Antipsychotic-like effects of a novel phosphodiesterase 10A inhibitor MT-3014 in rats.

Phosphodiesterase (PDE) 10A is an attractive therapeutic target for schizophrenia. Here, we investigated the antipsychotic-like effects of a novel PDE10A inhibitor, 1-({2-(7-fluoro-3-methylquinoxalin-2-yl)-5-[(3R)-3-fluoropyrrolidin-1-yl]pyrazolo[1,5-α]pyrimidin-7-yl}amino)-2-methylpropan-2-ol hydrochloride (MT-3014) in rats. MT-3014 showed a potent and selective inhibitory effect against PDE10A (IC50 = 0.357 nmol/L). Oral administration of MT-3014 (1.0-10 mg/kg) significantly increased the levels of cAMP, cGMP and cAMP response element-binding protein (CREB) phosphorylation in the rat striatum. MT-3014 decreased MK-801 (0.075 mg/kg)-induced hyperactivity (ED50 = 0.30 mg/kg) in a dose-dependent manner, although it decreased spontaneous locomotion in control rats (ED50 = 0.48 mg/kg); its effects were equivalent to those of risperidone. MT-3014 (0.3-3.0 mg/kg and 0.2 mg/kg) attenuated MK-801-induced prepulse inhibition deficits and cognitive deficits in rats, respectively, whereas risperidone attenuated MK-801-induced prepulse inhibition at only a high dose and failed to improve MK-801-induced cognitive deficits. Similar to risperidone (ID50 = 0.63 mg/kg), MT-3014 suppressed the conditioned avoidance response (ID50 = 0.32 mg/kg). Interestingly, MT-3014 did not elicit catalepsy and plasma prolactin increases at high doses. Furthermore, it also did not affect body weight. A positron emission tomography study using [11C]IMA107 showed a plasma concentration-dependent increase in brain PDE10A occupancy after oral administration of MT-3014 within the pharmacological dose range in rats. Brain PDE10A occupancy corresponding to the ID50 value in the conditioned avoidance response was approximately 60%, predicting the target occupancy in patients with schizophrenia. These results suggest that MT-3014 may be a novel antipsychotic drug, which is expected to have additional effects on cognitive impairment, without the prominent side effects associated with current atypical antipsychotics.

Discovery of a pyrazolo[1,5-a]pyrimidine derivative (MT-3014) as a highly selective PDE10A inhibitor via core structure transformation from the stilbene moiety.

We have developed a new class of PDE10A inhibitor, a pyrazolo[1,5-a]pyrimidine derivative MT-3014 (1). A previous compound introduced was deprioritized due to concerns for E/Z-isomerization and glutathione-adduct formation at the core stilbene structure. We discovered pyrazolo [1,5-a] pyrimidine as a new lead scaffold by structure-based drug design utilizing a co-crystal structure with PDE10A. The lead compound was optimized for in vitro activity, solubility, and selectivity against human ether-á-go-go related gene cardiac channel binding. We observed that MT-3014 shows excellent efficacy in rat conditioned avoidance response test and suitable pharmacokinetic properties in rats, especially high brain penetration.

Prediction of Human Distribution Volumes of Compounds in Various Elimination Phases Using Physiologically Based Pharmacokinetic Modeling and Experimental Pharmacokinetics in Animals.

Predicting the pharmacokinetics of compounds in humans is an important part of the drug development process. In this study, the plasma concentration profiles of 10 marketed compounds exhibiting two-phase elimination after intravenous administration in humans were evaluated in terms of distribution volumes just after intravenous administration (V 1), at steady state (V ss), and in the elimination phase (Vß ) using physiologically based pharmacokinetic (PBPK) modeling implemented in a commercially available simulator (Simcyp). When developing human PBPK models, the insight gained from prior animal PBPK models based on nonclinical data informed the optimization of the lipophilicity input of the compounds and the selection of the appropriate mechanistic tissue partition methods. The accuracy of V 1, V ss, and Vß values predicted that using human PBPK models developed in accordance with prior animal PBPK models was superior to using those predicted using conventional approaches, such as allometric scaling, especially for V 1 and Vß By conventional approaches, the V 1 and Vß values of 4-5 of 10 compounds were predicted within a 3-fold error of observed values, whereas V ss values for their majority were predicted as such. PBPK models predicted V 1, V ss, and Vß values for almost all compounds within 3-fold errors, resulting in better predictions of plasma concentration profiles than allometric scaling. The distribution volumes predicted using human PBPK models based on prior animal PBPK modeling were more accurate than those predicted without reference to animal models. This study demonstrated that human PBPK models developed with consideration of animal PBPK models could accurately predict distribution volumes in various elimination phases.

