Research Progress of Macrophages in Bone Regeneration

IF 3.1 3区 生物学 Q2 BIOTECHNOLOGY & APPLIED MICROBIOLOGY Journal of Tissue Engineering and Regenerative Medicine Pub Date : 2023-02-07 DOI:10.1155/2023/1512966
Dingmei Zhang, Yi Dang, Renli Deng, Yaping Ma, Jing Wang, Jun Ao, Xin Wang
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Abstract

Bone tissue regeneration plays an increasingly important role in contemporary clinical treatment. The reconstruction of bone defects remains a huge challenge for clinicians. Bone regeneration is regulated by the immune system, in which inflammation is an important regulating factor in bone formation and remodeling. As the main cells involved in inflammation, macrophages play a key role in osteogenesis by polarizing into different phenotypes during different stages of bone regeneration. Considering this, this review mainly summarizes the function of macrophage in bone regeneration based on mesenchymal stem cells (MSCs), osteoblasts, osteoclasts, and vascular cells. In conclusion, anti-inflammatory macrophages (M2) have a greater potentiality to promote bone regeneration than M0 and classically activated proinflammatory macrophages (M1). In the fracture and bone defect models, tissue engineering materials can induce the transition from M1 to M2, alter the bone microenvironment, and promote bone regeneration through interactions with bone-related cells and blood vessels. The review provides a further understanding of macrophage polarization behavior in the evolving field of bone immunology.
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巨噬细胞在骨再生中的研究进展
骨组织再生在当代临床治疗中发挥着越来越重要的作用。骨缺损的重建仍然是临床医生面临的巨大挑战。骨再生受免疫系统调节,其中炎症是骨形成和重塑的重要调节因子。巨噬细胞作为炎症的主要参与细胞,在骨再生的不同阶段极化成不同的表型,在成骨过程中起着关键作用。鉴于此,本文主要综述巨噬细胞在基于间充质干细胞(MSCs)、成骨细胞、破骨细胞和血管细胞的骨再生中的作用。综上所述,抗炎巨噬细胞(M2)比M0和经典活化的促炎巨噬细胞(M1)具有更大的促进骨再生的潜力。在骨折和骨缺损模型中,组织工程材料通过与骨相关细胞和血管的相互作用,诱导M1向M2转变,改变骨微环境,促进骨再生。这一综述为进一步了解巨噬细胞极化行为在骨免疫学领域的发展提供了依据。
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来源期刊
CiteScore
7.50
自引率
3.00%
发文量
97
审稿时长
4-8 weeks
期刊介绍: Journal of Tissue Engineering and Regenerative Medicine publishes rapidly and rigorously peer-reviewed research papers, reviews, clinical case reports, perspectives, and short communications on topics relevant to the development of therapeutic approaches which combine stem or progenitor cells, biomaterials and scaffolds, growth factors and other bioactive agents, and their respective constructs. All papers should deal with research that has a direct or potential impact on the development of novel clinical approaches for the regeneration or repair of tissues and organs. The journal is multidisciplinary, covering the combination of the principles of life sciences and engineering in efforts to advance medicine and clinical strategies. The journal focuses on the use of cells, materials, and biochemical/mechanical factors in the development of biological functional substitutes that restore, maintain, or improve tissue or organ function. The journal publishes research on any tissue or organ and covers all key aspects of the field, including the development of new biomaterials and processing of scaffolds; the use of different types of cells (mainly stem and progenitor cells) and their culture in specific bioreactors; studies in relevant animal models; and clinical trials in human patients performed under strict regulatory and ethical frameworks. Manuscripts describing the use of advanced methods for the characterization of engineered tissues are also of special interest to the journal readership.
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