Clinical
development of catechol-based orthosteric agonists of
the dopamine D1 receptor has thus far been unsuccessful due to multiple
challenges. To address these issues, we identified LY3154207 (3) as a novel, potent, and subtype selective human D1 positive
allosteric modulator (PAM) with minimal allosteric agonist activity.
Conformational studies showed LY3154207 adopts an unusual boat conformation,
and a binding pose with the human D1 receptor was proposed based on
this observation. In contrast to orthosteric agonists, LY3154207 showed
a distinct pharmacological profile without a bell-shaped dose-response
relationship or tachyphylaxis in preclinical models. Identification
of a crystalline form of free LY3154207 from the discovery lots was
not successful. Instead, a novel cocrystal form with superior solubility
was discovered and determined to be suitable for development. This
cocrystal form was advanced to clinical development as a potential
first-in-class D1 PAM and is now in phase 2 studies for Lewy body
dementia.
The design, synthesis, and biological characterization of an orally active prodrug (3) of gemcitabine are described. Additionally, the identification of a novel co-crystal solid form of the compound is presented. Valproate amide 3 is orally bioavailable and releases gemcitabine into the systemic circulation after passing through the intestinal mucosa. The compound has entered clinical trials and is being evaluated as a potential new anticancer agent.
ABSTRACT:The carboxylesterases (CESs) are a family of serine hydrolases that hydrolyze compounds containing an ester, amide, or thioester. In humans, two dominant forms, CES1 and CES2, are highly expressed in organs of first-pass metabolism and play an important role in xenobiotic metabolism. The current study was conducted to better understand species-related differences in substrate selectivity and tissue expression of these enzymes. To elucidate potential similarities and differences among these enzymes, a series of 4-nitrophenyl esters and a series of gemcitabine prodrugs were evaluated using enzyme kinetics as substrates of expressed and purified CESs from beagle dog, cynomolgus monkey, and human genes. For the substrates examined, human and monkey CES2 more efficiently catalyzed hydrolysis compared with CES1, whereas CES1 was the more efficient enzyme in dog. Quantitative real-time polymerase chain reaction and Western blot analyses indicate that the pattern of CES tissue expression in monkey is similar to that of human, but the CES expression in dog is unique, with no detectable expression of CES in the intestine. Loperamide, a selective human CES2 inhibitor, was also found to be a CES2-selective inhibitor in both dog and monkey. This is the first study to examine substrate specificity among dog, human, and monkey CESs.
Chiral tertiary alpha-hydroxy esters of known stereochemical configuration were transformed to alpha-azido esters by Mitsunobu reaction with HN3. Optimization of this reaction was shown to proceed at room temperature with high chemical yield using 1,1-(azodicarbonyl)dipiperidine (ADDP) and trimethylphosphine (PMe3). Complete inversion of configuration was observed at the alpha-carbon. Several alpha,alpha-disubstituted amino acids were synthesized in high overall chemical yield and optical purity.
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