Abstract EN:

SHP (Small Heterodimer Partner (NR0B2)), a particular member of the mammalian nuclear hormone receptor family which lacks the DNA binding domain, directly modulates the activities of a number of bona fide nuclear receptors by acting as an inducible transcriptional co-repressor. Past efforts at dissecting underlying molecular mechanisms, and at identifying the target factors and target genes, uncovered the regulatory involvement of SHP in diverse metabolic functions such as the catabolism of cholesterol and prompted further clarification on this emerging pathway for drug target discovery. In the first part of this thesis, we report on an extensive series of prokaryotic as well as eukaryotic SHP over expression experiments. In most of the expression systems explored, SHP stayed well expressed but insoluble, compacted to 90% in inclusion bodies. As a consequence the structural analysis of SHP could not be performed. In order to further analyze the function of this non conventional nuclear hormone receptor, we performed in the second section of the thesis a molecular analysis of the interaction between SHP and other nuclear hormone receptors by transrepresion assay. Morevover we report on a Yeast-Two- Hybrid Screen performed with SHP as a bait and the identification and following characterization of a new partner of SHP, the RAR-related Orphan receptor (ROR). To further understand the role of SHP in vivo, we characterized by DNA microarrays the expression profiles genome wide from SHP null mice and wild type livers. These analyses enabled us to decipher known and novel SHP target genes involved in the lipid homeostasis, the apoptosis and the embryonic development. The study opens new perspectives to establish the SHP pathway as potential therapeutic target for the metabolic syndrome.