Engineering Immunomodulatory Stents Using Zinc Ion–Lysozyme Nanoparticle Platform for Vascular Remodeling

Rapid endothelialization of cardiovascular materials can enhance the vascular remodeling performance. In this work, we developed a strategy for amyloid-like protein-assembly-mediated interfacial engineering to functionalize a biomimetic nanoparticle coating (BMC). Various groups (e.g., hydroxyl and...

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Bibliographic Details
Published in:ACS nano 2023-12, Vol.17 (23), p.23498-23511
Main Authors: Zhang, Bo, Wan, Huining, Liu, Xiyu, Yu, Tao, Yang, Yuan, Dai, Yan, Han, Yaling, Xu, Kai, Yang, Li, Wang, Yunbing, Zhang, Xingdong
Format: Article
Language:English
Subjects:
Animals
Coated Materials, Biocompatible - pharmacology
Muramidase
Nanoparticles
Organic Chemicals
Rabbits
Stents
Vascular Remodeling
Zinc
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Summary:Rapid endothelialization of cardiovascular materials can enhance the vascular remodeling performance. In this work, we developed a strategy for amyloid-like protein-assembly-mediated interfacial engineering to functionalize a biomimetic nanoparticle coating (BMC). Various groups (e.g., hydroxyl and carboxyl) on the BMC are responsible for chelating Zn2+ ions at the stent interface, similar to the glutathione peroxidase-like enzymes found in vivo. This design could reproduce the release of therapeutic nitric oxide gas (NO) and an aligned microenvironment nearly identical with that of natural vessels. In a rabbit abdominal aorta model, BMC-coated stents promoted vascular healing through rapid endothelialization and the inhibition of intimal hyperplasia in the placement sites at 4, 12, and 24 weeks. Additionally, better anticoagulant activity and immunomodulation in the BMC stents were also confirmed, and vascular healing was mainly dependent on cell signaling through the cyclic guanosine monophosphate-protein kinase G (cGMP-PKG) cascade. Overall, a metal–polypeptide-coated stent was developed on the basis of its detailed molecular mechanism of action in vascular remodeling.
ISSN:1936-0851
1936-086X
DOI:10.1021/acsnano.3c06103