软骨细胞中 SHP2 缺陷的诱导导致小鼠严重的脊柱侧凸和后凸。

Induction of SHP2 deficiency in chondrocytes causes severe scoliosis and kyphosis in mice.

机构信息

*Texas Scottish Rite Hospital for Children, Dallas, TX †Orthopaedic Surgery, University of Texas Southwestern Medical Center, Dallas, TX ‡Department of Pathology, and Division of Biological Sciences, University of California San Diego, La Jolla, CA §Department of Biochemistry, Rush University Medical Center, Chicago, IL; and ¶Department of Microbiology and Immunology, University of Michigan Medical School, Ann Arbor, MI.

出版信息

Spine (Phila Pa 1976). 2013 Oct 1;38(21):E1307-12. doi: 10.1097/BRS.0b013e3182a3d370.

DOI:10.1097/BRS.0b013e3182a3d370

PMID:23873233

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3864111/

Abstract

STUDY DESIGN

Genetic engineering techniques were used to develop an animal model of juvenile scoliosis during a postnatal skeletal-growth stage.

OBJECTIVE

To investigate the effect of targeted SHP2 (Src homology-2) deficiency in chondrocytes on the development of scoliosis during a juvenile growth stage in mice.

SUMMARY OF BACKGROUND DATA

Juvenile idiopathic scoliosis can lead to progressive severe spinal deformity. The pathophysiology and molecular mechanisms responsible for the deformity are unknown. Here, we investigated the role of SHP2 deficiency in chondrocytes as a potential cause of juvenile scoliosis.

METHODS

Genetically engineered mice with inducible deletion of SHP2 in chondrocytes were generated. The SHP2 function in chondrocytes was inactivated during a juvenile growth stage from the mouse age of 4 weeks. Radiographical, micro-computed tomographic, and histological assessments were used to analyze spinal changes.

RESULTS

When SHP2 deficiency was induced during the juvenile stage, a progressive kyphoscoliotic deformity (thoracic lordosis and thoracolumbar kyphoscoliosis) developed within 2 weeks of the initiation of SHP2 deficiency. The 3-dimensional micro-computed tomography analysis confirmed the kyphoscoliotic deformity with a rotational deformity of the spine and osteophyte formation. The histological analysis revealed disorganization of the vertebral growth plate cartilage. Interestingly, when SHP2 was disrupted during the adolescent to adult stages, no spinal deformity developed.

CONCLUSION

SHP2 plays an important role in normal spine development during skeletal maturation. Chondrocyte-specific deletion of SHP2 at a juvenile stage produced a kyphoscoliotic deformity. This new mouse model will be useful for future investigations of the role of SHP2 deficiency in chondrocytes as a mechanism leading to the development of juvenile scoliosis.

LEVEL OF EVIDENCE

N/A.

摘要

研究设计

利用基因工程技术在出生后骨骼生长阶段构建了一种青少年特发性脊柱侧凸动物模型。

目的

研究软骨细胞中靶向 SHP2（Src 同源-2 结构域磷酸酶 2）缺失对幼年生长阶段小鼠脊柱侧凸发展的影响。

背景资料总结

青少年特发性脊柱侧凸可导致进行性严重脊柱畸形。其发病机制和分子机制尚不清楚。在这里，我们研究了软骨细胞中 SHP2 缺失作为青少年脊柱侧凸潜在病因的作用。

方法

构建了软骨细胞中可诱导缺失 SHP2 的基因工程小鼠。在幼年生长阶段（从 4 周龄开始）使 SHP2 在软骨细胞中的功能失活。采用影像学、微计算机断层扫描和组织学评估来分析脊柱变化。

结果

在幼年时期诱导 SHP2 缺失时，在 SHP2 缺失开始后 2 周内会出现进行性脊柱后凸侧凸畸形（胸椎前凸和胸腰椎后凸侧凸）。三维微计算机断层扫描分析证实了脊柱旋转畸形和骨赘形成的后凸侧凸畸形。组织学分析显示椎体生长板软骨的结构紊乱。有趣的是，当 SHP2 在青少年到成年阶段被破坏时，脊柱没有发生畸形。

结论

SHP2 在骨骼成熟过程中的正常脊柱发育中起重要作用。幼年时软骨细胞特异性缺失 SHP2 会导致脊柱后凸侧凸畸形。这种新的小鼠模型将有助于进一步研究软骨细胞中 SHP2 缺失作为导致青少年脊柱侧凸发生的机制的作用。

证据等级

N/A。

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