Fracture healing is accelerated in the absence of the adaptive immune system

Toben, D.; Schroeder, I.; Khassawna, Thaqif El; Mehta, Manav; Hoffmann, Jan‐Erik; Frisch, J.; Schell, Hanna; Lienau, Jasmin; Serra, Alessandro; Radbruch, Andreas; Duda, Georg N.

doi:10.1002/jbmr.185

Cited by 190 publications

(113 citation statements)

References 59 publications

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“…Taken together, our data demonstrate for the first time that osteomacs are an integral cellular component of osteal tissues during bone healing and implicate osteomacs as critical participants in intramembranous ossification during bone repair. The identification of this novel osteoimmunologic mechanism expands our understanding of the substantial contributions the immune system has on bone/callus outcomes during fracture repair (59,60) and provides a new research avenue for manipulating bone formation for therapeutic applications. Identification of osteomac-derived anabolic factors ultimately may lead to new approaches to improve fracture healing and reverse skeletal damage after pathologic bone loss.…”

Section: Discussionmentioning

confidence: 99%

Osteal macrophages promote in vivo intramembranous bone healing in a mouse tibial injury model

Alexander

Chang

Maylin

et al. 2011

Journal of Bone and Mineral Research

397

381

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Bone-lining tissues contain a population of resident macrophages termed osteomacs that interact with osteoblasts in vivo and control mineralization in vitro. The role of osteomacs in bone repair was investigated using a mouse tibial bone injury model that heals primarily through intramembranous ossification and progresses through all major phases of stabilized fracture repair. Immunohistochemical studies revealed that at least two macrophage populations, F4/80matory macrophages, were present within the bone injury site and persisted throughout the healing time course. In vivo depletion of osteomacs/macrophages (either using the Mafia transgenic mouse model or clodronate liposome delivery) or osteoclasts (recombinant osteoprotegerin treatment) established that osteomacs were required for deposition of collagen type 1 þ (CT1 þ ) matrix and bone mineralization in the tibial injury model, as assessed by quantitative immunohistology and micro-computed tomography. Conversely, administration of the macrophage growth factor colony-stimulating factor 1 (CSF-1) increased the number of osteomacs/macrophages at the injury site significantly with a concurrent increase in new CT1 þ matrix deposition and enhanced mineralization. This study establishes osteomacs as participants in intramembranous bone healing and as targets for primary anabolic bone therapies. ß

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Section: Discussionmentioning

confidence: 99%

Osteal macrophages promote in vivo intramembranous bone healing in a mouse tibial injury model

Alexander

Chang

Maylin

et al. 2011

Journal of Bone and Mineral Research

397

381

View full text Add to dashboard Cite

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“…Interestingly, the uncontrolled stimulation of B and T lymphocytes appear to be important in delayed bone healing. RAG -/-mice, which lack T and B cells, show an enhancement of callus mineralisation and bone remodelling and acceleration of the fracture healing (42). These effects were associated with a lower level of pro-inflammatory cytokines, TNF-, IFN-, IL-2 and IL-4 at local fracture tissues (42).…”

Section: T and B Lymphocytesmentioning

confidence: 99%

“…RAG -/-mice, which lack T and B cells, show an enhancement of callus mineralisation and bone remodelling and acceleration of the fracture healing (42). These effects were associated with a lower level of pro-inflammatory cytokines, TNF-, IFN-, IL-2 and IL-4 at local fracture tissues (42). Activated T lymphocytes are known to release RANKL, which enhance osteoclast differentiation from their progenitors and consequently induce the bone lysis (156).…”

Section: T and B Lymphocytesmentioning

confidence: 99%

Interactions Between Multipotential Stromal Cells (MSCs) and Immune Cells During Bone Healing

El-Jawhari

Jones

McGonagle

et al. 2016

Recent Advances in Stem Cells

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Abstract:The physiological process of bone healing takes place in three sequential stages: inflammation, repair and remodelling. Multipotential stromal cells (MSCs) are the key progenitor cells for osteoblasts and chondrocytes and are also imbued with immunomodulatory capabilities.Although MSCs are well known to be involved in osteogenesis during the later stages of repair, their role during the inflammatory phase and precise interactions with immune cells remain poorly understood. This chapter describes the current knowledge on cellular interactions during the bone repair as well as cytokines and growth factors mediating these processes. The roles of emerging innate immune cell populations, innate lymphoid cells are also discussed.Based on this current knowledge, we conclude that in addition to their differentiation during later bone repair stages, MSCs are likely to have a substantial involvement in the initial stage of bone healing by controlling the fate of inflammation. An improved understanding of complex cell interactions during bone repair has broad implications on optimising the treatment of the fracture complications including non-union.

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“…Additionally, Cho et al demonstrated that resident macrophages (osteal) are significantly involved in parathyroid hormone-dependent bone healing [15]. Although there are no experimental models for NK cell depletion in factures, an important role of NK cells during bone repair has been implied when a high level of interferon-gamma (IFN-g) was detected in the diaphyseal regions of fractured femur in mice lacking T-and B-lymphocytes [16]. Conversely, as shown in immune-compromised animal model, bone marrow (BM) transplantation greatly enhanced the process of bone healing [17].…”

Section: Introductionmentioning

confidence: 99%

The roles of immune cells in bone healing; what we know, do not know and future perspectives

El-Jawhari

Jones

Giannoudis

2016

Injury

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Fracture healing is accelerated in the absence of the adaptive immune system

Cited by 190 publications

References 59 publications

Osteal macrophages promote in vivo intramembranous bone healing in a mouse tibial injury model

Osteal macrophages promote in vivo intramembranous bone healing in a mouse tibial injury model

Interactions Between Multipotential Stromal Cells (MSCs) and Immune Cells During Bone Healing

The roles of immune cells in bone healing; what we know, do not know and future perspectives

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