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Self-Assembled Skin-Penetrating Peptides with Controlled Supramolecular Properties for Enhanced Transdermal Deliveryopen access
- Authors
- Kang, Jeon Hyeong; Kim, Jieun; Lee, Jae Yun; Kang, DongHyun; Kim, Hyun Jin; Kim, Kyobum; Jeong, Woo-jin
- Issue Date
- Dec-2023
- Publisher
- American Chemical Society
- Keywords
- Amino Acid; Proteinase; Amino Acids; Peptides; Amino Acids; Hydrophobicity; Supramolecular Chemistry; Amino-acids; Amphiphilics; Building Blockes; Guest Molecules; Hydrophobic Moieties; Nanocarriers; Self Assembly Molecules; Self-assembly Behaviors; Supramolecular Properties; Transdermal Delivery; Peptides; Amino Acid; Peptide; Proteinase; Article; Conformational Transition; Controlled Study; Drug Delivery System; Encapsulation; Human; Human Tissue; Hydrophobicity; Macromolecule; Protein Secondary Structure; Skin; Skin Penetration; Supramolecular Chemistry; Thermostability; Chemistry; Cutaneous Drug Administration; Skin Absorption; Administration, Cutaneous; Amino Acids; Humans; Skin; Skin Absorption
- Citation
- Biomacromolecules, v.25, no.1, pp 436 - 443
- Pages
- 8
- Indexed
- SCIE
SCOPUS
- Journal Title
- Biomacromolecules
- Volume
- 25
- Number
- 1
- Start Page
- 436
- End Page
- 443
- ISSN
- 1525-7797
1526-4602
- Abstract
- The use of nanocarriers decorated with penetration-enhancing agents (PEAs) is considered to be a promising approach for efficient transdermal delivery. In this study, we developed short amphiphilic skin-penetrating peptides (17 amino acids) that functioned not only as PEAs but also as building blocks of nanocarriers without the incorporation of additional macromolecules for self-assembly and guest molecule encapsulation. Interestingly, varying only two amino acids in the hydrophobic moiety of the peptides resulted in significantly different self-assembly behavior, thermal stability, protease resistance, and skin-penetration efficiency in a human skin model. The analysis of the peptide secondary structure revealed that such characteristic changes arose due to the sequence variation-mediated conformational change in the hydrophobic block. These findings hold significant promise for the development of simple and effective delivery systems exhibiting controllable supramolecular properties.
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Related Researcher
- Kim, Kyo Bum
- College of Engineering (Department of Chemical and Biochemical Engineering)