Novel triazines as potent and selective phosphodiesterase 10A inhibitors.

The identification of highly potent and orally active triazines for the inhibition of PDE10A is reported. The new analogs exhibit low-nanomolar potency for PDE10A, demonstrate high selectivity against all other members of the PDE family, and show desired drug-like properties. Employing structure-based drug design approaches, we investigated the selectivity of PDE10A inhibitors against other known PDE isoforms, by methodically exploring the various sub-regions of the PDE10A ligand binding pocket. A systematic assessment of the ADME and pharmacokinetic properties of the newly synthesized compounds has led to the design of drug-like candidates with good brain permeability and desirable drug kinetics (t(1/2), bioavailability, clearance). Compound 66 was highly potent for PDE10A (IC(50)=1.4 nM), demonstrated high selectivity (>200×) for the other PDEs, and was efficacious in animal models of psychoses; reversal of MK-801 induced hyperactivity (MED=0.1mg/kg) and conditioned avoidance responding (CAR; ID(50)=0.2 mg/kg).

Effect of PDE10A inhibitors on MK-801-induced immobility in the forced swim test.

RATIONALE: Negative symptoms of schizophrenia are insufficiently treated by current antipsychotics. However, research is limited by the lack of validated models. Clinical data indicate that phencyclidine (PCP) abuse may induce symptoms resembling negative symptoms in humans. Based on that, Noda et al. proposed a model of PCP-induced increase of immobility in the forced swim test in mice as a model of depression-like negative symptoms of schizophrenia. OBJECTIVES: The aim of the study was to evaluate the effect of phosphodiesterase 10A (PDE10A) inhibition in this model which was modified by using MK-801 instead of PCP. METHODS: Increase of immobility in the forced swim test was induced by repeated MK-801 treatment followed by a 2-day washout in mice. The effect of haloperidol, clozapine, risperidone and PDE10A inhibitors was evaluated in this model, on open-field activity and acute MK-801-induced hyperactivity. RESULTS: Repeated MK-801 treatment significantly increased immobility in the forced swim test without affecting open-field activity. It induced hypersensitivity to the dopamine D1 agonist A-68930, suggesting a hypofunction of the D1 pathway. The increase of immobility is reversed by clozapine and PDE10A inhibitors, but not by haloperidol. Clozapine and the PDE10A inhibitors did not enhance activity at effective doses. CONCLUSION: The possibility to substitute PCP by MK-801 in this model indicates that the effect is mediated by their common mechanism of NMDA antagonism. PDE10A inhibitors similar to clozapine significantly antagonize the increase of immobility, suggesting a therapeutic potential for the treatment of negative symptoms. However, further validation of the model is necessary.

Highly potent, selective, and orally active phosphodiesterase 10A inhibitors.

The identification of highly potent and orally active phenylpyrazines for the inhibition of PDE10A is reported. The new analogues exhibit subnanomolar potency for PDE10A, demonstrate high selectivity against all other members of the PDE family, and show desired druglike properties. Employing structure-based drug design approaches, we methodically explored two key regions of the binding pocket of the PDE10A enzyme to alter the planarity of the parent compound 1 and optimize its affinity for PDE10A. Bulky substituents at the C9 position led to elimination of the mutagenicity of 1, while a crucial hydrogen bond interaction with Glu716 markedly enhanced its potency and selectivity. A systematic assessment of the ADME and PK properties of the new analogues led to druglike development candidates. One of the more potent compounds, 96, displayed an IC(50) for PDE10A of 0.7 nM and was active in predictive antipsychotic animal models.

Discovery of imidazo[1,5-a]pyrido[3,2-e]pyrazines as a new class of phosphodiesterase 10A inhibitiors.

Novel imidazo[1,5-a]pyrido[3,2-e]pyrazines have been synthesized and characterized as both potent and selective phosphodiesterase 10A (PDE10A) inhibitors. For in vitro characterization, inhibition of PDE10A mediated cAMP hydrolysis was used and a QSAR model was established to analyze substitution effects. The outcome of this analysis was complemented by the crystal structure of PDE10A in complex with compound 49. Qualitatively new interactions between inhibitor and binding site were found, contrasting with previously published crystal structures of papaverine-like inhibitors. In accordance with the known antipsychotic potential of PDE10A inhibitors, MK-801 induced stereotypy and hyperactivity in rats were reversed by selected compounds. Thus, a promising compound class has been identified for the treatment of schizophrenia that could circumvent side effects connected with current therapies.