Abstract EN:

This scientific project deals in one hand with the application of an oxidative coupling of guanidines with alkenes towards the synthesis of the (+/-) dibromoagelaspongin via a biometic approach. On the other hand this work aims to the synthesis of keramadine’s analogs in order to evaluate their biological activity on 5-HT2c serotoninergic receptors and melatoninergic receptors like MT1 and MT2. According to our biogenetic hypothesis for the formation of the (+/-) dibromoagelaspongin, the formation of two synthetic equivalents of the cyclic oroïdin was achieved using two different pathways. Unfortunately, for each equivalent, the last biomimetic oxidation –cyclisation step underwent to product rearrangements and the (+/-) dibromoagelaspongin cant’t be obtained. Nevertheless, the tetracyclic intermediate could be isolated illustrating the first synthesis of the tetracyclic core of the (+/-) dibromoagelaspongin. By another pathway induced by the two previous, the debromodispacamide B was synthesized by coupling a guanidine with an oxidized equivalent of diketopiperazine pyrrole-proline. This synthesis allowed us to confirm the mechanism of the debromodispacamide B formation from the diketopiperazine pyrrole-proline. In a medicinal chemistry project, we synthesized a new variety of keramadine analogs. In this purpose, we developed a new synthesis of 1,2-dihydropyridins. This approach led us to the major formation of undesired products that exhibited interesting new skeletons. Unfortunately, they didn’t possess a good affinity for the aimed receptors.