Strategies for conducting ADME studies during lead generation in the drug discovery process.

Although the benefit of early ADME screening is widely recognized in the pharmaceutical industry, the implementation of this paradigm is often performed with insufficient resources and poor collaboration between functions. Dedicated and consistent integration efforts of ADME knowledge during the lead generation (LG) phase of drug discovery enables informed resourcing decisions and also increases the quality of initial starting points for discovery projects. To facilitate the efficient and consistent application of ADME resources to early projects at Eli Lilly and Co, a team of scientists was formed to provide dedicated ADME support to the LG phase of the discovery portfolio.

A study of the synthesis of triazoles using microwave irradiation.

Herein we describe the conversion of a known [3+2] cycloaddition reaction between an azide and an acetylene from a thermally promoted reaction to a microwave assisted process. Modification of conditions including concentration, temperature, solvent type and time were investigated. This methodology study led us to use high concentration and high temperatures to achieve the desired fast reaction times and high yields.

Characteristic physical properties and structural fragments of marketed oral drugs.

An increasingly competitive pharmaceutical market demands improvement in the efficiency and probability of drug candidate discovery. Usually these new drug candidates are targeted for oral administration, so a detailed understanding of the molecular-level properties that relate to optimal pharmacokinetics is a critical step toward improving the probability of selecting successful clinical candidates. Although the characteristics of druglike molecules have been previously discussed in the literature, the importance of this topic sustains a continued interest for additional perspective and further detailed statistical analyses.

Conversion of Allylic Alcohols into Allylic Nitromethyl Compounds via a Palladium-Catalyzed Solvolysis: An Enantioselective Synthesis of an Advanced Carbocyclic Nucleoside Precursor(1).

A two-step reaction sequence to homoallylic nitro compounds from allylic alcohols is presented. Ethoxy carbonylation of the alcohols with ethyl chloroformate provides the corresponding allylic ethyl carbonates in high yields. Exposure of these substrates to catalytic palladium(0) in CH(3)NO(2) initiates a reaction sequence, ionization-decarboxylation-nitromethylation, that culminates with the formation of nitroalkenes.