Mild and practical method for the alpha-arylation of nitriles with heteroaryl halides.

[reaction: see text] A mild and transition-metal-free method for the alpha-arylation of aliphatic nitriles with activated heteroaryl halides was developed using NaHMDS or KHMDS as base at ambient temperature. The key to the success of this method is generation of the nitrile anion in the presence of the heteroaryl halide. The method is applicable to both primary and secondary carbonitriles and a wide range of heteroaryl halides. Selective monoarylation was observed with primary carbonitriles. The operational simplicity and the mild reaction conditions add to the value of this method as a practical alternative to the preparation of alpha-heteroaryl carbonitriles.

Efficient synthesis of a GABA A alpha2,3-selective allosteric modulator via a sequential Pd-catalyzed cross-coupling approach.

A practical synthesis of 2-[3-(4-fluoro-3-pyridin-3-yl-phenyl)-imidazo[1,2-a]pyrimidin-7-yl]-propan-2-ol (1), an oral GABA(A) alpha(2/3)-selective agonist, is described. The five-step process, which afforded 1 in 40% overall yield, included imidazopyrimidine 2 and pyridine boronic acid 4 as key fragments. The synthesis is highlighted by consecutive Pd-catalyzed coupling steps to assemble the final free base 1 in high yield and regioselectivity. A novel method for Pd removal in the final step is also described.

Stereoselective synthesis of an anti-HIV drug candidate.

The asymmetric synthesis of a Merck anti-HIV drug candidate is described. The target molecule contains four stereogenic centers, three of which are located in a highly functionalized cyclopentane unit. The convergent synthesis involves the preparation of two key advanced intermediates: the cyclopentane unit and a substituted pyrazole unit. The cyclopentane unit was prepared via two different procedures; a highly diastereoselective Diels-Alder reaction with a chiral oxazolidinone auxiliary and a sequence that incorporated a molybdenum-catalyzed asymmetric allylic alkylation reaction to set the stereocenters. The other key step was a highly diastereoselective hydroxyl-directed reductive amination. The overall yield for the 16-step synthesis was 10%.

An efficient synthesis of an alphavbeta3 antagonist.

A practical preparation of an alpha(v)beta(3) antagonist is reported. The antagonist consists of three key components, a tetrahydronaphthyridine moiety, a beta-alanine moiety, and a central imidazolidone moiety. The tetrahydronaphthyridine component was prepared using two different methods, both of which relied on variations of the Friedländer reaction to establish the desired regiochemistry. The beta-alanine component was prepared using Davies' asymmetric 1,4-addition methodology as the key stereo-defining step. The central imidazolidone portion was created from these two components using an effective three-step cyclization protocol. Thus, a highly convergent process for the drug candidate was defined.

Palladium-catalyzed regioselective arylation of imidazo[1,2-a]pyrimidine.

Imidazo[1,2-a]pyrimidine can be arylated at the 3-position with aryl bromides in the presence of base and a catalytic amount of palladium. This provides an efficient one-step synthesis of 3-arylimidazo[1,2-a]pyrimidines from the unsubstituted heterocycle. [reaction: see text]

An improved protocol for the preparation of 3-pyridyl- and some arylboronic acids.

3-Pyridylboronic acid was prepared in high yield and bulk quantity from 3-bromopyridine via a protocol of lithium-halogen exchange and "in situ quench". This technique was further studied and evaluated on other aryl halides in the preparation of arylboronic acids.