Xie Chao, Liang Bojian, Xue Ming, Lin Angela S P, Loiselle Alayna, Schwarz Edward M, Guldberg Robert E, O'Keefe Regis J, Zhang Xinping
The Center for Musculoskeletal Research, University of Rochester Medical Center, 601 Elmwood Avenue, Rochester, NY 14642, USA.
Am J Pathol. 2009 Aug;175(2):772-85. doi: 10.2353/ajpath.2009.081099. Epub 2009 Jul 23.
Although the essential role of cyclooxygenase (COX)-2 in fracture healing is known, the targeted genes and molecular pathways remain unclear. Using prostaglandin E2 receptor (EP)2 and EP4 agonists, we examined the effects of EP receptor activation in compensation for the lack of COX-2 during fracture healing. In a fracture-healing model, COX-2(-/-) mice showed delayed initiation and impaired endochondral bone repair, accompanied by a severe angiogenesis deficiency. The EP4 agonist markedly improved the impaired healing in COX-2(-/-) mice, as evidenced by restoration of bony callus formation on day 14, a near complete reversal of bone formation, and an approximately 70% improvement of angiogenesis in the COX-2(-/-) callus. In comparison, the EP2 agonist only marginally enhanced bone formation in COX-2(-/-) mice. To determine the differential roles of EP2 and EP4 receptors on COX-2-mediated fracture repair, the effects of selective EP agonists on chondrogenesis were examined in E11.5 long-term limb bud micromass cultures. Only the EP4 agonist significantly increased cartilage nodule formation similar to that observed during prostaglandin E2 treatment. The prostaglandin E2/EP4 agonist also stimulated MMP-9 expression in bone marrow stromal cell cultures. The EP4 agonist further restored the reduction of MMP-9 expression in the COX-2(-/-) fracture callus. Taken together, our studies demonstrate that EP2 and EP4 have differential functions during endochondral bone repair. Activation of EP4, but not EP2 rescued impaired bone fracture healing in COX-2(-/-) mice.
尽管环氧化酶(COX)-2在骨折愈合中的重要作用已为人所知,但其靶向基因和分子途径仍不清楚。我们使用前列腺素E2受体(EP)2和EP4激动剂,研究了在骨折愈合过程中EP受体激活对COX-2缺乏的补偿作用。在骨折愈合模型中,COX-2基因敲除(-/-)小鼠表现出软骨内骨修复起始延迟和受损,伴有严重的血管生成缺陷。EP4激动剂显著改善了COX-2(-/-)小鼠受损的愈合情况,第14天骨痂形成恢复、骨形成几乎完全逆转以及COX-2(-/-)骨痂中血管生成改善约70%均证明了这一点。相比之下,EP2激动剂仅略微增强了COX-2(-/-)小鼠的骨形成。为了确定EP2和EP4受体在COX-2介导的骨折修复中的不同作用,我们在E11.5长期肢芽微团培养中研究了选择性EP激动剂对软骨生成的影响。只有EP4激动剂显著增加了软骨结节形成,类似于前列腺素E2处理时观察到的情况。前列腺素E2/EP4激动剂还刺激了骨髓基质细胞培养物中MMP-9的表达。EP4激动剂进一步恢复了COX-2(-/-)骨折骨痂中MMP-9表达的降低。综上所述,我们的研究表明,在软骨内骨修复过程中,EP2和EP4具有不同的功能。激活EP4而非EP2可挽救COX-2(-/-)小鼠受损的骨折愈合。