Synthesis and pharmacological evaluation of 11-(1,6-dimethyl-1,2,3,6-tetrahydropyridin-4-yl)-5H-dibenzo[b,e][1,4]diazepines with clozapine-like receptor occupancy at dopamine D1/D2 receptor.

Clozapine-like compound without agranulocytosis risk is need to cure the treatment resistant schizophrenia (TRS). We discovered (S)-3 as Clozapine-like dopamine D2/D1 receptor selectivity and improved reactive metabolites formation profile by the modification of piperazine moiety in Clozapine. The optimization of (S)-3 gave compound 5 to be best compound (approximately 10-fold stronger affinity for D2/D1 receptor and similar D2/D1 selectivity ratio with Clozapine). Clozapine-like D2/D1 receptor occupancy profile was proved by in vivo evaluation. In addition, the reactive metabolites derived agranulocytosis risk of compound 5 was considered to be lower than Clozapine. The pharmacology detail of compound 5 is being investigated to develop it for TRS treatment.

Design, synthesis and evaluations of spiro-fused benzoxaborin derivatives as novel boron-containing compounds.

Drug design using boron-containing heterocycles has attracted a great deal of attention because these compounds are believed to possess high biological activity. However, information on the synthetic methodology and pharmacokinetic profiling of boron-containing compounds is limited. In this study, we provide a new synthetic route for preparation of spiro-fused benzoxaborin derivatives and investigate their in vitro pharmacokinetic properties. Our efforts led to the successful construction of a chemical library of spiro-fused benzoxaborin derivatives with appropriate physicochemical and in vitro pharmacokinetic properties for oral drugs. These results indicate that the synthesized boron-containing compounds are therefore eligible for classification in a novel chemical library.

Discovery of new low-molecular-weight p53-Mdmx disruptors and their anti-cancer activities.

Although several p53-Mdm2-binding disruptors have been identified to date, few studies have been published on p53-Mdmx-interaction inhibitors. In the present study, we demonstrated that o-aminothiophenol derivatives with molecular weights of 200-300 selectively inhibited the p53-Mdmx interaction. S-2-Isobutyramidophenyl 2-methylpropanethioate (K-178) (1c) activated p53, up-regulated the expression of its downstream genes such as p21 and Mdm2, and preferentially inhibited the growth of cancer cells with wild-type p53 over those with mutant p53. Furthermore, we found that the S-isobutyryl-deprotected forms 1b and 3b of 1c and S-2-benzamidophenyl 2-methylpropanethioate (K-181) (3c) preferentially inhibited the p53-Mdmx interaction over the p53-Mdm2 interaction, respectively, by using a Flag-p53 and glutathione S-transferase (GST)-fused protein complex (Mdm2, Mdmx, DAPK1, or PPID). In addition, the interaction of p53 with Mdmx was lost by replacing a sulfur atom with an oxygen atom in 1b and 1c. These results suggest that sulfides such as 1b, 3b, 4b, and 5b interfere with the binding of p53-Mdmx, resulting in the dissociation of the two proteins. Furthermore, the results of oral administration experiments using xenografts in nude mice indicated that 1c reduced the volume of tumor masses to 49.0% and 36.6% that of the control at 100 mg/kg and 150 mg/kg, respectively, in 40 days.