The role of the immune microenvironment in bone, cartilage, and soft tissue regeneration: from mechanism to therapeutic opportunity
Bone, cartilage, and soft tissue regeneration is a complex spatiotemporal process recruiting a variety of cell types, whose activity and interplay must be precisely mediated for effective healing post-injury. Although extensive strides have been made in the understanding of the immune microenvironme...
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| Abstract | Bone, cartilage, and soft tissue regeneration is a complex spatiotemporal process recruiting a variety of cell types, whose activity and interplay must be precisely mediated for effective healing post-injury. Although extensive strides have been made in the understanding of the immune microenvironment processes governing bone, cartilage, and soft tissue regeneration, effective clinical translation of these mechanisms remains a challenge. Regulation of the immune microenvironment is increasingly becoming a favorable target for bone, cartilage, and soft tissue regeneration; therefore, an in-depth understanding of the communication between immune cells and functional tissue cells would be valuable. Herein, we review the regulatory role of the immune microenvironment in the promotion and maintenance of stem cell states in the context of bone, cartilage, and soft tissue repair and regeneration. We discuss the roles of various immune cell subsets in bone, cartilage, and soft tissue repair and regeneration processes and introduce novel strategies, for example, biomaterial-targeting of immune cell activity, aimed at regulating healing. Understanding the mechanisms of the crosstalk between the immune microenvironment and regeneration pathways may shed light on new therapeutic opportunities for enhancing bone, cartilage, and soft tissue regeneration through regulation of the immune microenvironment. |
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| AbstractList | Bone, cartilage, and soft tissue regeneration is a complex spatiotemporal process recruiting a variety of cell types, whose activity and interplay must be precisely mediated for effective healing post-injury. Although extensive strides have been made in the understanding of the immune microenvironment processes governing bone, cartilage, and soft tissue regeneration, effective clinical translation of these mechanisms remains a challenge. Regulation of the immune microenvironment is increasingly becoming a favorable target for bone, cartilage, and soft tissue regeneration; therefore, an in-depth understanding of the communication between immune cells and functional tissue cells would be valuable. Herein, we review the regulatory role of the immune microenvironment in the promotion and maintenance of stem cell states in the context of bone, cartilage, and soft tissue repair and regeneration. We discuss the roles of various immune cell subsets in bone, cartilage, and soft tissue repair and regeneration processes and introduce novel strategies, for example, biomaterial-targeting of immune cell activity, aimed at regulating healing. Understanding the mechanisms of the crosstalk between the immune microenvironment and regeneration pathways may shed light on new therapeutic opportunities for enhancing bone, cartilage, and soft tissue regeneration through regulation of the immune microenvironment. Abstract Bone, cartilage, and soft tissue regeneration is a complex spatiotemporal process recruiting a variety of cell types, whose activity and interplay must be precisely mediated for effective healing post-injury. Although extensive strides have been made in the understanding of the immune microenvironment processes governing bone, cartilage, and soft tissue regeneration, effective clinical translation of these mechanisms remains a challenge. Regulation of the immune microenvironment is increasingly becoming a favorable target for bone, cartilage, and soft tissue regeneration; therefore, an in-depth understanding of the communication between immune cells and functional tissue cells would be valuable. Herein, we review the regulatory role of the immune microenvironment in the promotion and maintenance of stem cell states in the context of bone, cartilage, and soft tissue repair and regeneration. We discuss the roles of various immune cell subsets in bone, cartilage, and soft tissue repair and regeneration processes and introduce novel strategies, for example, biomaterial-targeting of immune cell activity, aimed at regulating