Farinaz Jonidi Shariatzadeh, Vinith Yathindranath, Yang Liu, Donald W. Miller, Francis Lin, Sarvesh Logsetty, Song Liu
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Abstract
Excessive scar formation is a major complication of wound healing. Premature release of anti-scarring drugs can negatively impact healing. This study aims to develop a targeted delivery system for the controlled release of anti-scarring drugs during the scar formation stage. Solid lipid nanoparticles (SLNs) coated with Clathrin, a cage-like protein, to prevent premature drug release is developed. Insulin-like growth factor (IGF) is conjugated to the SLNs for targeted delivery via its affinity for connective tissue growth factor (CTGF), a protein overexpressed during scar formation. The IGF-Clathrin-SLNs exhibited a size of 300 ± 20 nm and a zeta potential of 9.23 ± 0.4 mV. In vitro studies demonstrated sustained release of the encapsulated drug- kynurenic acid; less than 10% of kynurenic acid is released within three days, while over 50% is released within 10 h upon Clathrin removal using a surfactant at pH 8. Cellular uptake studies confirmed targeting efficacy. Fibroblasts with low CTGF expression displayed low uptake (<10%), whereas MCF7 cells with high CTGF expression showed significantly higher uptake (80%). This work demonstrates a promising targeted delivery platform for the controlled release of anti-scarring drugs during scar formation.
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