Neutrophils contribute to fracture healing by synthesizing fibronectin+ extracellular matrix rapidly after injury

Publication date

2016-03-01

Authors

Bastian, Okan W.
Koenderman, LORCID 0000-0002-5636-6453ISNI 0000000398375208
Alblas, JacquelineISNI 0000000396141010
Leenen, L. P.H.ORCID 0000-0001-8385-1801ISNI 0000000390070047
Blokhuis, Taco J.ISNI 0000000387212593

Editors

Advisors

Supervisors

Document Type

Article

Collections

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License

taverne

Abstract

The role of inflammatory cells in bone regeneration remains unclear. We hypothesize that leukocytes contribute to fracture healing by rapidly synthesizing an "emergency extracellular matrix (ECM)" before stromal cells infiltrate the fracture hematoma (FH) and synthesize the eventual collagenous bone tissue.53 human FHs were isolated at different time points after injury, ranging from day 0 until day 23 after trauma and stained using (immuno)histochemistry. FHs isolated within 48 h after injury contained fibronectin+ ECM, which increased over time. Neutrophils within the early FHs stained positive for cellular fibronectin and neutrophil derived particles were visible within the fibronectin+ ECM. Stromal cells appeared at day 5 after injury or later and collagen type I birefringent fibrils could be identified during the second week after injury.Our study suggests that neutrophils contribute to bone regeneration by synthesizing an "emergency ECM" before stromal cells infiltrate the FH and synthesize the eventual bone tissue.

Keywords

Bone, Inflammation, Leukocytes, Osteoimmunology, Regeneration, Repair, Taverne, Immunology, Immunology and Allergy, Journal Article, Research Support, Non-U.S. Gov't

Citation

Bastian, O W, Koenderman, L, Alblas, J, Leenen, L P H & Blokhuis, T J 2016, 'Neutrophils contribute to fracture healing by synthesizing fibronectin + extracellular matrix rapidly after injury', Clinical Immunology, vol. 164, pp. 78-84. https://doi.org/10.1016/j.clim.2016.02.001