping of regulated exons with weak donor sites. Our data demonstrate the unsuspected dual role of a decapping enhancer in pre-mRNA processing as well as in mRNA decay via distinct nuclear and cytoplasmic Lsm complexes.This work was funded by a fellowship to CV from the Fondation Wiener – Anspach, BBSRC (BB/J00779X/1) and the Newton Trust (University of Cambridge) to NS, and CNRS PICS and ANR (14- CE09-0013-01ANR) to DW. The CMMI is supported by the European Regional Development Fund and the Walloon Region

Dual RNA processing roles of Pat1b via cytoplasmic Lsm1-7 and nuclear Lsm2-8 complexes

Pat1 RNA-binding proteins, enriched in P-bodies, are key players in cytoplasmic 5’ to 3’ mRNA decay, activating decapping of mRNA in complex with the Lsm1-7 heptamer. Using co-immunoprecipitation and immunofluorescence approaches coupled with RNAi, we provide evidence for a nuclear complex of Pat1b with the Lsm2-8 heptamer, which binds to the spliceosomal U6 snRNA. Furthermore, we establish the set of interactions connecting Pat1b/Lsm2-8/U6 snRNA/SART3 and additional U4/U6.U5 tri-snRNP components, in Cajal bodies, the site of snRNP biogenesis. RNAseq following Pat1b depletion revealed the preferential up-regulation of mRNAs normally found in P-bodies and enriched in 3’ UTR AU-rich elements. Changes in >180 alternative splicing events were also observed, characterized by skipping of regulated exons with weak donor sites. Our data demonstrate the unsuspected dual role of a decapping enhancer in pre-mRNA processing as well as in mRNA decay via distinct nuclear and cytoplasmic Lsm complexes.This work was funded by a fellowship to CV from the Fondation Wiener – Anspach, BBSRC (BB/J00779X/1) and the Newton Trust (University of Cambridge) to NS, and CNRS PICS and ANR (14- CE09-0013-01ANR) to DW. The CMMI is supported by the European Regional Development Fund and the Walloon Region

Allosteric regulation of mammalian Na+/I− symporter activity by perchlorate

The Na+/I- symporter (NIS), the plasma membrane protein that actively transports I- (stoichiometry 2Na+:1I-) in thyroid physiology and radioiodide-based thyroid cancer treatment, also transports the environmental pollutant perchlorate (stoichiometry 1Na+:1ClO4-), which competes with I- for transport. Until now, the mechanism by which NIS transports different anion substrates with different stoichiometries has remained unelucidated. We carried out transport measurements and analyzed these using a statistical thermodynamics-based equation and electrophysiological experiments to show that the different stoichiometry of ClO4- transport is due to ClO4- binding to a high-affinity non-transport allosteric site that prevents Na+ from binding to one of its two sites. Furthermore, low concentrations of ClO4- inhibit I- transport not only by competition but also, critically, by changing the stoichiometry of I- transport to 1:1, which greatly reduces the driving force. The data reveal that ClO4- pollution in drinking water is more dangerous than previously thought