AI Article Synopsis
- Skin is a challenging barrier for drug delivery due to its top layer, which limits drug permeability.
- Researchers identified a peptide (T2) that improves skin penetration of various drug molecules, including a hydrophilic drug called 5-fluorouracil (5-FU), by pre-treating skin with it.
- The T2 peptide interacts with skin lipids and enhances the diffusion of drugs into the skin, providing a new, safe, and noninvasive method for improving drug delivery without any chemical modifications.
Article Abstract
Skin is an important site for local or systemic application of drugs. However, a majority of drugs have poor permeability through the skin's topmost layer, stratum corneum (SC). The aim of this study was to identify safe and smaller peptides that could enhance the skin penetration of drug molecules. By screening phage display peptide library, we have identified a T2 peptide (LVGVFH), which enhanced the penetration of bacteriophages (~800 nm long bacterial viruses) across porcine and mouse skin. Pretreating the skin with synthetic T2 peptide at pH 4.5 resulted in significant penetration enhancement of hydrophilic drug 5-fluorouracil (5-FU) across skin. FTIR spectroscopy showed that the T2 peptide interacted with skin lipids to enhance the skin penetration. Pretreating the skin with T2 peptide enhanced the partitioning of small molecules with different lipophilicities (5-FU, fluorescein isothiocyanate, and rhodamine 123 hydrochloride) into skin. Fluorescence studies showed that T2 peptide enhanced the diffusion of these molecules into intercellular lipids of SC and thus enhanced the penetration into the skin. Histidine at the c-terminus of T2 peptide was identified to be critical for the skin penetration enhancement. T2 peptide interacted with skin lipids to cause skin penetration enhancement. The study identified a novel, safe, and noninvasive peptide to improve the skin penetration of drugs without chemical conjugation.
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| http://dx.doi.org/10.1021/mp200594z | DOI Listing |
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