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Correction to Structure-Activity Relationship, Drug Metabolism and Pharmacokinetics Properties Optimization, and in Vivo Studies of New Brain Penetrant Triple T-Type Calcium Channel Blockers.

Siegrist, Romain; Pozzi, Davide; Jacob, Gaël; Torrisi, Caterina; Colas, Kilian; Braibant, Bertrand; Mawet, Jacques; Pfeifer, Thomas; de Kanter, Ruben; Roch, Catherine; Kessler, Melanie; Moon, Richard; Corminboeuf, Olivier; Bezençon, Olivier.

J Med Chem ; 60(5): 2163, 2017 03 09.

Article in English | MEDLINE | ID: mdl-28234473

Structure-Activity Relationship, Drug Metabolism and Pharmacokinetics Properties Optimization, and in Vivo Studies of New Brain Penetrant Triple T-Type Calcium Channel Blockers.

J Med Chem ; 59(23): 10661-10675, 2016 12 08.

Article in English | MEDLINE | ID: mdl-27933950

ABSTRACT

Despite the availability of numerous antiepileptic drugs, 20-30% of epileptic patients are pharmacoresistant with seizures not appropriately controlled. Consequently, new strategies to address this unmet medical need are required. T-type calcium channels play a key role in neuronal excitability and burst firing, and selective triple T-type calcium channel blockers could offer a new way to treat various CNS disorders, in particular epilepsy. Herein we describe the identification of new 1,4-benzodiazepines as brain penetrant and selective triple T-type calcium channel blockers. From racemic hit 4, optimization work led to the preparation of pyridodiazepine 31c with improved physicochemical properties, solubility, and metabolic stability. The racemic mixture was separated by chiral preparative HPLC, and the resulting lead compound (3R,5S)-31c showed promising efficacy in the WAG/Rij-rat model of generalized nonconvulsive absence-like epilepsy.

Subject(s)

Brain/drug effects , Calcium Channel Blockers/pharmacology , Calcium Channels, T-Type/metabolism , Animals , Brain/metabolism , Calcium Channel Blockers/chemistry , Calcium Channel Blockers/metabolism , Dose-Response Relationship, Drug , HEK293 Cells , Humans , Male , Microsomes, Liver/chemistry , Microsomes, Liver/metabolism , Molecular Structure , Rats , Rats, Inbred Strains , Seizures/drug therapy , Structure-Activity Relationship

Discovery and Characterization of ACT-451840: an Antimalarial Drug with a Novel Mechanism of Action.

Boss, Christoph; Aissaoui, Hamed; Amaral, Nathalie; Bauer, Aude; Bazire, Stephanie; Binkert, Christoph; Brun, Reto; Bürki, Cédric; Ciana, Claire-Lise; Corminboeuf, Olivier; Delahaye, Stephane; Dollinger, Claire; Fischli, Christoph; Fischli, Walter; Flock, Alexandre; Frantz, Marie-Céline; Girault, Malory; Grisostomi, Corinna; Friedli, Astrid; Heidmann, Bibia; Hinder, Claire; Jacob, Gael; Le Bihan, Amelie; Malrieu, Sophie; Mamzed, Saskia; Merot, Aurelien; Meyer, Solange; Peixoto, Sabrina; Petit, Nolwenn; Siegrist, Romain; Trollux, Julien; Weller, Thomas; Wittlin, Sergio.

ChemMedChem ; 11(18): 1995-2014, 2016 09 20.

Article in English | MEDLINE | ID: mdl-27471138

ABSTRACT

More than 40 % of the world's population is at risk of being infected with malaria. Most malaria cases occur in the countries of sub-Saharan Africa, Central and South America, and Asia. Resistance to standard therapy, including artemisinin combinations, is increasing. There is an urgent need for novel antimalarials with new mechanisms of action. In a phenotypic screen, we identified a series of phenylalanine-based compounds that exhibit antimalarial activity via a new and yet unknown mechanism of action. Our optimization efforts culminated in the selection of ACT-451840 [(S,E)-N-(4-(4-acetylpiperazin-1-yl)benzyl)-3-(4-(tert-butyl)phenyl)-N-(1-(4-(4-cyanobenzyl)piperazin-1-yl)-1-oxo-3-phenylpropan-2-yl)acrylamide] for clinical development. Herein we describe our optimization efforts from the screening hit to the potential drug candidate with respect to antiparasitic activity, drug metabolism and pharmacokinetics (DMPK) properties, and inâvivo pharmacological efficacy.

Subject(s)

Acrylamides/pharmacology , Antimalarials/pharmacology , Drug Discovery , Malaria/drug therapy , Piperazines/pharmacology , Plasmodium falciparum/drug effects , Acrylamides/chemical synthesis , Acrylamides/chemistry , Antimalarials/chemical synthesis , Antimalarials/chemistry , Dose-Response Relationship, Drug , Molecular Structure , Parasitic Sensitivity Tests , Piperazines/chemical synthesis , Piperazines/chemistry , Structure-Activity Relationship

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