[Identification of new factors inducing CTG.CAG repeat contractions in Myotonic Dystrophy type 1].

Myotonic dystrophy type 1 (DM1) is a multisystemic neuromuscular disease caused by an abnormal CTG repeat expansion in the 3'UTR region of the DMPK gene. In patients, the CTG repeat size varies from fifty to thousands CTG and usually increases across generations (intergenerational instability) and over time in tissues (somatic instability). Larger expansions are associated with more severe symptoms and a decreasing age of onset. Thus, the larger expansions are often associated with the most severe clinical form of DM1 (congenital form). Our PhD project is to identify new genetic and chemical factors reducing the number of repeats and to better understand the mechanisms underlying instability. To this end, genetic and pharmacological screenings are carried out in a HEK293 cell model allowing the rapid detection of expansions (increase in CTG repeat number) and contractions (decrease in CTG repeat number). The effects of different genes and chemical factors, selected during the screening, on the dynamics of the CTG repeat instability will be studied in a DM1 cell model. The results of our work will provide a better understanding of the mechanisms behind contractions. In addition, the identification of new pharmacological compounds promoting CTG contractions and thus reducing or even reversing the progression of disease will offer new therapeutic prospects for DM1 but also for other triplet repeat diseases.