Injectable hydrogel microsphere orchestrates immune regulation and bone regeneration via sustained release of calcitriol

被引:0
|
作者
Chen, Jiajun [1 ,2 ,3 ]
Yan, Xingrui [1 ,2 ,3 ]
Nie, Li [1 ,2 ,3 ]
Zhou, Siqi [1 ,2 ,3 ,4 ,5 ]
Ji, Ping [1 ,2 ,3 ]
Zhang, Hongmei [1 ,2 ,3 ]
机构
[1] Chongqing Med Univ, Stomatol Hosp, Chongqing 401147, Peoples R China
[2] Chongqing Key Lab Oral Dis & Biomed Sci, Chongqing 401147, Peoples R China
[3] Chongqing Municipal Key Lab Oral Biomed Engn Highe, Chongqing 401147, Peoples R China
[4] Chongqing Univ, Renji Hosp, Chongqing 400062, Peoples R China
[5] Fifth Peoples Hosp Chongqing, Chongqing 400062, Peoples R China
来源
MATERIALS TODAY BIO | 2025年 / 32卷
关键词
Hydrogel microspheres; Polydopamine; Calcitriol; Immunomodulation; Bone regeneration; SCAFFOLDS; DEFECTS;
D O I
10.1016/j.mtbio.2025.101687
中图分类号
R318 [生物医学工程];
学科分类号
0831 ;
摘要
Repairing bone defects in inflammatory conditions remains a significant clinical challenge. An ideal scaffold material for such situations should enable minimally invasive implantation and integrate capabilities for immunomodulation, anti-infection therapy, and enhanced bone regeneration. In this study, we developed injectable calcitriol@polydopamine@gelatin methacryloyl hydrogel microspheres (CAL@PDA@GMs) using microfluidic technology. This system facilitates the sustained release of calcitriol, which features excellent biocompatibility and biodegradability, promotes osteogenesis, scavenges excessive reactive oxygen species (ROS), and induces the polarization of macrophages from the M1 to M2 phenotype, thereby mitigating lipopolysaccharide (LPS)-induced inflammation. These mechanisms work synergistically to create an optimal immune microenvironment for bone regeneration in inflammatory conditions. RNA sequencing (RNA-Seq) analyses revealed that immunomodulation is achieved by regulating macrophage phenotypes, inhibiting the nuclear transcription factor-kappa B (NF-kappa B) and ROS signaling pathways, and reducing the secretion of proinflammatory cytokines. This study proposes a novel method to enhance tissue regeneration by remediating the damaged tissue microenvironment and presents a potential clinical therapeutic strategy for large-scale bone injuries.
引用
收藏
页数:12
相关论文
共 50 条
  • [21] Promoting lacunar bone regeneration with an injectable hydrogel adaptive to the microenvironment
    Zheng, Ao
    Wang, Xiao
    Xin, Xianzhen
    Peng, Lingjie
    Su, Tingshu
    Cao, Lingyan
    Jiang, Xinquan
    BIOACTIVE MATERIALS, 2023, 21 : 403 - 421
  • [22] Dextran-Based Injectable Hydrogel Composites for Bone Regeneration
    Alves, Patricia
    Simao, Ana Filipa
    Graca, Mariana F. P.
    Mariz, Marcos J.
    Correia, Ilidio J.
    Ferreira, Paula
    POLYMERS, 2023, 15 (23)
  • [23] Regulation of osteoimmune microenvironment via functional dynamic hydrogel for diabetic bone regeneration
    Yang, Peng
    Chen, Xu
    Qin, Yi
    Yu, Lei
    Ge, Gaoran
    Yin, Weiling
    Zhang, Wei
    Li, Wenming
    Li, Wenhao
    Xia, Wenyu
    Wu, Zebin
    Ding, Fan
    Bai, Jiaxiang
    Meng, Fanwen
    Geng, Dechun
    BIOMATERIALS, 2025, 320
  • [24] Injectable Bacteria-Sensitive Hydrogel Promotes Repair of Infected Fractures via Sustained Release of miRNA Antagonist
    Yu, Chenyan
    Chen, Lang
    Zhou, Wu
    Hu, Liangcong
    Xie, Xudong
    Lin, Ze
    Panayi, Adriana C.
