An Immunomodulating Regenerating Hydrogel That Rescues the Oxidative Microenvironment and Reverses Cell Senescence for Osteoporotic Bone Defects

Wei Wang; Xing Zhang; Lichen Zhang; Ziang Li; Lingjun Wang; Xinzhao Jiang; Jie Wu; Liang Zhou; Qiangqiang Guo; Yiyang Huang; Wenbo Wang; Kun Xi; Gert Storm; Yong Gu; Liang Chen

doi:10.1021/acsnano.5c06549

An Immunomodulating Regenerating Hydrogel That Rescues the Oxidative Microenvironment and Reverses Cell Senescence for Osteoporotic Bone Defects

Wei Wang, Xing Zhang, Lichen Zhang, Ziang Li, Lingjun Wang, Xinzhao Jiang, Jie Wu, Liang Zhou, Qiangqiang Guo, Yiyang Huang, Wenbo Wang, Kun Xi^*, Gert Storm^*, Yong Gu^*, Liang Chen^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

Osteoporosis, which is characterized by reduced bone mass and structurally compromised bone tissue, along with aberrant levels of reactive oxygen species (ROS) and inflammation, has been a pressing clinical challenge. A large accumulation of ROS and pro-inflammatory factors can result in mitochondrial dysfunction and progressive cellular senescence, impeding efficacious regeneration of bone defects. Herein, in this work, a ROS-responsive hydrogel system containing HA-PBA coated Ce-ZOL nanocomposites (GHCZ) for excessive ROS scavenging and reversal of cellular senescence to accelerate bone regeneration in osteoporosis was designed and presented. The GHCZ hydrogel system allows for the sustained release of HA-PBA coated Ce-ZOL nanoparticles, which may scavenge the extracellular and intracellular ROS of BMSCs and macrophages through their prominent enzyme-like catalytic effect. Moreover, the GHCZ hydrogel system transforms the polarization phenotype of macrophages into anti-inflammation M2 type and inhibits pro-inflammatory cytokines. Meanwhile, it could reverse the senescence of BMSCs and apparently elevate their pro-osteogenic capacity through safeguarding mitochondrial function and reprograming the metabolic processes, ultimately promoting the healing of bone defects. Based on in vitro and in vivo results, powerful immunomodulation, favorable pro-inflammatory/oxidative microenvironment reshaping properties, desirable mitochondrial protection, and superior pro-osteogenic capacity of such a GHCZ hydrogel system display the profound effects on augmenting bone repair, which offers a paradigm for treating osteoporotic bone defects.

Original language	English
Pages (from-to)	28353-28371
Number of pages	19
Journal	ACS Nano
Volume	19
Issue number	31
Early online date	3 Aug 2025
DOIs	https://doi.org/10.1021/acsnano.5c06549
Publication status	Published - 12 Aug 2025

Bibliographical note

Publisher Copyright:
© 2025 American Chemical Society

Funding

This work was supported by the National Natural Science Foundation of China (82120108017, 82072438, 82272501, 82102589, 82372484, and 82302683), Project 333 of Jiangsu Province (2069999), Natural Science Foundation of Jiangsu Province (BK20211504, BK20230215), Suzhou Gusu Health Talent Program (GSWS2021009, GSWS2021007), Jiangsu Innovative and Entrepreneurial Talent Program (JSSCBS20211570), Medical Health Science and Technology Innovation Program of Suzhou (SKY2022119), Soochow University Medical + X project (ML12202923), and A Project Funded by the Priority Academic Program Development of Jiangsu Higher Education Institutions. The figures in this work were partially drawn using www.biorender.com.

Funders	Funder number
National Natural Science Foundation of China	82120108017, 82072438, 82272501, 82102589, 82372484, 82302683
Project 333 of Jiangsu Province	2069999
Natural Science Foundation of Jiangsu Province	BK20211504, BK20230215
Suzhou Gusu Health Talent Program	GSWS2021009, GSWS2021007
Jiangsu Innovative and Entrepreneurial Talent Program	JSSCBS20211570
Medical Health Science and Technology Innovation Program of Suzhou	SKY2022119
Soochow University Medical + X project	ML12202923
Priority Academic Program Development of Jiangsu Higher Education Institutions

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Wang, W., Zhang, X., Zhang, L., Li, Z., Wang, L., Jiang, X., Wu, J., Zhou, L., Guo, Q., Huang, Y., Wang, W., Xi, K., Storm, G., Gu, Y., & Chen, L. (2025). An Immunomodulating Regenerating Hydrogel That Rescues the Oxidative Microenvironment and Reverses Cell Senescence for Osteoporotic Bone Defects. ACS Nano, 19(31), 28353-28371. https://doi.org/10.1021/acsnano.5c06549

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title = "An Immunomodulating Regenerating Hydrogel That Rescues the Oxidative Microenvironment and Reverses Cell Senescence for Osteoporotic Bone Defects",

abstract = "Osteoporosis, which is characterized by reduced bone mass and structurally compromised bone tissue, along with aberrant levels of reactive oxygen species (ROS) and inflammation, has been a pressing clinical challenge. A large accumulation of ROS and pro-inflammatory factors can result in mitochondrial dysfunction and progressive cellular senescence, impeding efficacious regeneration of bone defects. Herein, in this work, a ROS-responsive hydrogel system containing HA-PBA coated Ce-ZOL nanocomposites (GHCZ) for excessive ROS scavenging and reversal of cellular senescence to accelerate bone regeneration in osteoporosis was designed and presented. The GHCZ hydrogel system allows for the sustained release of HA-PBA coated Ce-ZOL nanoparticles, which may scavenge the extracellular and intracellular ROS of BMSCs and macrophages through their prominent enzyme-like catalytic effect. Moreover, the GHCZ hydrogel system transforms the polarization phenotype of macrophages into anti-inflammation M2 type and inhibits pro-inflammatory cytokines. Meanwhile, it could reverse the senescence of BMSCs and apparently elevate their pro-osteogenic capacity through safeguarding mitochondrial function and reprograming the metabolic processes, ultimately promoting the healing of bone defects. Based on in vitro and in vivo results, powerful immunomodulation, favorable pro-inflammatory/oxidative microenvironment reshaping properties, desirable mitochondrial protection, and superior pro-osteogenic capacity of such a GHCZ hydrogel system display the profound effects on augmenting bone repair, which offers a paradigm for treating osteoporotic bone defects.",

author = "Wei Wang and Xing Zhang and Lichen Zhang and Ziang Li and Lingjun Wang and Xinzhao Jiang and Jie Wu and Liang Zhou and Qiangqiang Guo and Yiyang Huang and Wenbo Wang and Kun Xi and Gert Storm and Yong Gu and Liang Chen",

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AU - Li, Ziang

AU - Wang, Lingjun

AU - Jiang, Xinzhao

AU - Wu, Jie

AU - Zhou, Liang

AU - Guo, Qiangqiang

AU - Huang, Yiyang

AU - Wang, Wenbo

AU - Xi, Kun

AU - Storm, Gert

AU - Gu, Yong

AU - Chen, Liang

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An Immunomodulating Regenerating Hydrogel That Rescues the Oxidative Microenvironment and Reverses Cell Senescence for Osteoporotic Bone Defects

Abstract

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