增殖的成骨细胞对于小鼠在加载下的最大骨合成反应是必需的。

Proliferating osteoblasts are necessary for maximal bone anabolic response to loading in mice.

机构信息

Department of Biomedical Engineering, Orthopaedic Surgery, Musculoskeletal Research Center, Washington University, St. Louis, MO, USA.

出版信息

FASEB J. 2020 Sep;34(9):12739-12750. doi: 10.1096/fj.202000614R. Epub 2020 Aug 3.

DOI:10.1096/fj.202000614R

PMID:32744762

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7833806/

Abstract

Following mechanical loading, osteoblasts may arise via activation, differentiation, or proliferation to form bone. Our objective was to ablate proliferating osteoblast lineage cells in order to investigate the importance of these cells as a source for loading-induced bone formation. We utilized 3.6Col1a1-tk mice in which replicating osteoblast lineage cells can be ablated in an inducible manner using ganciclovir (GCV). Male and female mice were aged to 5- and 12-months and subjected to 5 days of tibial compression. "Experimental" mice were tk-positive, treated with GCV; "control" mice were either tk-negative treated with GCV, or tk-positive treated with PBS. We confirmed that experimental mice had a decrease in tk-positive cells that arose from proliferation. Next, we assessed bone formation after loading to low (7N) and high (11N) forces and observed that periosteal bone formation rate in experimental mice was reduced by approximately 70% for both forces. Remarkably, woven bone formation induced by high-force loading was blocked in experimental mice. Loading-induced lamellar bone formation was diminished but not prevented in experimental mice. We conclude that osteoblast proliferation induced by mechanical loading is a critical source of bone forming osteoblasts for maximal lamellar formation and is essential for woven bone formation.

摘要

机械加载后，成骨细胞可能通过激活、分化或增殖形成骨。我们的目的是消除增殖性成骨细胞谱系细胞，以研究这些细胞作为加载诱导骨形成的来源的重要性。我们利用 3.6Col1a1-tk 小鼠，其中使用更昔洛韦（GCV）可以以诱导的方式消除复制性成骨细胞谱系细胞。雄性和雌性小鼠分别长到 5 个月和 12 个月，并接受 5 天的胫骨压缩。“实验”小鼠 tk 阳性，用 GCV 治疗；“对照”小鼠要么 tk 阴性，用 GCV 治疗，要么 tk 阳性，用 PBS 治疗。我们证实实验小鼠 tk 阳性细胞数量减少，这些细胞来源于增殖。接下来，我们评估了加载后低（7N）和高（11N）力对骨形成的影响，观察到两种力下实验小鼠的骨形成率都降低了约 70%。值得注意的是，高力加载诱导的编织骨形成在实验小鼠中被阻断。实验小鼠的加载诱导板层骨形成减少但未被阻止。我们得出结论，机械加载诱导的成骨细胞增殖是最大板层形成的成骨细胞形成的关键来源，对于编织骨形成是必不可少的。

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