    Zhan, Xingjie
    Tao, Ranyang
    Mi, Bobin
    Liu, Guohui
    ACS APPLIED MATERIALS & INTERFACES, 2022, 14 (30) : 34427 - 34442
  • [25] Injectable Bacteria-Sensitive Hydrogel Promotes Repair of Infected Fractures via Sustained Release of miRNA Antagonist
    Yu, Chenyan
    Chen, Lang
    Zhou, Wu
    Hu, Liangcong
    Xie, Xudong
    Lin, Ze
    Panayi, Adriana C.
    Zhan, Xingjie
    Tao, Ranyang
    Mi, Bobin
    Liu, Guohui
    ACS Applied Materials and Interfaces, 2022, 14 (30): : 34427 - 34442
  • [26] An injectable multi-functional composite bioactive hydrogel for bone regeneration via immunoregulatory and osteogenesis effects
    He, Yanwei
    Luo, Zhiwen
    Nie, Xiaoshuang
    Du, Yimin
    Sun, Rong
    Sun, Junming
    Lin, Zhiheng
    Wan, Renwen
    Chen, Wenbo
    Feng, Xingting
    Li, Fangqi
    Liu, Xuanyong
    Chen, Shiyi
    Qiu, Jiajun
    Li, Jingchi
    Zhao, Zhijie
    ADVANCED COMPOSITES AND HYBRID MATERIALS, 2025, 8 (01)
  • [27] Lysyl oxidase nanozyme-loaded hydrogel for sustained release and promotion of diabetic bone defect regeneration
    Xu, Shan
    Zhang, Jian
    Che, Jun
    Sha, Zhengzhou
    Zhang, Mingtao
    Zhang, Zhiyan
    Xiang, Tangyong
    Zhong, Weixi
    Wu, Li
    Lv, Gaohong
    Cai, Baochang
    Xu, Liu
    Xu, Cheng
    Chen, Zhipeng
    JOURNAL OF CONTROLLED RELEASE, 2025, 379 : 927 - 943
  • [28] Brasenia-inspired hydrogel with sustained and sequential release of BMP and WNT activators for improved bone regeneration
    Xinqing Hao
    Xuewei Zhang
    Yue Hu
    Chunxia Ren
    Cangwei Liu
    Lu Wang
    Yijun Zhou
    Shuangshuang Wang
    Huanyu Luo
    Guangxing Yan
    Xiao Wang
    Xiaomeng Wang
    Feilong Ren
    Ce Shi
    Wenlong Song
    Hongchen Sun
    ChineseChemicalLetters, 2023, 34 (07) : 188 - 194
  • [29] A sustained-release PDGF-BB nanocomposite hydrogel for DM-associated bone regeneration
    Li, Yaxin
    Liu, Ziyang
    Zhao, Chen
    Xu, Chenci
    Shin, Airi
    Wu, Jiaqing
    Li, Dejian
    Lin, Kaili
    Liu, Jiaqiang
    JOURNAL OF MATERIALS CHEMISTRY B, 2023, 11 (05) : 974 - 984
  • [30] Brasenia-inspired hydrogel with sustained and sequential release of BMP and WNT activators for improved bone regeneration
    Hao, Xinqing
    Zhang, Xuewei
    Hu, Yue
    Ren, Chunxia
    Liu, Cangwei
    Wang, Lu
    Zhou, Yijun
    Wang, Shuangshuang
    Luo, Huanyu
    Yan, Guangxing
    Wang, Xiao
    Wang, Xiaomeng
    Ren, Feilong
    Shi, Ce
    Song, Wenlong
    Sun, Hongchen
    CHINESE CHEMICAL LETTERS, 2023, 34 (07)
12345