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Modulating the mucosal drug delivery efficiency of polymeric nanogels tuning their redox response and surface charge

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Item Type:Article
Title:Modulating the mucosal drug delivery efficiency of polymeric nanogels tuning their redox response and surface charge
Creators Name:Udabe, J., Muñoz‐Juan, A., Tafech, B., Orellano, M.S., Hedtrich, S., Laromaine, A. and Calderón, M.
Abstract:Mucus is a hydrated, viscoelastic, and adhesive gel that lubricates and protects the body from pathogens; however, its protective function hinders drug/nanomedicine diffusion and treatment efficiency. Therefore, novel drug delivery strategies are required to overcome challenging mucosal barriers. Here, multi-responsive nanogels (NGs) are developed and explored their interaction with mucus. Specific NG features (e.g., surface charge, temperature responsiveness, and redox response) are evaluated in a typical mucus-associated environment (i.e., mucin proteins and high glutathione concentrations). The results demonstrate that biocompatibility and the capacity to deliver a protein through mucosal barriers in different in vitro and in vivo models highlight the importance of specific NG design elements. Disulfide bonds are highlighted as redox-sensitive cross-linkers within the NG structure as critical for drug delivery performance; they function as degradation points that enable NG degradation and subsequent drug release and anchoring points to adhere to mucin, thereby enhancing their residence time at the desired site of action. Additionally, it is confirmed that surface charges impact interactions with mucin; positively charged NGs exhibit improved interactions with mucin compared to negatively charged and neutral NGs. Overall, the findings underline the importance of redox response and surface charge in NG design for reaching efficient mucosal drug delivery.
Keywords:Disulfide Bonds, Drug Delivery, Glutathione, Mucin, Mucopenetration, Mucus, Multi-Responsive Nanogels, Animals, Caenorhabditis elegans, C. elegans
Source:Advanced Functional Materials
ISSN:1616-301X
Publisher:Wiley-VCH
Date:5 September 2024
Official Publication:https://doi.org/10.1002/adfm.202407044

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