Integrins as therapeutic targets

Design and Chemical Synthesis of Integrin Ligands

The design and synthesis of peptidic and nonpeptidic integrin ligands derived from the most abundant natural tripeptide sequence, RGD, are described in this article. Special emphasis is placed on the activity and selectivity of the ligands to integrin subtypes. Two approaches are described-ligand- and structure-oriented design. When no structure of the complex or the target is known, one may derive suitable starting points from natural peptide sequences, which often require conformational restriction for a further optimization. A "spatial screening" procedure was used to identify highly active and selective ligands for the integrin subtypes alphavbeta3 and alphaIIbbeta3. Structure-based methods require knowledge of the binding domain of the target. Hence, the first structure of the alphavbeta3 integrin with bound cilengitide was a landmark for the structure-based approach. Meanwhile, a design using homology models of other integrin subtypes has also been successfully applied. To improve the ADME profile, nonpeptidic ligands have been developed using the information of the spatial distances and orientations of the most important pharmacophoric groups (especially the carboxyl group and the basic moiety at the other end of the molecule). Applications of the alphavbeta3 ligands as drugs in antiangiogenic tumor therapy for molecular imaging of metastases and for improvement of biocompatibility of grafts are briefly described.

Alpha4 integrins and the immune response

The alpha4 integrins (alpha4beta1 and alpha4beta7) play multiple roles in the immune system. Alpha4 integrins impact hematopoiesis, leukocyte trafficking in immune surveillance and inflammation, and leukocyte activation and survival. To perform these functions, alpha4 integrins act as both adhesive and signaling receptors. Paxillin, a signaling adapter molecule, binds directly to the alpha4 subunit cytoplasmic domain, and its binding is regulated by serine phosphorylation of the alpha4 subunit. This regulated interaction of paxillin with the alpha4 subunit is likely to regulate the diverse functions of alpha4 integrins in the immune system. Furthermore, this protein-protein interaction may provide novel targets for the modulation of the immune response.

Discovery and evaluation of piperidinyl carboxylic acid derivatives as potent alpha(4)beta(1) integrin antagonists

Piperidinyl carboxylic acid-based derivatives were prepared as antagonists of the leukocyte cell adhesion process that is mediated through the interaction of the alpha(4)beta(1) integrin (VLA-4, very late antigen 4) and the vascular cell adhesion molecule 1 (VCAM-1). Compounds 2a-h inhibited the adhesion in a cell-based assay in the low and sub micromolar range, a pharmacokinetic study of 2d is reported.