1450606-79-7Relevant articles and documents
Mechanochemistry Enabled Construction of Isoxazole Skeleton via CuO Nanoparticles Catalyzed Intermolecular Dehydrohalogenative Annulation
Vadivelu, Murugan,Sampath, Sugirdha,Muthu, Kesavan,Karthikeyan, Kesavan,Praveen, Chandrasekar
, p. 4941 - 4952 (2021/09/09)
A dehydrohalogenative approach for isoxazole annulation by partnering β-vinyl halides and α-nitrocarbonyls under mechanochemical setting was accomplished. This chemistry is operative under the cooperative catalysis of cupric oxide nanoparticles (50 nm) a
3-Carboxamido-5-aryl-isoxazoles as new CB2 agonists for the treatment of colitis
Tourteau, Aurélien,Andrzejak, Virginie,Body-Malapel, Mathilde,Lemaire, Lucas,Lemoine, Amélie,Mansouri, Roxane,Djouina, Madjid,Renault, Nicolas,El Bakali, Jamal,Desreumaux, Pierre,Muccioli, Giulio G.,Lambert, Didier M.,Chavatte, Philippe,Rigo, Beno?t,Leleu-Chavain, Natascha,Millet, Régis
, p. 5383 - 5394 (2013/09/02)
Recent investigations showed that anandamide, the main endogenous ligand of CB1 and CB2 cannabinoid receptors, possesses analgesic, antidepressant and anti-inflammatory effects. In the perspective to treat inflammatory bowel disease (IBD), our approach was to develop new selective CB2 receptor agonists without psychotropic side effects associated to CB1 receptors. In this purpose, a new series of 3-carboxamido-5- aryl-isoxazoles, never described previously as CB2 receptor agonists, was designed, synthesized and evaluated for their biological activity. The pharmacological results have identified great selective CB2 agonists with in vivo anti-inflammatory activity in a DSS-induced acute colitis mouse model.