1. Design, structure and biological activity of β-turn peptides of CD2 protein for inhibition of T-cell adhesion
- Author
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Seetharama D. Jois, Vincent T. K. Chow, Irwan T. Makagiansar, Liu Jining, Helena Yusuf-Makagiansar, and Teruna J. Siahaan
- Subjects
chemistry.chemical_classification ,Protein structure ,Biochemistry ,Molecular model ,chemistry ,Docking (molecular) ,Plasma protein binding ,Binding site ,Peptide sequence ,Epitope ,Cyclic peptide - Abstract
The interaction between cell-adhesion molecules CD2 and CD58 is critical for an immune response. Modulation or inhibition of these interactions has been shown to be therapeutically useful. Synthetic 12-mer linear and cyclic peptides, and cyclic hexapeptides based on rat CD2 protein, were designed to modulate CD2-CD58 interaction. The synthetic peptides effectively blocked the interaction between CD2-CD58 proteins as demonstrated by antibody binding, E-rosetting and heterotypic adhesion assays. NMR and molecular modeling studies indicated that the synthetic cyclic peptides exhibit beta-turn structure in solution and closely mimic the beta-turn structure of the surface epitopes of the CD2 protein. Docking studies of CD2 peptides and CD58 protein revealed the possible binding sites of the cyclic peptides on CD58 protein. The designed cyclic peptides with beta-turn structure have the ability to modulate the CD2-CD58 interaction.
- Published
- 2004
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