Abstract EN:

The work described in this manuscript deals with the synthesis of analogues of keramadine, a molecule isolated from a marine sponge, in order to find a molecule with 5-HT2C antagonist and melatoninergic agonist activities comparable to the ones of agomelatine, an antidepressant developed by Servier research’s Institute. The aim of this work was to develop a new and original skeleton that could lead to an antidepressant candidate. The synthesis of the desired analogues was accomplished according to a biomimetic pathway developed in the laboratory for the synthesis of pyrrole-2-aminoimidazoles, a family to which belongs keramadine. This method presents the advantage of being straightforward and versatile compared to the non-biomimetic methods described in the literature. This medicinal chemistry’s work was articulated around three structural modulations: the one of the substituant on the 2-aminoimidazole ring, the one of the pyrrole and the conception of hybrids between keramadine and agomelatine. Most of the synthesized analogues possess only modest affinity for the aimed receptors; some compounds showed interesting biological affinities, measured below the micromolar. The various structural modulations revealed that hybrids are much more potent than compounds obtained from other structural modifications. Modulations on the 2-aminoimidazole ring and on the pyrrole gave indications for future researches. In order to continue structure-activity relationship, molecules modified on the 2-aminoimidazole ring and on the pyrrole should be synthesised: these molecules, could lead to the required affinities towards 5-HT2C, MT1 and MT2 receptors for an antidepressant candidate.