Géraldine Joanny scite author profile

Géraldine Joanny

2Publications

113Citation Statements Received

86Citation Statements Given

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Affiliations

Centro de Investigación Biomédica en Red Diabetes y Enfermedades Metabólicas Asociadas, University of Barcelona, Institut d'Investigació Biomédica de Bellvitge

Publications

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Polyadenylation of a functional mRNA controls gene expression in Escherichia coli

Joanny

Derout

Bréchemier-Baey

et al. 2007

Nucleic Acids Research

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Although usually implicated in the stabilization of mRNAs in eukaryotes, polyadenylation was initially shown to destabilize RNA in bacteria. All the data are consistent with polyadenylation being part of a quality control process targeting folded RNA fragments and non-functional RNA molecules to degradation. We report here an example in Escherichia coli, where polyadenylation directly controls the level of expression of a gene by modulating the stability of a functional transcript. Inactivation of poly(A)polymerase I causes overexpression of glucosamine–6-phosphate synthase (GlmS) and both the accumulation and stabilization of the glmS transcript. Moreover, we show that the glmS mRNA results from the processing of the glmU-glmS cotranscript by RNase E. Interestingly, the glmU-glmS cotranscript and the mRNA fragment encoding GlmU only slightly accumulated in the absence of poly(A)polymerase, suggesting that the endonucleolytically generated glmS mRNA harbouring a 5′ monophosphate and a 3′ stable hairpin is highly susceptible to poly(A)-dependent degradation.

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Heterozygous Inactivation of the Na/Ca Exchanger Increases Glucose-Induced Insulin Release, β-Cell Proliferation, and Mass

Nguidjoe

Sokolow

Bigabwa

et al. 2011

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OBJECTIVEWe have previously shown that overexpression of the Na-Ca exchanger (NCX1), a protein responsible for Ca2+ extrusion from cells, increases β-cell programmed cell death (apoptosis) and reduces β-cell proliferation. To further characterize the role of NCX1 in β-cells under in vivo conditions, we developed and characterized mice deficient for NCX1.RESEARCH DESIGN AND METHODSBiologic and morphologic methods (Ca2+ imaging, Ca2+ uptake, glucose metabolism, insulin release, and point counting morphometry) were used to assess β-cell function in vitro. Blood glucose and insulin levels were measured to assess glucose metabolism and insulin sensitivity in vivo. Islets were transplanted under the kidney capsule to assess their performance to revert diabetes in alloxan-diabetic mice.RESULTSHeterozygous inactivation of Ncx1 in mice induced an increase in glucose-induced insulin release, with a major enhancement of its first and second phase. This was paralleled by an increase in β-cell proliferation and mass. The mutation also increased β-cell insulin content, proinsulin immunostaining, glucose-induced Ca2+ uptake, and β-cell resistance to hypoxia. In addition, Ncx1+/− islets showed a two- to four-times higher rate of diabetes cure than Ncx1+/+ islets when transplanted into diabetic animals.CONCLUSIONSDownregulation of the Na/Ca exchanger leads to an increase in β-cell function, proliferation, mass, and resistance to physiologic stress, namely to various changes in β-cell function that are opposite to the major abnormalities seen in type 2 diabetes. This provides a unique model for the prevention and treatment of β-cell dysfunction in type 2 diabetes and after islet transplantation.

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