Department of Orthodontics, School and Hospital of Stomatology, Jilin University, Changchun, Jilin, PR China.
Division of Growth and Development, Section of Orthodontics, School of Dentistry, University of California, Los Angeles, CA, USA.
J Bone Miner Res. 2019 Mar;34(3):533-546. doi: 10.1002/jbmr.3615. Epub 2018 Dec 14.
NELL-1, an osteoinductive protein, has been shown to regulate skeletal ossification. Interestingly, an interstitial 11p14.1-p15.3 deletion involving the Nell-1 gene was recently reported in a patient with short stature and delayed fontanelle closure. Here we sought to define the role of Nell-1 in endochondral ossification by investigating Nell-1-specific inactivation in Col2α1-expressing cell lineages. Nell-1 ; Col2α1-Cre (Nell-1 KO) mice were generated for comprehensive analysis. Nell-1 KO mice were born alive but displayed subtle femoral length shortening. At 1 and 3 months postpartum, Nell-1 inactivation resulted in dwarfism and premature osteoporotic phenotypes. Specifically, Nell-1 KO femurs and tibias exhibited significantly reduced length, bone mineral density (BMD), bone volume per tissue volume (BV/TV), trabecular number/thickness, cortical volume/thickness/density, and increased trabecular separation. The decreased bone formation rate revealed by dynamic histomorphometry was associated with altered numbers and/or function of osteoblasts and osteoclasts. Furthermore, longitudinal observations by in vivo micro-CT showed delayed and reduced mineralization at secondary ossification centers in mutants. Histologically, reduced staining intensities of Safranin O, Col-2, Col-10, and fewer BrdU-positive chondrocytes were observed in thinner Nell-1 KO epiphyseal plates along with altered distribution and weaker expression level of Ihh, Patched-1, PTHrP, and PTHrP receptor. Primary Nell-1 KO chondrocytes also exhibited decreased proliferation and differentiation, and its downregulated expression of the Ihh-PTHrP signaling molecules can be partially rescued by exogenous Nell-1 protein. Moreover, intranuclear Gli-1 protein and gene expression of the Gli-1 downstream target genes, Hip-1 and N-Myc, were also significantly decreased with Nell-1 inactivation. Notably, the rescue effects were diminished/reduced with application of Ihh signaling inhibitors, cyclopamine or GANT61. Taken together, these findings suggest that Nell-1 is a pivotal modulator of epiphyseal homeostasis and endochondral ossification. The cumulative chondrocyte-specific Nell-1 inactivation significantly impedes appendicular skeletogenesis resulting in dwarfism and premature osteoporosis through inhibiting Ihh signaling and predominantly altering the Ihh-PTHrP feedback loop. © 2018 American Society for Bone and Mineral Research.
NELL-1 是一种骨诱导蛋白,已被证明可调节骨骼骨化。有趣的是,最近在一名身材矮小和囟门闭合延迟的患者中报道了涉及 Nell-1 基因的间质 11p14.1-p15.3 缺失。在这里,我们通过研究 Nell-1 特异性失活在 Col2α1 表达细胞谱系中,试图确定 Nell-1 在软骨内骨化中的作用。Nell-1 ; Col2α1-Cre(Nell-1 KO)小鼠被生成用于全面分析。Nell-1 KO 小鼠出生时存活,但表现出轻微的股骨长度缩短。在产后 1 个月和 3 个月时,Nell-1 失活导致侏儒症和骨质疏松症表型提前出现。具体来说,Nell-1 KO 股骨和胫骨的长度、骨矿物质密度(BMD)、骨体积与组织体积比(BV/TV)、小梁数量/厚度、皮质体积/厚度/密度显著降低,骨小梁分离增加。动态组织形态计量学显示的骨形成率降低与成骨细胞和破骨细胞的数量和/或功能改变有关。此外,体内 micro-CT 的纵向观察显示,在突变体中,次级骨化中心的矿化延迟和减少。组织学上,Nell-1 KO 骺板中观察到番红 O、Col-2、Col-10 的染色强度降低,并且 BrdU 阳性软骨细胞数量减少,同时 Ihh、Patched-1、PTHrP 和 PTHrP 受体的分布和表达水平发生改变。原代 Nell-1 KO 软骨细胞的增殖和分化也减少,其 Ihh-PTHrP 信号分子的下调表达可部分由外源性 Nell-1 蛋白挽救。此外,核内 Gli-1 蛋白和 Gli-1 下游靶基因 Hip-1 和 N-Myc 的基因表达也随着 Nell-1 失活而显著降低。值得注意的是,应用 Ihh 信号抑制剂,即环巴胺或 GANT61,可减轻/减少挽救作用。总之,这些发现表明 Nell-1 是骺板稳态和软骨内骨化的关键调节剂。累积的软骨细胞特异性 Nell-1 失活通过抑制 Ihh 信号并主要改变 Ihh-PTHrP 反馈环,显著阻碍附肢骨骼发生,导致侏儒症和骨质疏松症提前发生。© 2018 美国骨矿研究协会。
