Disruption of the CD40-CD154 interaction was found to be effective in the prevention and treatment of several immune-mediated diseases. The antibody-based strategy of inhibition was in humans limited by platelet activation leading to thrombotic effects. Other strategies different from antibody technology may be useful to create tools to interfere with CD40-CD154 pathway. In the present study, we selected and characterized from a phage display library, cyclic hepta-peptides specific for human CD154 through biopanning against plate-immobilized recombinant hCD154-muCD8. Nine phage clones were selected for the ability to bind CD154 expressed on the surface of J558L cells transfected with human CD154. From the nine selected phage clones, we obtained seven different amino acidic sequences, and the corresponding hepta-peptides rendered cyclic by two cysteines were synthesized. All the peptides specifically bound CD154 expressed on J558L. However, only the peptide 4.10 (CLPTRHMAC) was found to recognize the active binding site of CD154, as it competed with the blocking anti-CD154 antibody. When changes in the amino acid composition were introduced in the sequence of 4.10 peptide, the binding to CD154 was abrogated, suggesting that the amino acid sequence was critical for its specificity. This peptide was found to inhibit the CD40-CD154 interaction, preventing CD40-dependent activation of B lymphocytes in vitro as it was able, as the blocking anti-human CD154 mAb, to prevent the expression of CD80 and CD86 costimulatory molecules and switching of Ig isotype induced by CD154. Moreover, the peptide 4.10 inhibited the in vitro endothelial cell motility and organization into capillary-like structures, and the in vivo angiogenesis of human umbilical cord-derived endothelial cells implanted in Matrigel in severe combined immunodeficiency mice. In vitro studies on platelet activation demonstrated that the 4.10 peptide, at variance of the anti-CD154 mAb, was unable to prime human platelet activation and aggregation. In conclusion, we identify a cyclic hepta-peptide able to displace the binding of human CD154 to CD40 expressed on cell surface and to abrogate some biological effects related to the CD40 stimulation, such as B cell activation and endothelial triggered angiogenesis.
Inhibition of CD40-CD154 costimulatory pathway by a cyclic peptide targeting CD154
DEAMBROSIS, Ilaria;GIARETTA, Fulvia Maria;BIANCONE, Luigi;BUSSOLATI, Benedetta;CAMUSSI, Giovanni
2009-01-01
Abstract
Disruption of the CD40-CD154 interaction was found to be effective in the prevention and treatment of several immune-mediated diseases. The antibody-based strategy of inhibition was in humans limited by platelet activation leading to thrombotic effects. Other strategies different from antibody technology may be useful to create tools to interfere with CD40-CD154 pathway. In the present study, we selected and characterized from a phage display library, cyclic hepta-peptides specific for human CD154 through biopanning against plate-immobilized recombinant hCD154-muCD8. Nine phage clones were selected for the ability to bind CD154 expressed on the surface of J558L cells transfected with human CD154. From the nine selected phage clones, we obtained seven different amino acidic sequences, and the corresponding hepta-peptides rendered cyclic by two cysteines were synthesized. All the peptides specifically bound CD154 expressed on J558L. However, only the peptide 4.10 (CLPTRHMAC) was found to recognize the active binding site of CD154, as it competed with the blocking anti-CD154 antibody. When changes in the amino acid composition were introduced in the sequence of 4.10 peptide, the binding to CD154 was abrogated, suggesting that the amino acid sequence was critical for its specificity. This peptide was found to inhibit the CD40-CD154 interaction, preventing CD40-dependent activation of B lymphocytes in vitro as it was able, as the blocking anti-human CD154 mAb, to prevent the expression of CD80 and CD86 costimulatory molecules and switching of Ig isotype induced by CD154. Moreover, the peptide 4.10 inhibited the in vitro endothelial cell motility and organization into capillary-like structures, and the in vivo angiogenesis of human umbilical cord-derived endothelial cells implanted in Matrigel in severe combined immunodeficiency mice. In vitro studies on platelet activation demonstrated that the 4.10 peptide, at variance of the anti-CD154 mAb, was unable to prime human platelet activation and aggregation. In conclusion, we identify a cyclic hepta-peptide able to displace the binding of human CD154 to CD40 expressed on cell surface and to abrogate some biological effects related to the CD40 stimulation, such as B cell activation and endothelial triggered angiogenesis.File | Dimensione | Formato | |
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