Corilagin Functionalized Decellularized Extracellular Matrix As Artificial Blood Vessels with Improved Endothelialization and Anti-inflammation by Reactive Oxygen Species Scavenging

Overview

Journal Regen Biomater

Specialty Biomedical Engineering

Date 2024 Dec 12

PMID 39664941

Authors

Xu Wang

Hanmei Fu

Huibin Wu

Xiaohua Peng

Xu Peng

Xixun Yu

Hui Liu

Junmei Wu

Ling Luo

Shan Yan

Xinglin Cheng

Xiong Zhou

Xiangyang Yuan

Affiliations

Soon will be listed here.

Abstract

The performance of biological-originated blood vessels in clinical remains disappointing due to fast occlusion caused by acute thrombosis or long-standing inflammation. How to prevent rapid degradation and inhibit acute inflammation but maintain their high bioactivity is still a significant challenge. As a bioactive polyphenol in various traditional Chinese medicine, Corilagin (Cor) exhibits excellent anticoagulant, anti-inflammatory and rapid ROS consumption properties. Inspired by abundant supramolecular interactions in organisms, we selected it to crosslink tissues via purely H-bonds to simulate these natural interactions without introducing potential toxic aldehyde or carboxyl groups. Results show that 2 mg/ml was selected as the optimal Cor concentration to form a stable crosslinking network (FI > 95%) and effectively delay their degradation. Cor modification not only enhances ECs adhesion and monolayer function via accelerating VEGF and TGF-β secretion but also promotes macrophage transformation from pro-inflammatory M1 phenotype to anti-inflammatory M2 ones. and studies implied that Cor-crosslinked samples exhibited low platelet accumulation and decreased thrombin generation. evaluation further confirmed that Cor-introducing could effectively consume ROS, thus exhibiting rapid endothelialization, suppressed inflammation and reduced mineral deposition. Overall, Cor crosslinking provided a bright future for blood vessels' long-term patency and adapted to various blood-contacting surfaces.

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