Chicoric acid inserted in protein Z cavity exhibits higher stability and better wound healing effect under oxidative stress

Oxidative stress is one of the limiting factors that inhibit wound healing. Phytochemicals especially chicoric acid have the potential to act as an antioxidant and scavenge reactive oxygen species, thereby promoting wound healing. However, most of the phytochemicals were easy to be degraded during s...

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Bibliographic Details
Published in:International journal of biological macromolecules 2024-02, Vol.258 (Pt 1), p.128823-128823, Article 128823
Main Authors: Jiang, Zhenghui, Xu, Chen, Gan, Jing, Sun, Mingyang, Zhang, Xuanqi, Zhao, Guanghua, Lv, Chenyan
Format: Article
Language:English
Subjects:
Chicoric acid
Oxidative stress
Protein Z
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Summary:Oxidative stress is one of the limiting factors that inhibit wound healing. Phytochemicals especially chicoric acid have the potential to act as an antioxidant and scavenge reactive oxygen species, thereby promoting wound healing. However, most of the phytochemicals were easy to be degraded during storage or using due to the oxidative status in wound site. Herein, we introduce a high stable protein Z that can encapsulate chicoric acid during foaming. TEM results showed that the size of protein Z-chicoric acid is in the range of nanoscale (named PZ-CA nanocomposite), and protein Z encapsulation can significantly improve the stability of chicoric acid under oxidative stress. Moreover, PZ-CA nanocomposite exhibited favorable antioxidant properties, biocompatibility, and the ability to promote cell migration in vitro. The role of PZ-CA nanocomposite in skin regeneration was explored by a mice model. Results in vivo suggest that the PZ-CA nanocomposite promotes wound healing with a faster rate as compared with a commercial spray solution, mostly through attenuating the oxidative stress, promoting cell proliferation and collagen deposition. This work not only provides a delivery vector for bioactive molecules, but also develops a kind of nanocomposite with the property of promoting wound healing. •PZ encapsulates CA by foaming.•PZ encapsulation improved the stability of CA under oxidative stress.•PZ-CA nanocomposites showed antioxidant properties, biocompatibility and the ability to promote cell migration in vitro.•PZ-CA nanocomposites have the potential to promote wound healing in vivo.
ISSN:0141-8130
1879-0003
DOI:10.1016/j.ijbiomac.2023.128823