关节软骨-软骨下骨生物力学单位中无翅型信号的紧密调控：Frzb 敲除小鼠的转录组学研究。

Tight regulation of wingless-type signaling in the articular cartilage - subchondral bone biomechanical unit: transcriptomics in Frzb-knockout mice.

机构信息

Laboratory for Skeletal Development and Joint Disorders, Department of Development and Regeneration, KU Leuven, Belgium.

出版信息

Arthritis Res Ther. 2012 Jan 20;14(1):R16. doi: 10.1186/ar3695.

DOI:10.1186/ar3695

PMID:22264237

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3392806/

Abstract

INTRODUCTION

The aim of this research was to study molecular changes in the articular cartilage and subchondral bone of the tibial plateau from mice deficient in frizzled-related protein (Frzb) compared to wild-type mice by transcriptome analysis.

METHODS

Gene-expression analysis of the articular cartilage and subchondral bone of three wild-type and three Frzb-/- mice was performed by microarray. Data from three wild-type and two Frzb-/- samples could be used for pathway analysis of differentially expressed genes and were explored with PANTHER, DAVID and GSEA bioinformatics tools. Activation of the wingless-type (WNT) pathway was analysed using Western blot. The effects of Frzb gain and loss of function on chondrogenesis and cell proliferation was examined using ATDC5 micro-masses and mouse ribcage chondrocytes.

RESULTS

Extracellular matrix-associated integrin and cadherin pathways, as well as WNT pathway genes were up-regulated in Frzb-/- samples. Several WNT receptors, target genes and other antagonists were up-regulated, but no difference in active β-catenin was found. Analysis of ATDC5 cell micro-masses overexpressing FRZB indicated an up-regulation of aggrecan and Col2a1, and down-regulation of molecules related to damage and repair in cartilage, Col3a1 and Col5a1. Silencing of Frzb resulted in down-regulation of aggrecan and Col2a1. Pathways associated with cell cycle were down-regulated in this transcriptome analysis. Ribcage chondrocytes derived from Frzb-/- mice showed decreased proliferation compared to wild-type cells.

CONCLUSIONS

Our analysis provides evidence for tight regulation of WNT signalling, shifts in extracellular matrix components and effects on cell proliferation and differentiation in the articular cartilage - subchondral bone unit in Frzb-/- mice. These data further support an important role for FRZB in joint homeostasis and highlight the complex biology of WNT signaling in the joint.

摘要

简介

本研究旨在通过转录组分析，研究与 frizzled 相关蛋白（Frzb）缺失的小鼠相比，野生型小鼠胫骨平台关节软骨和软骨下骨的分子变化。

方法

通过微阵列对 3 只野生型和 3 只 Frzb-/- 小鼠的关节软骨和软骨下骨进行基因表达分析。可对 3 个野生型和 2 个 Frzb-/- 样本的数据进行差异表达基因的通路分析，并使用 PANTHER、DAVID 和 GSEA 生物信息学工具进行探索。使用 Western blot 分析 WNT 通路的激活情况。通过 ATDC5 微团和鼠肋骨软骨细胞检测 Frzb 功能获得和功能丧失对软骨生成和细胞增殖的影响。

结果

Frzb-/- 样本中细胞外基质相关整合素和钙粘蛋白通路以及 WNT 通路基因上调。几个 WNT 受体、靶基因和其他拮抗剂上调，但未发现活性β-catenin 有差异。分析过表达 FRZB 的 ATDC5 细胞微团表明，聚集蛋白和 Col2a1 上调，软骨中与损伤和修复相关的分子 Col3a1 和 Col5a1 下调。沉默 Frzb 导致聚集蛋白和 Col2a1 下调。该转录组分析中与细胞周期相关的通路下调。与野生型细胞相比，Frzb-/- 小鼠来源的肋骨软骨细胞增殖减少。

结论

我们的分析为 Frzb-/- 小鼠关节软骨-软骨下骨单位中 WNT 信号的紧密调节、细胞外基质成分的变化以及对细胞增殖和分化的影响提供了证据。这些数据进一步支持 FRZB 在关节稳态中的重要作用，并强调了 WNT 信号在关节中的复杂生物学。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/bdf2/3392806/2d3841659a2c/ar3695-1.jpg

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关节软骨-软骨下骨生物力学单位中无翅型信号的紧密调控：Frzb 敲除小鼠的转录组学研究。

Tight regulation of wingless-type signaling in the articular cartilage - subchondral bone biomechanical unit: transcriptomics in Frzb-knockout mice.

机构信息

出版信息

INTRODUCTION

METHODS

RESULTS

CONCLUSIONS

简介

方法

结果

结论

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