healing. Understanding the mechanisms of the crosstalk between the immune microenvironment and regeneration pathways may shed light on new therapeutic opportunities for enhancing bone, cartilage, and soft tissue regeneration through regulation of the immune microenvironment. Bone, cartilage, and soft tissue regeneration is a complex spatiotemporal process recruiting a variety of cell types, whose activity and interplay must be precisely mediated for effective healing post-injury. Although extensive strides have been made in the understanding of the immune microenvironment processes governing bone, cartilage, and soft tissue regeneration, effective clinical translation of these mechanisms remains a challenge. Regulation of the immune microenvironment is increasingly becoming a favorable target for bone, cartilage, and soft tissue regeneration; therefore, an in-depth understanding of the communication between immune cells and functional tissue cells would be valuable. Herein, we review the regulatory role of the immune microenvironment in the promotion and maintenance of stem cell states in the context of bone, cartilage, and soft tissue repair and regeneration. We discuss the roles of various immune cell subsets in bone, cartilage, and soft tissue repair and regeneration processes and introduce novel strategies, for example, biomaterial-targeting of immune cell activity, aimed at regulating healing. Understanding the mechanisms of the crosstalk between the immune microenvironment and regeneration pathways may shed light on new therapeutic opportunities for enhancing bone, cartilage, and soft tissue regeneration through regulation of the immune microenvironment.Bone, cartilage, and soft tissue regeneration is a complex spatiotemporal process recruiting a variety of cell types, whose activity and interplay must be precisely mediated for effective healing post-injury. Although extensive strides have been made in the understanding of the immune microenvironment processes governing bone, cartilage, and soft tissue regeneration, effective clinical translation of these mechanisms remains a challenge. Regulation of the immune microenvironment is increasingly becoming a favorable target for bone, cartilage, and soft tissue regeneration; therefore, an in-depth understanding of the communication between immune cells and functional tissue cells would be valuable. Herein, we review the regulatory role of the immune microenvironment in the promotion and maintenance of stem cell states in the context of bone, cartilage, and soft tissue repair and regeneration. We discuss the roles of various immune cell subsets in bone, cartilage, and soft tissue repair and regeneration processes and introduce novel strategies, for example, biomaterial-targeting of immune cell activity, aimed at regulating healing. Understanding the mechanisms of the crosstalk between the immune microenvironment and regeneration pathways may shed light on new therapeutic opportunities for enhancing bone, cartilage, and soft tissue regeneration through regulation of the immune microenvironment. |
| ArticleNumber | 65 |
| Author | Mi, Bo-Bin Feng, Qian Zha, Kang-Kang Liu, Zhen-Ping Yu, Le Panayi, Adriana C. Zhou, Shuan-Hu Liu, Guo-Hui Patel, Anish Chen, Lang Hu, Yi-Qiang Lin, Ze Xiong, Yuan Yu, Tao |
| AuthorAffiliation | Department of Orthopedics,Union Hospital,Tongji Medical College,Huazhong University of Science and Technology,Wuhan 430022,China;Hubei Province Key Laboratory of Oral and Maxillofacial Development and Regeneration,Wuhan 430022,China%Department of Chemical and Biomolecular Engineering,Ohio University,Athens,OH 45701,USA%Department of Orthopedics,Union Hospital,Tongji Medical College,Huazhong University of Science and Technology,Wuhan 430022,China;Hubei Province Key Laboratory of Oral and Maxillofacial Development and Regeneration,Wuhan 430022,China;Key Laboratory of Biorheological Science and Technology,Ministry of Education College of Bioengineering,Chongqing University,Chongqing 400044,China%Department of Plastic Surgery,Brigham and Women's Hospital,Harvard Medical School,Boston,MA 02152,USA%Department of Orthopaedics,Ruijin Hospital,Shanghai Jiao Tong University School of Medicine,Shanghai 200025,China%Department of Orthopedics,Union Hospital,Tongji Medical College,Huazhong Universit |
