敲除 Schnurri-2 和 Schnurri-3 的小鼠中生长板成熟和骨形成的解偶联。
Uncoupling of growth plate maturation and bone formation in mice lacking both Schnurri-2 and Schnurri-3.
机构信息
Department of Immunology and Infectious Disease, Harvard School of Public Health, Boston, MA 02115, USA.
出版信息
Proc Natl Acad Sci U S A. 2010 May 4;107(18):8254-8. doi: 10.1073/pnas.1003727107. Epub 2010 Apr 19.
Abstract
Formation and remodeling of the skeleton relies on precise temporal and spatial regulation of genes expressed in cartilage and bone cells. Debilitating diseases of the skeletal system occur when mutations arise that disrupt these intricate genetic regulatory programs. Here, we report that mice bearing parallel null mutations in the adapter proteins Schnurri2 (Shn2) and Schnurri3 (Shn3) exhibit defects in patterning of the axial skeleton during embryogenesis. Postnatally, these compound mutant mice develop a unique osteochondrodysplasia. The deletion of Shn2 and Shn3 impairs growth plate maturation during endochondral ossification but simultaneously results in massively elevated trabecular bone formation. Hence, growth plate maturation and bone formation can be uncoupled under certain circumstances. These unexpected findings demonstrate that both unique and redundant functions reside in the Schnurri protein family that are required for proper skeletal patterning and remodeling.
摘要
骨骼的形成和重塑依赖于软骨细胞和骨细胞中表达的基因的精确时空调节。当发生突变破坏这些复杂的遗传调控程序时,骨骼系统的致残性疾病就会发生。在这里,我们报告说,携带衔接蛋白 Schnurri2(Shn2)和 Schnurri3(Shn3)平行缺失突变的小鼠在胚胎发生过程中表现出轴向骨骼模式形成缺陷。出生后,这些复合突变小鼠会发展出一种独特的骨软骨发育不良。Shn2 和 Shn3 的缺失会在软骨内骨化过程中损害生长板的成熟,但同时会导致大量小梁骨形成。因此,在某些情况下,生长板成熟和骨形成可以解耦。这些意外的发现表明,Schnurri 蛋白家族既具有独特的功能,也具有冗余的功能,这些功能对于骨骼的正常模式形成和重塑是必需的。
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