Discovery of evocalcet, a next-generation calcium-sensing receptor agonist for the treatment of hyperparathyroidism.

The calcium-sensing receptor (CaSR) plays an important role in sensing extracellular calcium ions and regulating parathyroid hormone secretion by parathyroid gland cells, and the receptor is a suitable target for the treatment of hyperparathyroidism. Cinacalcet hydrochloride is a representative CaSR agonist which widely used for the hyperparathyroidism. However, it has several issues to clinical use, such as nausea/vomiting and strong inhibition of CYP2D6. We tried to improve these issues of cinacalcet for a new pharmaceutical agent as a preferable CaSR agonist. Optimization from cinacalcet resulted in the identification of pyrrolidine compounds and successfully led to the discovery of evocalcet as an oral allosteric CaSR agonist. Evocalcet, which exhibited highly favorable profiles such as CaSR agonistic activity and good DMPK profiles, will provide a novel therapeutic option for secondary hyperparathyroidism.

Discovery of 2-[(E)-2-(7-Fluoro-3-methylquinoxalin-2-yl)vinyl]-6-pyrrolidin-1-yl-N-(tetrahydro-2H-pyran-4-yl)pyrimidin-4-amine Hydrochloride as a Highly Selective PDE10A Inhibitor.

Phosphodiesterase (PDE) 10A is a dual hydrolase of cAMP and cGMP and highly expressed in striatal medium spiny neurons. Inhibition of PDE10A modulates the activity of medium spiny neurons (MSN) via the regulation of cAMP and cGMP. Signal control of MSN is considered associated with psychotic symptoms. Therefore PDE10A inhibitor is expected as a therapeutic method for psychosis disease such as schizophrenia. Avanafil (1) is a PDE5 inhibitor (treatment for erectile dysfunction) discovered by our company. We paid attention to the homology of PDE10A and PDE5 and took advantage of PDE5 inhibitor library to discover PDE10A inhibitors, and found a series of compounds that exhibit higher potency for PDE10A than PDE5. We transformed the afforded derivatives, which had weak inhibitory activity against PDE10A, and discovered stilbene as a PDE10A inhibitor. Brain penetration of this compound was improved by further conversion of N-containing heterocycles and their substituents. The afforded dimethylaminopyrimidine was effective for rat conditioned avoidance response (CAR) test; however, it did not exhibit good brain penetration. We performed in-depth optimization focusing on substituents of the quinoxaline ring, and produced 3-methyl-7-fluoro quinoxaline. This compound was the most effective in rat CAR test due to its strong PDE10A inhibitory activity and good pharmacokinetics.

Exclusion of assembled MreB by anionic phospholipids at cell poles confers cell polarity for bidirectional growth.

Cell polarity determines the direction of cell growth in bacteria. MreB actin spatially regulates peptidoglycan synthesis to enable cells to elongate bidirectionally. MreB densely localizes in the cylindrical part of the rod cell and not in polar regions in Escherichia coli. When treated with A22, which inhibits MreB polymerization, rod-shaped cells became round and MreB was diffusely distributed throughout the cytoplasmic membrane. A22 removal resulted in restoration of the rod shape. Initially, diffuse MreB started to re-assemble, and MreB-free zones were subsequently observed in the cytoplasmic membrane. These MreB-free zones finally became cell poles, allowing the cells to elongate bidirectionally. When MreB was artificially located at the cell poles, an additional pole was created, indicating that artificial localization of MreB at the cell pole induced local peptidoglycan synthesis. It was found that the anionic phospholipids (aPLs), phosphatidylglycerol and cardiolipin, which were enriched in cell poles preferentially interact with monomeric MreB compared with assembled MreB in vitro. MreB tended to localize to cell poles in cells lacking both aPLs, resulting in production of Y-shaped cells. Their findings indicated that aPLs exclude assembled MreB from cell poles to establish cell polarity, thereby allowing cells to elongate in a particular direction.

An LC/ESI-SRM/MS method to screen chemically modified hemoglobin: simultaneous analysis for oxidized, nitrated, lipidated, and glycated sites.

