Abstract EN:

The deregulation of NF-KB signalling pathways, involved in cell survival and inflammation, leads t< chronic inflammation and cancers. The aim of this thesis was to identify negative regulators of the conserved NF-KE pathways, Toll and Imd, in Drosophila melanogaster. The stability or activity of several compounds ofNF-KB pathway! is regulated by ubiquitination. Consequently, the ubiquitine specific proteases (USPs) constitute a new area to look fo regulators ofthese pathways. To do this, 1 constructed a collection of interfering RNA able to inactivate the 21 USPs 0 drosophila in S2 cells. The screening of this collection identified three negative regulators of the Imd pathway, one 0 them having also an effect on the Toll pathway. The target specificity of USPs could explain the small number 0 candidates. Among these candidates, dUSP36, a homologue of human USP36, was previously detected in the lab in : genetic screening. Team studies, in which 1 participated, show its in vivo effect on the adaptative protein Imd through it: catalytic activity. Ln order to characterise the two other candidates 1 performed trangenesis experiments in drosophila These studies show that the two USPs are able to prevent activation of the Imd pathway in case of infection and that the: are required to maintain the inactivated state of the Imd pathway in absencê of infection. 1 also started to characterise th4catalytic activity of both candidates in vitro. My work's novelty was to limit the screening to only one gene family which allowed the detection of new regulating genes which had not been revealed in previous screenings performed on ; large part or the entire genome.