Robert E. Zelle scite author profile

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, 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.

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Convergent, enantiospecific total synthesis of the hypocholesterolemic agent (+)-compactin

Grieco¹,

Lis²,

Zelle³

et al. 1986

J. Am. Chem. Soc.

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Robert E. Zelle

A mild two-step method for the hydrolysis of lactams and secondary amides

Total synthesis of zincophorin

On the communication of chirality from furanose and pyranose rings to monosaccharide side chains: anomalous results in the glucose series

Altering Metabolic Profiles of Drugs by Precision Deuteration: Reducing Mechanism-Based Inhibition of CYP2D6 by Paroxetine

Convergent, enantiospecific total synthesis of the hypocholesterolemic agent (+)-compactin

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