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1.
J Pharmacol Exp Ther ; 354(1): 43-54, 2015 Jul.
Artículo en Inglés | MEDLINE | ID: mdl-25943764

RESUMEN

Selective deuterium substitution as a means of ameliorating clinically relevant pharmacokinetic drug interactions is demonstrated in this study. Carbon-deuterium bonds are more stable than corresponding carbon-hydrogen bonds. Using a precision deuteration platform, the two hydrogen atoms at the methylenedioxy carbon of paroxetine were substituted with deuterium. The new chemical entity, CTP-347 [(3S,4R)-3-((2,2-dideuterobenzo[d][1,3]dioxol-5-yloxy)methyl)-4-(4-fluorophenyl)piperidine], demonstrated similar selectivity for the serotonin receptor, as well as similar neurotransmitter uptake inhibition in an in vitro rat synaptosome model, as unmodified paroxetine. However, human liver microsomes cleared CTP-347 faster than paroxetine as a result of decreased inactivation of CYP2D6. In phase 1 studies, CTP-347 was metabolized more rapidly in humans and exhibited a lower pharmacokinetic accumulation index than paroxetine. These alterations in the metabolism profile resulted in significantly reduced drug-drug interactions between CTP-347 and two other CYP2D6-metabolized drugs: tamoxifen (in vitro) and dextromethorphan (in humans). Our results show that precision deuteration can improve the metabolism profiles of existing pharmacotherapies without affecting their intrinsic pharmacologies.


Asunto(s)
Inhibidores del Citocromo P-450 CYP2D6/farmacología , Citocromo P-450 CYP2D6/metabolismo , Paroxetina/farmacología , Animales , Encéfalo/metabolismo , Inhibidores del Citocromo P-450 CYP2D6/farmacocinética , Deuterio , Método Doble Ciego , Interacciones Farmacológicas , Femenino , Humanos , Marcaje Isotópico , Microsomas Hepáticos/metabolismo , Paroxetina/farmacocinética , Paroxetina/uso terapéutico , Ensayo de Unión Radioligante , Ratas , Receptores de Serotonina/metabolismo , Inhibidores Selectivos de la Recaptación de Serotonina/farmacocinética , Inhibidores Selectivos de la Recaptación de Serotonina/farmacología , Sinaptosomas/metabolismo , Tamoxifeno/metabolismo
2.
J Mass Spectrom ; 48(6): 640-50, 2013 Jun.
Artículo en Inglés | MEDLINE | ID: mdl-23722954

RESUMEN

Atazanavir (marketed as Reyataz®) is an important member of the human immunodeficiency virus protease inhibitor class. LC-UV-MS(n) experiments were designed to identify metabolites of atazanavir after incubations in human hepatocytes. Five major (M1-M5) and seven minor (M7-M12) metabolites were identified. The most abundant metabolite, M1, was formed by a mono-oxidation on the t-butyl group at the non-prime side. The second most abundant metabolite, M2, was also a mono-oxidation product, which has not yet been definitively identified. Metabolites, M3 and M4, were structural isomers, which were apparently formed by oxidative carbamate hydrolysis. The structure of M5 comprises the non-prime side of atazanavir which contains a pyridinyl-benzyl group. Metabolite M6a was formed by the cleavage of the pyridinyl-benzyl side chain, as evidenced by the formation of the corresponding metabolic product, the pyridinyl-benzoic acid (M6b). Mono-oxidation also occurred on the pyridinyl-benzyl group to produce the low abundance metabolite M8. Oxidation of the terminal methyl groups produced M9 and M10, respectively, which have low chemical stability. Trace-level metabolites of di-oxidations, M11 and M12, were also detected, but the complexity of the molecule precluded identification of the second oxidation site. To our knowledge, metabolites M6b and M8 have not been reported.


Asunto(s)
Cromatografía Líquida de Alta Presión/métodos , Oligopéptidos/química , Piridinas/química , Espectrometría de Masas en Tándem/métodos , Sulfato de Atazanavir , Células Cultivadas , Femenino , Hepatocitos/química , Hepatocitos/metabolismo , Humanos , Iones/análisis , Iones/química , Iones/metabolismo , Masculino , Oligopéptidos/análisis , Oligopéptidos/metabolismo , Piridinas/análisis , Piridinas/metabolismo
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