| AuthorAffiliation_xml | – name: Department of Orthopedics,Union Hospital,Tongji Medical College,Huazhong University of Science and Technology,Wuhan 430022,China;Hubei Province Key Laboratory of Oral and Maxillofacial Development and Regeneration,Wuhan 430022,China%Department of Chemical and Biomolecular Engineering,Ohio University,Athens,OH 45701,USA%Department of Orthopedics,Union Hospital,Tongji Medical College,Huazhong University of Science and Technology,Wuhan 430022,China;Hubei Province Key Laboratory of Oral and Maxillofacial Development and Regeneration,Wuhan 430022,China;Key Laboratory of Biorheological Science and Technology,Ministry of Education College of Bioengineering,Chongqing University,Chongqing 400044,China%Department of Plastic Surgery,Brigham and Women's Hospital,Harvard Medical School,Boston,MA 02152,USA%Department of Orthopaedics,Ruijin Hospital,Shanghai Jiao Tong University School of Medicine,Shanghai 200025,China%Department of Orthopedics,Union Hospital,Tongji Medical College,Huazhong University of Science and Technology,Wuhan 430022,China;Hubei Province Key Laboratory of Oral and Maxillofacial Development and Regeneration,Wuhan 430022,China;Department of Physics,Center for Hybrid Nanostructure(CHyN),University of Hamburg,Hamburg 22761,Germany%Department of Physics,Center for Hybrid Nanostructure(CHyN),University of Hamburg,Hamburg 22761,Germany;Joint Laboratory of Optofluidic Technology and System,National Center for International Research on Green Optoelectronics,South China Academy of Advanced Optoelectronics,South China;Normal University,Guangzhou 510006,China%Skeletal Biology Laboratory,Department of Orthopedic Surgery,Brigham and Women's Hospital,Harvard Medical School,Boston,MA 02120,USA%Key Laboratory of Biorheological Science and Technology,Ministry of Education College of Bioengineering,Chongqing University,Chongqing 400044,China%Skeletal Biology Laboratory,Department of Orthopedic Surgery,Brigham and Women's Hospital,Harvard Medical School,Boston,MA 02120,USA;Harvard Stem Cell Institute,Harvard University,Cambridge,MA 02138,USA |
| Author_xml | – sequence: 1 givenname: Yuan surname: Xiong fullname: Xiong, Yuan organization: Department of Orthopedics, Union Hospital, Tongji Medical College, Huazhong University of Science and Technology, Hubei Province Key Laboratory of Oral and Maxillofacial Development and Regeneration – sequence: 2 givenname: Bo-Bin surname: Mi fullname: Mi, Bo-Bin organization: Department of Orthopedics, Union Hospital, Tongji Medical College, Huazhong University of Science and Technology, Hubei Province Key Laboratory of Oral and Maxillofacial Development and Regeneration – sequence: 3 givenname: Ze surname: Lin fullname: Lin, Ze organization: Department of Orthopedics, Union Hospital, Tongji Medical College, Huazhong University of Science and Technology, Hubei Province Key Laboratory of Oral and Maxillofacial Development and Regeneration – sequence: 4 givenname: Yi-Qiang surname: Hu fullname: Hu, Yi-Qiang organization: Department of Orthopedics, Union Hospital, Tongji Medical College, Huazhong University of Science and Technology, Hubei Province Key Laboratory of Oral and Maxillofacial Development and Regeneration – sequence: 5 givenname: Le surname: Yu fullname: Yu, Le organization: Department of Chemical and Biomolecular Engineering, Ohio University – sequence: 6 givenname: Kang-Kang surname: Zha fullname: Zha, Kang-Kang organization: Department of Orthopedics, Union Hospital, Tongji Medical College, Huazhong University of Science and Technology, Hubei Province Key Laboratory of Oral and Maxillofacial Development and Regeneration, Key Laboratory of Biorheological Science and Technology,Ministry of Education College of Bioengineering, Chongqing University – sequence: 7 givenname: Adriana C. surname: Panayi fullname: Panayi, Adriana C. organization: Department of Plastic Surgery, Brigham and Women’s Hospital, Harvard Medical School – sequence: 8 givenname: Tao surname: Yu fullname: Yu, Tao organization: Department of Orthopaedics, Ruijin Hospital, Shanghai Jiao Tong University School of Medicine – sequence: 9 givenname: Lang surname: Chen fullname: Chen, Lang organization: Department of Orthopedics, Union Hospital, Tongji Medical College, Huazhong University of Science and Technology, Hubei Province Key Laboratory of Oral and Maxillofacial Development and Regeneration, Department of Physics, Center for Hybrid Nanostructure (CHyN), University of Hamburg – sequence: 10 givenname: Zhen-Ping surname: Liu fullname: Liu, Zhen-Ping organization: Department of Physics, Center for Hybrid Nanostructure (CHyN), University of Hamburg, Joint Laboratory of Optofluidic Technology and System,National Center for International Research on Green