AI Article Synopsis
- Integrin receptors are important targets for treating severe diseases due to their overexpression in various pathological conditions.
- Inhibition can be achieved by using small molecules that mimic the recognition sites of integrins, such as RGD and LDV.
- This review focuses on peptide-heterocycle hybrid structures that enhance the stability, bioavailability, and conformational specificity of antagonists through two main design approaches: using external scaffolds and incorporating heterocyclic cores into recognition motifs.
Article Abstract
The integrin receptors represent valuable targets for therapeutic interventions; being overexpressed in many pathological states, their inhibition can be effective to treat a number of severe diseases. Since integrin functions are mediated by interactions with ECM protein ligands, the inhibition can be achieved by interfering with such interactions using small mimetics of the integrin-ligand recognition motifs (e.g. RGD, LDV, etc.). In this review, we focus on the antagonists with peptideheterocycle hybrid structures. The introduction of well-designed scaffolds has met considerable success in the rational design of highly stable, bioavailable, and conformationally defined antagonists. Two main approaches are discussed herein. The first approach is the use of scaffolds external to the main recognition motifs, aimed at improving conformational definition. In the second approach, heterocyclic cores are introduced within the recognition motifs, giving access to libraries of 3D diverse candidate antagonists.
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| http://dx.doi.org/10.2174/1568026615666150812121614 | DOI Listing |
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