Leading structures, synthesis

Perhaps the most important issues to consider now are the application of novel methodologies, molecular diversity, and synthetic convenience. There have been several reports of novel, one-pot procedures for the preparation of 1,2,4-triazoles with diverse structures. Synthesis of 1,2,4-triazoles on polymeric supports, in both solution and solid phase, represents a step toward the combinatorial synthesis of these heterocycles. It is these novel applications of technology to organic synthesis that perhaps lead the way in 1,2,4-triazole chemistry. 

An impressive example for the successful use of domino reactions for the synthesis of pharmacological lead structures was described by Paulsen et al1241 Recently, the difluoro compound 57 has been identified as highly potent inhibitor of the cholesterin-ester-transferprotein (CETP), which is responsible for a transfer of cholesterin from high-density lipoprotein (HDL) to low-density lipoprotein (LDL). This clearly results in an increase of LDL and a decrease of HDL which raise the risk of coronary heart desea-ses. The core structure of 57 is now accessible efficiently by a combination of a Mukaiyama-MichaeL... 

In recent years, developments in high-throughput screening inspired many pharmaceutical companies to focus and rely on combinatorial chemistry, especially massive parallel synthesis, to find new lead structures. The employed chemistry is often simple and the concept depends on sheer numbers for success. The main research areas were heterocyclic and peptide chemistry, and the resulting structures often lacked complexity and diversity, and most importantly the chance to utilize the evolutionary advantage of natural products with their privileged structures. 

DOS seems mainly important for lead identification. Based on the lead structure, additional structural complexity can be introduced in a direct manner by generating focused libraries. For the synthesis of complex molecules, total synthesis as it exists today and the development of selective reactions that accompany, it remain of major importance. Even in case of the successful identification of advanced leads or drug candidates from DOS, an efficient total synthesis is always required in order to provide sufficient amounts of a limited set of derivatives for detailed medicinal chemistry studies up to clinical trials. 

Two different lead structures were chosen for F-labeled MMPIs. The PET-compatible F-labeled analog [ F]CGS 27023A (Fig. 6) was introduced in the year 2001 without giving detailed information about the synthesis. Its... 

The advent of combinatorial techniques and solid phase organic synthesis may lead to preparation of large numbers of structurally related molecules in short periods of time. This is important especially for the optimization of lead structures in the pharmaceutical industry [40]. It is now well established and documented that the combinatorial technology and solid phase techniques could offer sufficient latitude for preparation of corresponding chemical libraries with broad structural diversity. The diverse potentiality of (3-lactam moiety as specific pharmacophores and scaffolds has attracted ample interests from pharmaceutical industries for the synthetic methods based on polymer-supported techniques. 

Nowadays, an increasing number of new pharmaceuticals have a natural lead structure or are directly derived from nature [1—4], Their often remarkable physiological activities are frequently linked to structures bearing a number of stereogenic centers. Consequently, asymmetric synthesis is becoming even more important both in industry and in academic research [5, 6],... 

Despite this proven record of biological significance there had been some doubts if natural products are suitable and accessible lead structures for combinatorial libraries by solid-phase synthesis. In contrast to the diversity-oriented approach of library design, which is driven by the underlying chemistry of reliable reactions with broad substrate scope [4], natural product... 

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