未成熟牛半月板中的聚集蛋白聚糖分解和体外基质降解：机制和功能意义。

Aggrecanolysis and in vitro matrix degradation in the immature bovine meniscus: mechanisms and functional implications.

机构信息

Wallace H Coulter Department of Biomedical Engineering, 313 Ferst Drive, Georgia Institute of Technology, Atlanta, GA 30332, USA.

出版信息

Arthritis Res Ther. 2009;11(6):R173. doi: 10.1186/ar2862. Epub 2009 Nov 17.

DOI:10.1186/ar2862

PMID:19919704

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3003508/

Abstract

INTRODUCTION

Little is known about endogenous or cytokine-stimulated aggrecan catabolism in the meniscal fibrocartilage of the knee. The objectives of this study were to characterize the structure, distribution, and processing of aggrecan in menisci from immature bovines, and to identify mechanisms of extracellular matrix degradation that lead to changes in the mechanical properties of meniscal fibrocartilage.

METHODS

Aggrecanase activity in the native immature bovine meniscus was examined by immunolocalization of the aggrecan NITEGE neoepitope. To investigate mechanisms of cytokine-induced aggrecan catabolism in this tissue, explants were treated with interleukin-1alpha (IL-1) in the absence or presence of selective or broad spectrum metalloproteinase inhibitors. The sulfated glycosaminoglycan (sGAG) and collagen contents of explants and culture media were quantified by biochemical methods, and aggrecan catabolism was examined by Western analysis of aggrecan fragments. The mechanical properties of explants were determined by dynamic compression and shear tests.

RESULTS

The aggrecanase-generated NITEGE neoepitope was preferentially localized in the middle and outer regions of freshly isolated immature bovine menisci, where sGAG density was lowest and blood vessels were present. In vitro treatment of explants with IL-1 triggered the accumulation of NITEGE in the inner and middle regions. Middle region explants stimulated with IL-1 exhibited substantial decreases in sGAG content, collagen content, and mechanical properties. A broad spectrum metalloproteinase inhibitor significantly reduced sGAG loss, abrogated collagen degradation, and preserved tissue mechanical properties. In contrast, an inhibitor selective for ADAMTS-4 and ADAMTS-5 was least effective at blocking IL-1-induced matrix catabolism and loss of mechanical properties.

CONCLUSIONS

Aggrecanase-mediated aggrecanolysis, typical of degenerative articular cartilage, may play a physiologic role in the development of the immature bovine meniscus. IL-1-induced release of sGAG and loss of mechanical properties can be ascribed primarily to the activity of MMPs or aggrecanases other than ADAMTS-4 and ADAMTS-5. These results may have implications for the clinical management of osteoarthritis.

摘要

简介

关于内源性或细胞因子刺激的软骨蛋白聚糖降解在膝关节半月板纤维软骨中知之甚少。本研究的目的是描述牛未成熟半月板中软骨蛋白聚糖的结构、分布和处理，并确定导致半月板纤维软骨力学性能变化的细胞外基质降解机制。

方法

通过免疫定位软骨蛋白聚糖 NITEGE 新表位来检测天然未成熟牛半月板中的软骨蛋白聚糖酶活性。为了研究该组织中细胞因子诱导的软骨蛋白聚糖降解的机制，用白细胞介素-1α（IL-1）处理离体培养物，而不添加或添加选择性或广谱金属蛋白酶抑制剂。通过生化方法定量分析离体培养物和培养基中的硫酸化糖胺聚糖（sGAG）和胶原含量，并通过 Western 分析检测软骨蛋白聚糖片段的降解。通过动态压缩和剪切试验测定离体培养物的力学性能。

结果

软骨蛋白聚糖酶产生的 NITEGE 新表位优先定位于新鲜分离的未成熟牛半月板的中间和外部区域，那里的 sGAG 密度最低且存在血管。体外用 IL-1 处理离体培养物会触发 NITEGE 在内部和中间区域的积累。用 IL-1 刺激中间区域的离体培养物表现出 sGAG 含量、胶原含量和力学性能的显著下降。广谱金属蛋白酶抑制剂显著减少 sGAG 丢失，阻止胶原降解，并保持组织力学性能。相比之下，针对 ADAMTS-4 和 ADAMTS-5 的选择性抑制剂在阻止 IL-1 诱导的基质代谢和丧失力学性能方面最无效。

结论

类似退行性关节软骨的软骨蛋白聚糖酶介导的软骨蛋白聚糖水解可能在未成熟牛半月板的发育中发挥生理作用。IL-1 诱导的 sGAG 释放和力学性能丧失主要归因于 MMPs 或除 ADAMTS-4 和 ADAMTS-5 以外的软骨蛋白聚糖酶的活性。这些结果可能对骨关节炎的临床治疗有影响。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3005/3003508/a9c5d826577d/ar2862-1.jpg

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Aggrecanolysis and in vitro matrix degradation in the immature bovine meniscus: mechanisms and functional implications.未成熟牛半月板中的聚集蛋白聚糖分解和体外基质降解：机制和功能意义。

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未成熟牛半月板中的聚集蛋白聚糖分解和体外基质降解：机制和功能意义。

Aggrecanolysis and in vitro matrix degradation in the immature bovine meniscus: mechanisms and functional implications.

机构信息

出版信息

INTRODUCTION

METHODS

RESULTS

CONCLUSIONS

简介

方法

结果

结论

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