1. 4-Aminoproline-based arginine-glycine-aspartate integrin binders with exposed ligation points: practical in-solution synthesis, conjugation and binding affinity evaluation
- Author
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Paola Burreddu, Claudio Curti, Leonardo Manzoni, Luciana Auzzas, Lucia Battistini, Gloria Rassu, Franca Zanardi, Carlo Scolastico, Elena M. V. Araldi, Paola Carta, and Giovanni Casiraghi
- Subjects
Integrins ,Binding Sites ,Arginine ,biology ,Proline ,Stereochemistry ,Chemistry ,Organic Chemistry ,Integrin ,Molecular Conformation ,Stereoisomerism ,Ligand (biochemistry) ,Biochemistry ,Combinatorial chemistry ,Solutions ,chemistry.chemical_compound ,Covalent bond ,Glycine ,biology.protein ,Humans ,Azide ,Physical and Theoretical Chemistry ,Receptor ,Oligopeptides ,Conjugate - Abstract
An expedient and practical in-solution synthesis of three new 4-aminoproline-based arginine-glycine-aspartate integrin binders--compounds 15, 17 and 19--is presented. Two candidates carrying exposed azide and amine functional points were further advanced to trimeric platform 21 as well as fluorescein- and DOTA-conjugates 23 and 25. The new compounds were assayed for their binding affinity towards human alpha(V)beta3 and alpha(V)beta5 integrin receptors. Both monomeric candidates and covalent conjugates revealed potent ligand competence for the alpha(V)beta3 receptor in the one-digit nanomolar range (IC50 alpha(V)beta3 = 0.2-8.0 nM; IC50 alpha(V)beta5 = 5.0-1621 nM), thus demonstrating that conjugation does not impair the exquisite binding profile of this new generation of integrin ligands.
- Published
- 2009
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