THY1773 is a novel arginine vasopressin 1B (V 1B ) receptor antagonist that is under development as an oral drug for the treatment of major depressive disorder (MDD).Here we report our strategy to predict a clinically effective dose of THY1773 for MDD in the preclinical stage, and discuss the important insights gained by retrospective analysis of prediction accuracy. To predict human pharmacokinetic (PK) parameters, several extrapolation methods from animal or in vitro data to humans were investigated. The f u correction intercept method and two-species-based allometry were used to extrapolate clearance from rats and dogs to humans. The physiologically based pharmacokinetics (PBPK)/receptor occupancy (RO) model was developed by linking free plasma concentration with pituitary V 1B RO by the E max model. As a result, the predicted clinically effective dose of THY1773 associated with 50% V 1B RO was low enough (10 mg/day, or at maximum 110 mg/day) to warrant entering phase 1 clinical trials. In the phase 1 single ascending dose study, TS-121 capsule (active ingredient: THY1773) showed favorable PKs for THY1773 as expected, and in the separately conducted phase 1 RO study using positron emission tomography, the observed pituitary V 1B RO was comparable to our prediction. Retrospective analysis of the prediction accuracy suggested that the prediction methods considering plasma protein binding, and avoiding having to apply unknown scaling factors obtained in animals to humans, would lead to better prediction. Selecting mechanism-based methods with reasonable assumptions would be critical for the successful prediction of a clinically effective dose in the preclinical stage of drug development.
20-Hydroxyeicosatetraenoic acid (20-HETE)
is one of the
major oxidized
arachidonic acid (AA) metabolites produced by cytochrome P450 (CYP)
4A11 and CYP4F2 isozymes in the human liver and kidney. Numerous studies
have suggested the involvement of 20-HETE in the pathogenesis of renal
diseases, and suppression of 20-HETE production by inhibition of CYP4A11
and CYP4F2 may be an attractive therapeutic strategy for renal diseases.
At first, we identified methylthiazole derivative 2 as
a potent dual inhibitor of CYP4A11 and CYP4F2. An optimization study
of a series of derivatives with a molecular weight of around 300 to
improve aqueous solubility and selectivity against drug-metabolizing
CYPs while maintaining the CYP4A11- and CYP4F2-inhibitory activities
led to the identification of acetylpiperidine compound 11c. Compound 11c inhibited 20-HETE production in both
human and rat renal microsomes and exhibited a favorable pharmacokinetic
profile. Furthermore, 11c also significantly inhibited
renal 20-HETE production in Sprague-Dawley rats after oral dosing
at 0.1 mg/kg.
carboxylic acid acyl glucuronide); AUC, area under the concentration-time curve; BNPP, bis(p-nitrophenyl) phosphate; CES, carboxylesterase; CL total , total plasma clearance; C max ,
Human respiratory syncytial virus (RSV) is a major cause of lower respiratory tract infections in early childhood. However, no vaccines have yet been approved for prevention of RSV infection, and the treatment options are limited. Therefore, development of effective and safe anti-RSV drugs is needed. In this study, we evaluated the antiviral activity and mechanism of action of a novel macrocyclic anti-RSV compound, TP0591816. TP0591816 showed significant antiviral activities against both subgroup A and subgroup B RSV, while exerting no cytotoxicity. Notably, the antiviral activity of TP0591816 was maintained against a known fusion inhibitor-resistant RSV strain with a mutation in the cysteine-rich region or heptad repeat B. Results of time-of-addition assay and temperature shift assay indicated that TP0591816 inhibited fusion of RSV with the cell membrane during viral entry. In addition, TP0591816 added after cell infection also inhibited cell-cell fusion. A TP0591816-resistant virus strain selected by serial passage had an L141F mutation, but no mutation in the cysteine-rich region or heptad repeat B in F protein. Treatment with TP0591816 reduced lung virus titers in a dose-dependent manner in a mouse model of RSV infection. Furthermore, the estimated effective dose of TP0591816 for use against F protein mutants was thought to be clinically realistic and potentially tolerable. Taken together, these findings suggest that TP0591816 is a promising novel candidate for the treatment of resistant RSV infection.
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