Optoelectronics, South China Academy of Advanced Optoelectronics, South China Normal University – sequence: 11 givenname: Anish surname: Patel fullname: Patel, Anish organization: Skeletal Biology Laboratory, Department of Orthopedic Surgery, Brigham and Women’s Hospital, Harvard Medical School – sequence: 12 givenname: Qian surname: Feng fullname: Feng, Qian email: qianfeng@cqu.edu.cn organization: Key Laboratory of Biorheological Science and Technology,Ministry of Education College of Bioengineering, Chongqing University – sequence: 13 givenname: Shuan-Hu surname: Zhou fullname: Zhou, Shuan-Hu email: szhou@bwh.harvard.edu organization: Skeletal Biology Laboratory, Department of Orthopedic Surgery, Brigham and Women’s Hospital, Harvard Medical School, Harvard Stem Cell Institute, Harvard University – sequence: 14 givenname: Guo-Hui surname: Liu fullname: Liu, Guo-Hui email: liuguohui@hust.edu.cn organization: Department of Orthopedics, Union Hospital, Tongji Medical College, Huazhong University of Science and Technology, Hubei Province Key Laboratory of Oral and Maxillofacial Development and Regeneration |
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| Keywords | Immune microenvironment Regeneration Cell-cell interaction Tissue engineering Biomaterials |
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| Publisher | BioMed Central Springer Nature B.V Harvard Stem Cell Institute,Harvard University,Cambridge,MA 02138,USA Department of Physics,Center for Hybrid Nanostructure(CHyN),University of Hamburg,Hamburg 22761,Germany%Department of Physics,Center for Hybrid Nanostructure(CHyN),University of Hamburg,Hamburg 22761,Germany Normal University,Guangzhou 510006,China%Skeletal Biology Laboratory,Department of Orthopedic Surgery,Brigham and Women's Hospital,Harvard Medical School,Boston,MA 02120,USA%Key Laboratory of Biorheological Science and Technology,Ministry of Education College of Bioengineering,Chongqing University,Chongqing 400044,China%Skeletal Biology Laboratory,Department of Orthopedic Surgery,Brigham and Women's Hospital,Harvard Medical School,Boston,MA 02120,USA Joint Laboratory of Optofluidic Technology and System,National Center for International Research on Green Optoelectronics,South China Academy of Advanced Optoelectronics,South China Hubei Province Key Laboratory of Oral and Maxillofacial Development and Regeneration,Wuhan 430022,China%Department of Chemical and Biomolecular Engineering,Ohio University,Athens,OH 45701,USA%Department of Orthopedics,Union Hospital,Tongji Medical College,Huazhong University of Science and Technology,Wuhan 430022,China Hubei Province Key Laboratory of Oral and Maxillofacial Development and Regeneration,Wuhan 430022,China Department of Orthopedics,Union Hospital,Tongji Medical College,Huazhong University of Science and Technology,Wuhan 430022,China Key Laboratory of Biorheological Science and Technology,Ministry of Education College of Bioengineering,Chongqing University,Chongqing 400044,China%Department of Plastic Surgery,Brigham and Women's Hospital,Harvard Medical School,Boston,MA 02152,USA%Department of Orthopaedics,Ruijin Hospital,Shanghai Jiao Tong University School of Medicine,Shanghai 200025,China%Department of Orthopedics,Union Hospital,Tongji Medical College,Huazhong University of Science and Technology,Wuhan 430022,China BMC |
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| Snippet | Bone, cartilage, and soft tissue regeneration is a complex spatiotemporal process recruiting a variety of cell types, whose activity and interplay must be... Bone,cartilage,and soft tissue regeneration is a complex spatiotemporal process recruiting a variety of cell types,whose activity and interplay must be... Abstract Bone, cartilage, and soft tissue regeneration is a complex spatiotemporal process recruiting a variety of cell types, whose activity and interplay... |
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| SubjectTerms | Biomaterials Biomedical materials Bones Cartilage Cell-cell interaction Cytokines Emergency Medicine Growth factors Homeostasis Immune microenvironment Injuries Kinases Medicine Medicine & Public Health Regeneration Regenerative medicine Review Roles Stem cells Tissue engineering |
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| Title | The role of the immune microenvironment in bone, cartilage, and soft tissue regeneration: from mechanism to therapeutic opportunity |
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| Volume | 9 |
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