Abstract
Growth plates are the frequent sites of skeletal injury in children, leading to skeletal growth imbalances. Chemokines, including the receptor CCR7, play a crucial role in stem cell recruitment and cartilage homeostasis, with previous studies linking CCR7 to osteoarthritis progression. However, its role in growth plate cartilage remains unclear. We analyzed the role of CCR7 in the physeal cartilage repair process in mice model. Physeal injury was created in the proximal tibia in 3-week-old C57BL/6 mice (WT) and CCR7-knockout mice (CCR7−/−). Tibial length was measured macroscopically and sections of the physeal injury were analyzed histologically and immunohistochemically. Height and bone volume of the tibial growth plate and bone mineral density (BMD) of the subchondral area were measured by micro-CT. Mesenchymal stem cells (MSCs) were harvested and gene expression after osteogenic differentiation was analyzed using qRT-PCR. At 1, 3 and 5 weeks postoperatively, injured tibiae of CCR7−/− mice were less shortened than those of WT mice. Bone volume of the physeal bridge was significantly lower in CCR7−/− mice than in WT mice. In contrast, BMD of the subchondral area was comparable between CCR−/− and WT mice, and between sham and operated tibiae. In osteogenic differentiation, CCR7−/− mice showed significantly lowered expression of osteogenic markers such as Osterix, Runx2 and Type X collagen. We demonstrated CCR7 depletion in mice inhibited physeal bridge formation and ameliorated growth imbalances after physeal injury.
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