Enhancing Transdermal Delivery: The Role of Gecko-Derived Cathelicidin Peptide G3CY-10 in UV-Induced Skin Photoaging
Yunjiao Wang, Zicheng Ma, Fengshuo Li, Xuanzeng Li, Ningyang Gao, Junhan Wang, Shasha Cai

TL;DR
This study explores a gecko-derived peptide, G3CY-10, delivered via a microemulsion gel to combat UV-induced skin aging and improve transdermal absorption.
Contribution
The study introduces a novel microemulsion gel system to enhance the transdermal delivery of the gecko-derived peptide G3CY-10 for anti-photoaging.
Findings
The G3CY-10 microemulsion gel significantly reduces epidermal thickness and sebaceous gland proliferation in UV-exposed skin.
The gel formulation improves collagen fiber density and reduces collagen degradation in murine models.
G3CY-10 inhibits UV-induced collagen degradation and restores superoxide dismutase levels.
Abstract
Ultraviolet (UV) radiation-induced skin photoaging impacts both appearance and skin health, potentially leading to disorders and cancer. Unlike traditional sunscreens, natural antioxidants can target photoaging at its source. Among these, cathelicidins have attracted considerable research interest due to their multifunctional properties. This study examines the gecko-derived cathelicidin-modified peptide G3CY-10, utilizing a microemulsion gel delivery system to address the challenges related to the transdermal absorption of macromolecular peptides, and systematically assesses its anti-photoaging effects and underlying mechanisms. The results demonstrate that the G3CY-10 microemulsion, formulated with a lecithin–ethanol–butyl acetate system (km = 1:1), exhibits notable stability, and the gelation significantly enhances the transdermal delivery efficiency of G3CY-10. The anti-photoaging…
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Taxonomy
TopicsSkin Protection and Aging · Antimicrobial Peptides and Activities · Advancements in Transdermal Drug Delivery
