[Wnt信号与骨骼发育不良。]

Toshimi Michigami
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引用次数: 1

摘要

骨骼发育不良相关基因的鉴定证明了它们在骨骼发育和维持中的关键作用。编码Wnt典型通路组分的基因WNT1、LRP5、LRP4、SOST和WTX发生突变,导致以骨量异常为特征的疾病。另一方面,Wnt非规范通路组分基因如WNT5A、ROR2、DVL1和DVL3的突变与畸形骨骼疾病相关,这些疾病表现为四肢短和面部异常。由此可见,Wnt信号的规范通路和非规范通路在人类骨骼中都发挥着重要作用,提示前者主要控制骨量,后者调节骨骼形态发生。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
[Wnt Signaling and Skeletal Dysplasias.]

Identification of responsible genes for skeletal dysplasias evidences their critical roles in the skeletal development and maintenance. Mutations in the genes encoding the components of Wnt canonical pathway, which include WNT1, LRP5, LRP4, SOST and WTX, cause the disorders characterized by abnormal in bone mass. On the other hand, mutations in the genes for the components of Wnt non-canonical pathway such as WNT5A, ROR2, DVL1 and DVL3 are associated with dysmorphic skeletal disorders which manifest short limbs and facial anomalies. Thus, both canonical and non-canonical pathways of Wnt signaling play substantial roles in the human skeletons, and it is suggested that the former mainly controls bone mass while the latter regulates skeletal morphogenesis.

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