AI Article Synopsis
- Interferon-alpha (IFNα) is a key immune protein that helps fight infections and tumors but can cause problems when produced in excess, leading to chronic infections and autoimmune diseases.
- Researchers are looking into ways to reduce excess IFNα production, with one promising method being the use of engineered peptides that can block IFNα's interaction with its receptor.
- The study focuses on creating a version of IFNα using D-amino acids, which could help identify stable, proteolysis-resistant peptide inhibitors, marking a step forward in developing new treatments.
Article Abstract
Interferon-alpha (IFNα) is a cytokine that orchestrates innate and adaptive immune responses and potently inhibits proliferation of normal and tumor cells. These properties have warranted the use of IFNα in clinical practice for the treatment of several viral infections and malignancies. However, overexpression of IFNα leads to immunopathology observed in the context of chronic viral infections and autoimmune conditions. Thus, it is desirable to develop therapeutic approaches that aim at suppressing excessive IFNα production. To that end, artificial evolution of peptides from phage display libraries represents a strategy that seeks to disrupt the interaction between IFNα and its cell surface receptor and thus inhibit the ensuing biological effects. Mirror-image phage display that screens peptide libraries against the D-enantiomer is particularly attractive because it allows for identification of proteolysis-resistant D-peptide inhibitors. This approach, however, relies on the availability of chemically synthesized D-IFNα composed entirely of D-amino acids. Here, we describe the synthesis and biological properties of IFNα2b of 165 amino acid residues produced by native chemical ligation, which represents an important first step toward the discovery of D-peptide antagonists with potential therapeutic applications.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC4480187 | PMC |
| http://dx.doi.org/10.1002/psc.2760 | DOI Listing |
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