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作为生长板功能及后续骨骼发育信号枢纽的初级纤毛。

The primary cilium as a signaling nexus for growth plate function and subsequent skeletal development.

作者信息

Moore Emily R, Jacobs Christopher R

机构信息

Department of Biomedical Engineering, Columbia University, 351 Engineering Terrace, Mail Code 8904, 1210 Amsterdam Avenue, New York, 10027, New York.

出版信息

J Orthop Res. 2018 Feb;36(2):533-545. doi: 10.1002/jor.23732. Epub 2017 Oct 9.

DOI:10.1002/jor.23732
PMID:28901584
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5839937/
Abstract

The primary cilium is a solitary, antenna-like sensory organelle with many important roles in cartilage and bone development, maintenance, and function. The primary cilium's potential role as a signaling nexus in the growth plate makes it an attractive therapeutic target for diseases and disorders associated with bone development and maintenance. Many signaling pathways that are mediated by the cilium-such as Hh, Wnt, Ihh/PTHrP, TGFβ, BMP, FGF, and Notch-are also known to influence endochondral ossification, primarily by directing growth plate formation and chondrocyte behavior. Although a few studies have demonstrated that these signaling pathways can be directly tied to the primary cilium, many pathways have yet to be evaluated in context of the cilium. This review serves to bridge this knowledge gap in the literature, as well as discuss the cilium's importance in the growth plate's ability to sense and respond to chemical and mechanical stimuli. Furthermore, we explore the importance of using the appropriate mechanism to study the cilium in vivo and suggest IFT88 deletion is the best available technique. © 2017 Orthopaedic Research Society. Published by Wiley Periodicals, Inc. J Orthop Res 36:533-545, 2018.

摘要

初级纤毛是一种单独的、天线状的感觉细胞器,在软骨和骨的发育、维持及功能方面发挥着许多重要作用。初级纤毛作为生长板中信号枢纽的潜在作用,使其成为与骨发育和维持相关疾病及病症的一个有吸引力的治疗靶点。许多由纤毛介导的信号通路,如Hh、Wnt、Ihh/PTHrP、TGFβ、BMP、FGF和Notch等,也已知会影响软骨内成骨,主要是通过指导生长板形成和软骨细胞行为。虽然一些研究已经证明这些信号通路可直接与初级纤毛相关,但许多通路尚未在纤毛的背景下进行评估。本综述旨在弥合文献中的这一知识差距,并讨论纤毛在生长板感知和响应化学及机械刺激能力方面的重要性。此外,我们探讨了使用适当机制在体内研究纤毛的重要性,并建议删除IFT88是目前最好的可用技术。© 2017骨科学研究协会。由威利期刊公司出版。《矫形外科学研究》36:533 - 545,2018年。

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