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P 物质通过人肌腱细胞增强胶原重塑和 MMP-3 表达。

Substance P enhances collagen remodeling and MMP-3 expression by human tenocytes.

机构信息

Department of Physical Therapy, University of British Columbia, Vancouver, British Columbia, Canada.

出版信息

J Orthop Res. 2013 Jan;31(1):91-8. doi: 10.1002/jor.22191. Epub 2012 Jul 26.

DOI:10.1002/jor.22191
PMID:22836729
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3959169/
Abstract

The loss of collagen organization is considered a hallmark histopathologic feature of tendinosis. At the cellular level, tenocytes have been shown to produce signal substances that were once thought to be restricted to neurons. One of the main neuropeptides implicated in tendinosis, substance P (SP), is known to influence collagen organization, particularly after injury. The aim of this study was to examine the influence of SP on collagen remodeling by primary human tendon cells cultured in vitro in three-dimensional collagen lattices. We found that SP stimulation led to an increased rate of collagen remodeling mediated via the neurokinin-1 receptor (NK-1 R), the preferred cell receptor for SP. Gene expression analysis showed that SP stimulation resulted in significant increases in MMP3, COL3A1 and ACTA2 mRNA levels in the collagen lattices. Furthermore, cyclic tensile loading of tendon cell cultures along with the administration of exogenous SP had an additive effect on MMP3 expression. Immunoblotting confirmed that SP increased MMP3 protein levels via the NK-1 R. This study indicates that SP, mediated via NK-1 R, increases collagen remodeling and leads to increased MMP3 mRNA and protein expression that is further enhanced by cyclic mechanical loading.

摘要

胶原蛋白组织的丧失被认为是腱病的组织病理学特征之一。在细胞水平上,已经表明肌腱细胞产生曾经被认为仅限于神经元产生的信号物质。在腱病中涉及的主要神经肽之一,P 物质(SP),已知会影响胶原蛋白组织,特别是在受伤后。本研究的目的是研究 SP 通过体外三维胶原蛋白基质培养的原代人肌腱细胞对胶原蛋白重塑的影响。我们发现,SP 刺激通过神经激肽-1 受体(NK-1R)介导,导致胶原蛋白重塑率增加,这是 SP 的首选细胞受体。基因表达分析显示,SP 刺激导致胶原蛋白基质中 MMP3、COL3A1 和 ACTA2 mRNA 水平显著增加。此外,腱细胞培养物的周期性张力加载以及外源性 SP 的给药对 MMP3 表达具有附加作用。免疫印迹证实 SP 通过 NK-1R 增加 MMP3 蛋白水平。这项研究表明,SP 通过 NK-1R 介导,增加胶原蛋白重塑,并导致 MMP3 mRNA 和蛋白表达增加,而周期性机械加载进一步增强了这种表达。

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本文引用的文献

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