Proteins are continuously exposed to various reactive chemical species (reactive oxygen/nitrogen species, endogenous/exogenous aldehydes/epoxides, etc.) due to physiological and chemical stresses, resulting in various chemical modifications such as oxidation, nitration, glycation/glycoxidation, lipidation/lipoxidation, and adduct formation with drugs/chemicals. Abundant proteins with a long half-life, such as hemoglobin (Hb, t 1/2 63 days, ∼150 mg/mL), are believed to be major targets of reactive chemical species that reflect biological events. Chemical modifications on Hb have been investigated mainly by mechanistic in vitro experiments or in vivo/clinical experiments focused on single target modifications. Here, we describe an optimized LC/ESI-SRM/MS method to screen oxidized, nitrated, lipidated, and glycated sites on Hb. In vivo preliminary results suggest that this method can detect simultaneously the presence of oxidation (+16 Da) of α-Met(32), α-Met(76), ß-Met(55), and ß-Trp(15) and adducts of malondialdehyde (+54 Da) and glycation (+162 Da) of ß-Val(1) in a blood sample from a healthy volunteer. Graphical Abstract Screening chemical modifications on hemoglobin.

Avanafil, a potent and highly selective phosphodiesterase-5 inhibitor for erectile dysfunction.

PURPOSE: We investigated the in vitro inhibitory effects of avanafil, a novel, potent inhibitor of phosphodiesterase-5, on 11 phosphodiesterases. We also studied its potentiation of penile tumescence in dogs. MATERIALS AND METHODS: Phosphodiesterase assay was done with the 4 phosphodiesterase-5 inhibitors avanafil, sildenafil, vardenafil and tadalafil using 11 phosphodiesterase isozymes. In anesthetized dogs the pelvic nerve was repeatedly stimulated to evoke tumescence. Intracavernous pressure was measured after avanafil or sildenafil administration. RESULTS: Avanafil specifically inhibited phosphodiesterase-5 activity at a 50% inhibitory concentration of 5.2 nM. Avanafil showed higher selectivity (121-fold) against phosphodiesterase-6 than sildenafil and vardenafil (16 to 21-fold) and showed excellent selectivity (greater than 10,000-fold) against phosphodiesterase-1 compared with sildenafil (375-fold). Avanafil also had higher selectivity against phosphodiesterase-11 than tadalafil (greater than 19,000 vs 25-fold). Avanafil also showed excellent selectivity against all other phosphodiesterases. After intravenous administration in anesthetized dogs the 200% effective dose of avanafil and sildenafil on the penile tumescence was 37.5 and 34.6 µg/kg, respectively. After intraduodenal administration the 200% effective dose of avanafil and sildenafil on tumescence was 151.7 and 79.0 µg/kg at the peak time, respectively. Time to peak response with avanafil and sildenafil was 10 and 30 minutes, respectively, indicating a more rapid onset of avanafil. CONCLUSIONS: Avanafil has a favorable phosphodiesterase-5 selectivity profile compared to that of marketed phosphodiesterase-5 inhibitors. Avanafil shows excellent in vitro and in vivo potency, and fast onset of action for penile erection. Cumulative data suggest that avanafil has a promising pharmacological profile for erectile dysfunction.

Broad but distinct role of pregnane x receptor on the expression of individual cytochrome p450s in human hepatocytes.

In the present study, we have utilized a target selective human pregnane X receptor-siRNA (hPXR-siRNA)-adenovirus expression system to examine the contribution of hPXR on the gene regulation of drug-metabolizing P450s in human hepatocytes. Introduction of the hPXR-siRNA adenoviral vector reduced the level of PXR mRNA. After infection with Ad hPXR-siRNA, the basal and ligand-activated CYP2A6, CYP2C8, CYP3A4 and CYP3A5 mRNA levels were decreased significantly in dose-dependent manners, whereas CYP2B6, CYP2C9 and CYP2C19 mRNA levels were moderately influenced after infection with Ad hPXR-siRNA. These data suggest the distinct PXR influences on the regulation of these genes. The expression of CYP1A2 and CYP2D6 mRNA were not affected by the introduction of hPXR-siRNA, suggesting that PXR plays no functional role in the expression of either of these genes. This is the first report to compare simultaneously the relative contribution of hPXR on the expression of nine forms of P450 in primary cultured human hepatocytes. Mutual sharing among nuclear receptors of their binding cis-elements becomes clear now. Thus, the present method using the combination of adenovirus-mediated hPXR-siRNA expression and human hepatocytes may offer clear information on the relative role of nuclear receptors such as hPXR on the expression of drug metabolizing genes.