Journal article
Cyclization enhances function of linear anti-arthritic peptides
M Ali, M Amon, V Bender, A Bolte, F Separovic, H Benson, N Manolios
Clinical Immunology | ACADEMIC PRESS INC ELSEVIER SCIENCE | Published : 2014
Abstract
This study describes the biophysical and immunomodulatory features of a cyclic peptide termed C1 which consists of alternating d-, l-amino acids and is capable of inhibiting IL-2 production in vitro and reducing the induction and extent of T-cell mediated inflammation in animal models. Solid-state nuclear magnetic resonance demonstrates that the peptide orders the lipid bilayer, suggesting a transmembrane orientation, and this is supported by surface plasmon resonance indicating strong binding affinity of C1 to model membranes. In vitro cell viability and proliferation assays show that C1 does not disrupt the integrity of cell surface membranes. Permeation studies of C1 and analogs across hu..
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Funding Acknowledgements
We express our sincere appreciation to Kelvin Picker (School of Chemistry, University of Sydney) for helping with the purification of C1, Valentina Valova (Children Medical Research Institute) for mass spectroscopy analysis, Sarika Namjoshi (Curtin University) for the skin diffusion assays and Paul Foster (The University of Newcastle) for testing the asthma model. Financial support for M. All by the Henry Langley Fellowship (University of Sydney) and Barbara Cameron Fellowship (RACP) is also acknowledged.