Piperidine derivatives as nonprostanoid IP receptor agonists 2.

We searched for a strong and selective nonprostanoid IP agonist bearing piperidine and benzanilide moieties. Through optimization of substituents on the benzanilide moiety, the crucial part of the agonist, 43 (2-((1-(2-(N-(4-tolyl)benzo[d][1,3]dioxole-5-carboxamido)ethyl)piperidin-4-yl)oxy)acetic acid monohydrate monohydrochloride) was discovered and exhibited strong platelet aggregation inhibition (IC50=21nM) and 100-fold selectivity for IP receptor over other PG receptors. The systemic exposure level and bioavailability after oral administration of 43 were also good in dog.

Piperidine derivatives as nonprostanoid IP receptor agonists.

The discovery of a new class of nonprostanoid prostaglandin I2 receptor (IP receptor) agonists is reported. Among them, the unique piperidine derivative 31b (2-((1-(2-(N-(4-tolyl)benzamido)ethyl)piperidin-4-yl)oxy)acetic acid) was a good IP receptor agonist and was 50-fold more selective for the human IP receptor than for other human prostanoid receptors. This compound showed good pharmacokinetic properties in dog.

Indolylpiperidine derivatives as potent and selective α1B adrenoceptor antagonists.

A series of novel indolylpiperidine derivatives were synthesized, and their pharmacological profiles were assessed at rat α1A and α1B adrenoceptors through in vitro binding studies. Compound 12 (2-(3-(4-(6-fluoro-1H-indol-3-yl)piperidin-1-yl)propyl)-1,2,3,4-tetrahydroisoquinoline) was a potent α1B adrenoceptor antagonist (Ki=0.61 nM) and was about 40-fold more selective for the α1B adrenoceptor than for the α1A adrenoceptor.

Synthesis of novel IP agonists via N-aminoethyl cyclic amines prepared by decarboxylative ring-opening reactions.

An efficient synthesis of a highly potent and selective IP (PGI(2) receptor) agonist that is not structurally analogous to PGI(2) is described. This synthesis is accomplished through the following key steps: Nucleophilic ring-opening of 3-(4-chlorophenyl)-oxazolidin-2-one prepared by a one-pot procedure with 4-piperidinol and selective O-alkylation of 1-(2-(4-chlorophenylamino)ethyl)piperidin-4-ol. The obtained compound is a potent and selective IP agonist displaying a long duration of action.

Efficient synthesis of a novel m-phenylene derivative as a selective EP4 agonist inducing follicular growth and maturation in the ovary.

An efficient and straightforward synthesis of a novel m-phenylene derivative has been developed. The optically pure dibromo compound was selected as a starting material. Through a protocol involving the Prins reaction and two steps of the Horner-Wadsworth-Emmons reaction, the basic skeleton was constructed with appropriate alpha and omega side chains.