缺乏PRG4的小鼠软骨结构、硬度和摩擦特性丧失。

Loss of cartilage structure, stiffness, and frictional properties in mice lacking PRG4.

作者信息

Coles Jeffrey M, Zhang Ling, Blum Jason J, Warman Matthew L, Jay Gregory D, Guilak Farshid, Zauscher Stefan

机构信息

Duke University, Durham, North Carolina 27708, USA.

出版信息

Arthritis Rheum. 2010 Jun;62(6):1666-74. doi: 10.1002/art.27436.

DOI:10.1002/art.27436

PMID:20191580

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2943386/

Abstract

OBJECTIVE

To assess the role of the glycoprotein PRG4 in joint lubrication and chondroprotection by measuring friction, stiffness, surface topography, and subsurface histology of the hip joints of Prg4(-/-) and wild-type (WT) mice.

METHODS

Friction and elastic modulus were measured in cartilage from the femoral heads of Prg4(-/-) and WT mice ages 2, 4, 10, and 16 weeks using atomic force microscopy, and the surface microstructure was imaged. Histologic sections of each femoral head were stained and graded.

RESULTS

Histologic analysis of the joints of Prg4(-/-) mice showed an enlarged, fragmented surface layer of variable thickness with Safranin O-positive formations sometimes present, a roughened underlying articular cartilage surface, and a progressive loss of pericellular proteoglycans. Friction was significantly higher on cartilage of Prg4(-/-) mice at age 16 weeks, but statistically significant differences in friction were not detected at younger ages. The elastic modulus of the cartilage was similar between cartilage surfaces of Prg4(-/-) and WT mice at young ages, but cartilage of WT mice showed increasing stiffness with age, with significantly higher moduli than cartilage of Prg4(-/-) mice at older ages.

CONCLUSION

Deletion of the gene Prg4 results in significant structural and biomechanical changes in the articular cartilage with age, some of which are consistent with osteoarthritic degeneration. These findings suggest that PRG4 plays a significant role in preserving normal joint structure and function.

摘要

目的

通过测量Prg4基因敲除（Prg4(-/-)）小鼠和野生型（WT）小鼠髋关节的摩擦力、刚度、表面形貌和亚表面组织学，评估糖蛋白PRG4在关节润滑和软骨保护中的作用。

方法

使用原子力显微镜测量2周、4周、10周和16周龄的Prg4(-/-)小鼠和WT小鼠股骨头软骨的摩擦力和弹性模量，并对表面微观结构进行成像。对每个股骨头的组织切片进行染色和分级。

结果

对Prg4(-/-)小鼠关节的组织学分析显示，表面层增厚、破碎，厚度不一，有时可见番红O阳性结构，其下方的关节软骨表面粗糙，细胞周围蛋白聚糖逐渐丢失。16周龄时，Prg4(-/-)小鼠软骨上的摩擦力显著更高，但在较年轻年龄段未检测到摩擦力的统计学显著差异。年轻时，Prg4(-/-)小鼠和WT小鼠软骨表面的弹性模量相似，但WT小鼠的软骨刚度随年龄增加，在较年长时其模量显著高于Prg4(-/-)小鼠的软骨。

结论

Prg4基因的缺失导致关节软骨随年龄增长出现显著的结构和生物力学变化，其中一些变化与骨关节炎退变一致。这些发现表明PRG4在维持正常关节结构和功能方面发挥着重要作用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/92af/3103830/bcb4718506b4/art0062-1666-f1.jpg

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缺乏PRG4的小鼠软骨结构、硬度和摩擦特性丧失。

Loss of cartilage structure, stiffness, and frictional properties in mice lacking PRG4.

作者信息

机构信息

出版信息

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结果

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