机械信号通过整合素连接激酶、B-Raf 和 ERK1/2 依赖性信号通路在关节软骨细胞中控制 SOX-9、VEGF 和 c-Myc 的表达和细胞增殖，从而在炎症过程中发挥作用。

Mechanical signals control SOX-9, VEGF, and c-Myc expression and cell proliferation during inflammation via integrin-linked kinase, B-Raf, and ERK1/2-dependent signaling in articular chondrocytes.

机构信息

Biomechanics and Tissue Engineering Laboratory, The Ohio State University, Postle Hall, 305 W 12th Avenue, Columbus, OH 43210, USA.

出版信息

Arthritis Res Ther. 2010;12(3):R106. doi: 10.1186/ar3039. Epub 2010 May 28.

DOI:10.1186/ar3039

PMID:20509944

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2911896/

Abstract

INTRODUCTION

The importance of mechanical signals in normal and inflamed cartilage is well established. Chondrocytes respond to changes in the levels of proinflammatory cytokines and mechanical signals during inflammation. Cytokines like interleukin (IL)-1beta suppress homeostatic mechanisms and inhibit cartilage repair and cell proliferation. However, matrix synthesis and chondrocyte (AC) proliferation are upregulated by the physiological levels of mechanical forces. In this study, we investigated intracellular mechanisms underlying reparative actions of mechanical signals during inflammation.

METHODS

ACs isolated from articular cartilage were exposed to low/physiologic levels of dynamic strain in the presence of IL-1beta. The cell extracts were probed for differential activation/inhibition of the extracellular signal-regulated kinase 1/2 (ERK1/2) signaling cascade. The regulation of gene transcription was examined by real-time polymerase chain reaction.

RESULTS

Mechanoactivation, but not IL-1beta treatment, of ACs initiated integrin-linked kinase activation. Mechanical signals induced activation and subsequent C-Raf-mediated activation of MAP kinases (MEK1/2). However, IL-1beta activated B-Raf kinase activity. Dynamic strain did not induce B-Raf activation but instead inhibited IL-1beta-induced B-Raf activation. Both mechanical signals and IL-1beta induced ERK1/2 phosphorylation but discrete gene expression. ERK1/2 activation by mechanical forces induced SRY-related protein-9 (SOX-9), vascular endothelial cell growth factor (VEGF), and c-Myc mRNA expression and AC proliferation. However, IL-1beta did not induce SOX-9, VEGF, and c-Myc gene expression and inhibited AC cell proliferation. More importantly, SOX-9, VEGF, and Myc gene transcription and AC proliferation induced by mechanical signals were sustained in the presence of IL-1beta.

CONCLUSIONS

The findings suggest that mechanical signals may sustain their effects in proinflammatory environments by regulating key molecules in the MAP kinase signaling cascade. Furthermore, the findings point to the potential of mechanosignaling in cartilage repair during inflammation.

摘要

简介

机械信号在正常和炎症软骨中的重要性已得到充分证实。软骨细胞在炎症过程中对促炎细胞因子和机械信号水平的变化做出反应。白细胞介素 (IL)-1β 等细胞因子抑制稳态机制并抑制软骨修复和细胞增殖。然而，生理水平的机械力会上调基质合成和软骨细胞 (AC) 的增殖。在这项研究中，我们研究了炎症过程中机械信号修复作用的细胞内机制。

方法

将分离的关节软骨 AC 暴露于 IL-1β 存在下的低/生理水平的动态应变中。探测细胞提取物中细胞外信号调节激酶 1/2 (ERK1/2) 信号通路的差异激活/抑制。通过实时聚合酶链反应检查基因转录的调节。

结果

机械激活而非 IL-1β 处理启动了 AC 中的整联蛋白连接激酶激活。机械信号诱导 MAP 激酶 (MEK1/2) 的激活和随后的 C-Raf 介导的激活。然而，IL-1β 激活了 B-Raf 激酶活性。动态应变不会诱导 B-Raf 激活，而是抑制 IL-1β 诱导的 B-Raf 激活。机械信号和 IL-1β 均诱导 ERK1/2 磷酸化，但基因表达不同。ERK1/2 的激活通过机械力诱导性别决定区 Y 相关蛋白 9 (SOX-9)、血管内皮生长因子 (VEGF) 和 c-Myc mRNA 表达和 AC 增殖。然而，IL-1β 不会诱导 SOX-9、VEGF 和 c-Myc 基因表达并抑制 AC 细胞增殖。更重要的是，机械信号诱导的 SOX-9、VEGF 和 Myc 基因转录和 AC 增殖在 IL-1β 存在下得以维持。

结论

这些发现表明，机械信号可能通过调节 MAP 激酶信号级联中的关键分子来维持其在促炎环境中的作用。此外，这些发现指出了在炎症过程中机械信号在软骨修复中的潜在作用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6a93/2911896/cb6b6578d038/ar3039-1.jpg

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Mechanical signals control SOX-9, VEGF, and c-Myc expression and cell proliferation during inflammation via integrin-linked kinase, B-Raf, and ERK1/2-dependent signaling in articular chondrocytes.机械信号通过整合素连接激酶、B-Raf 和 ERK1/2 依赖性信号通路在关节软骨细胞中控制 SOX-9、VEGF 和 c-Myc 的表达和细胞增殖，从而在炎症过程中发挥作用。

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机械信号通过整合素连接激酶、B-Raf 和 ERK1/2 依赖性信号通路在关节软骨细胞中控制 SOX-9、VEGF 和 c-Myc 的表达和细胞增殖，从而在炎症过程中发挥作用。

Mechanical signals control SOX-9, VEGF, and c-Myc expression and cell proliferation during inflammation via integrin-linked kinase, B-Raf, and ERK1/2-dependent signaling in articular chondrocytes.

机构信息

出版信息

INTRODUCTION

METHODS

RESULTS

CONCLUSIONS

简介

方法

结果

结论

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