来自受伤膝关节的旁分泌信号改变会损害出生后长骨的生长。

Altered paracrine signaling from the injured knee joint impairs postnatal long bone growth.

作者信息

Roselló-Díez Alberto, Stephen Daniel, Joyner Alexandra L

机构信息

Developmental Biology Program, Sloan Kettering Institute, New York, United States.

Biochemistry, Cell and Molecular Biology Program, Weill Cornell Graduate Schoolof Medical Sciences, New York, United States.

出版信息

Elife. 2017 Jul 25;6:e27210. doi: 10.7554/eLife.27210.

DOI:10.7554/eLife.27210

PMID:28741471

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5526667/

Abstract

Regulation of organ growth is a poorly understood process. In the long bones, the growth plates (GPs) drive elongation by generating a scaffold progressively replaced by bone. Although studies have focused on intrinsic GP regulation, classic and recent experiments suggest that local signals also modulate GP function. We devised a genetic mouse model to study extrinsic long bone growth modulation, in which injury is specifically induced in the left hindlimb, such that the right hindlimb serves as an internal control. Remarkably, when only mesenchyme cells surrounding postnatal GPs were killed, left bone growth was nevertheless reduced. GP signaling was impaired by altered paracrine signals from the knee joint, including activation of the injury response and, in neonates, dampened IGF1 production. Importantly, only the combined prevention of both responses rescued neonatal growth. Thus, we identified signals from the knee joint that modulate bone growth and could underlie establishment of body proportions.

摘要

器官生长的调控是一个尚未被充分理解的过程。在长骨中，生长板通过生成一个逐渐被骨替代的支架来驱动骨骼延长。尽管研究主要集中在生长板的内在调控，但经典和近期的实验表明，局部信号也会调节生长板的功能。我们设计了一种基因小鼠模型来研究外在的长骨生长调节，其中在左后肢特异性诱导损伤，使得右后肢作为内部对照。值得注意的是，当仅杀死出生后生长板周围的间充质细胞时，左骨生长仍然减少。来自膝关节的旁分泌信号改变会损害生长板信号传导，包括损伤反应的激活，并且在新生儿中，胰岛素样生长因子1（IGF1）的产生会受到抑制。重要的是，只有同时预防这两种反应才能挽救新生儿的生长。因此，我们确定了来自膝关节的调节骨生长的信号，这些信号可能是身体比例形成的基础。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/289e/5526667/2aa00797669f/elife-27210-fig1.jpg

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来自受伤膝关节的旁分泌信号改变会损害出生后长骨的生长。

Altered paracrine signaling from the injured knee joint impairs postnatal long bone growth.

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