AI Article Synopsis
- Cyclic peptides are effective pharmaceuticals due to their ability to bind a wide range of protein targets and offer advantages like oral availability and cell penetration.
- Traditionally discovered through natural products, recent advancements in display screening technology now allow for quick identification of cyclic peptide ligands that aren’t necessarily derived from nature.
- As the field matures, several cyclic peptide drugs from display screening have entered the market, but ongoing technological improvements are needed to enhance their effectiveness, particularly for targeting intracellular proteins and achieving better oral availability.
Article Abstract
Introduction: Cyclic peptides are an established class of pharmaceuticals, with the ability to bind to a broader range of protein targets than traditional small molecules while also being capable of oral availability and cell penetration. Historically, cyclic peptide drugs have been discovered almost exclusively through natural product mining approaches; however, the last two decades have seen the development of display screening approaches capable of rapidly identifying (i.e. not natural product derived) cyclic peptide ligands to targets of interest.
Areas Covered: In this review, the authors describe the current clinical landscape for cyclic peptide pharmaceuticals. This article focuses on the discovery approaches that have led to the development of different classes of molecules and how the development of newer technologies, particularly phage and mRNA display, has broadened the clinical applicability of such molecules.
Expert Opinion: The field of cyclic peptide drug discovery is reaching maturity, with the first drugs identified through display screening approaches reaching the market in recent years. Many more are in clinical trials; however, significant technical challenges remain. Technological improvements will be required over the coming years to facilitate the identification of membrane permeable cyclic peptides capable of oral availability and targeting intracellular proteins.
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| http://dx.doi.org/10.1080/17460441.2024.2367024 | DOI Listing |
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