Department of Orthodontics, Texas A&M University School of Dentistry, Dallas, Tex.
Department of Biomedical Sciences, Texas A&M University School of Dentistry, Dallas, Tex.
Am J Orthod Dentofacial Orthop. 2023 Aug;164(2):201-214. doi: 10.1016/j.ajodo.2022.12.011. Epub 2023 Mar 13.
Transdifferentiation of chondrocytes into bone cells explains most of the prenatal and early postnatal condylar growth, but its role during later postnatal growth and the mechanisms regulating transdifferentiation remain unknown. This study aimed to quantify the effects of mechanical loading on chondrocyte-derived osteogenesis during late postnatal condylar growth using a short-term mandibular laterotrusion model.
Thirty 4-week-old Aggrecan-Cre, R26R, and 2.3Col1a1-GFP compound mice received tamoxifen injections and were divided into control and experimental groups. Appliances were bonded to shift the mandibles of the experimental mice for 5 days, causing protrusion and retrusion of the right and left condyles, respectively. Radiographic, microcomputed tomographic, and histomorphometric analyses were performed.
The experimental and control groups showed substantial transdifferentiation of chondrocytes into bone cells. The experimental mice developed asymmetric mandibles, with the protrusive side significantly longer than the retrusive side. The protrusive condyles showed significantly increased chondrogenesis and greater numbers of chondrocyte-derived osteogenic cells, especially in the posterior third. The opposite effects were seen on the retrusive side.
Transdifferentiation of chondrocytes into bone cells occurs during late postnatal condylar growth. Laterotrusion regulates condylar chondrogenesis and chondrocyte transdifferentiation, which alters the amount and direction of condylar growth. Our study demonstrated that chondrocytes are key players in condylar bone formation and should be the focus of studies to control and further understand condylar growth.
软骨细胞向成骨细胞的转分化解释了大部分胎儿期和出生后早期髁突的生长,但在后期生长过程中的作用及其转分化的调控机制仍不清楚。本研究旨在通过短期下颌偏斜模型来定量研究机械加载对后期髁突生长过程中软骨细胞源性成骨作用的影响。
30 只 4 周龄的 Aggrecan-Cre、R26R 和 2.3Col1a1-GFP 复合小鼠接受他莫昔芬注射,并分为对照组和实验组。实验组的器械用于将下颌骨向一侧偏斜 5 天,使右侧和左侧髁突分别发生前伸和后缩。进行放射学、微计算机断层扫描和组织形态计量学分析。
实验组和对照组均出现了大量的软骨细胞向成骨细胞的转分化。实验组的小鼠出现了不对称的下颌骨,前伸侧明显长于后缩侧。前伸侧髁突的软骨生成明显增加,软骨细胞源性成骨细胞数量更多,尤其是在后三分之一区域。后缩侧则出现相反的效果。
软骨细胞向成骨细胞的转分化发生在后期髁突生长过程中。偏斜运动调节髁突的软骨生成和软骨细胞的转分化,从而改变髁突生长的数量和方向。本研究表明,软骨细胞是髁突骨形成的关键因素,应该成为控制和进一步理解髁突生长的研究重点。
