滑膜成纤维细胞在三维器官培养中自我引导多细胞内衬结构和合成功能。

Synovial fibroblasts self-direct multicellular lining architecture and synthetic function in three-dimensional organ culture.

作者信息

Kiener Hans P, Watts Gerald F M, Cui Yajun, Wright John, Thornhill Thomas S, Sköld Markus, Behar Samuel M, Niederreiter Birgit, Lu Jun, Cernadas Manuela, Coyle Anthony J, Sims Gary P, Smolen Josef, Warman Matthew L, Brenner Michael B, Lee David M

机构信息

Medical University of Vienna, Vienna, Austria.

出版信息

Arthritis Rheum. 2010 Mar;62(3):742-52. doi: 10.1002/art.27285.

DOI:10.1002/art.27285

PMID:20131230

Abstract

OBJECTIVE

To define the intrinsic capacity of fibroblast-like synoviocytes (FLS) to establish a 3-dimensional (3-D) complex synovial lining architecture characterized by the multicellular organization of the compacted synovial lining and the elaboration of synovial fluid constituents.

METHODS

FLS were cultured in spherical extracellular matrix (ECM) micromasses for 3 weeks. The FLS micromass architecture was assessed histologically and compared with that of dermal fibroblast controls. Lubricin synthesis was measured via immunodetection. Basement membrane matrix and reticular fiber stains were performed to examine ECM organization. Primary human and mouse monocytes were prepared and cocultured with FLS in micromass to investigate cocompaction in the lining architecture. Cytokine stimuli were applied to determine the capacity for inflammatory architecture rearrangement.

RESULTS

FLS, but not dermal fibroblasts, spontaneously formed a compacted lining architecture over 3 weeks in the 3-D ECM micromass organ cultures. These lining cells produced lubricin. FLS rearranged their surrounding ECM into a complex architecture resembling the synovial lining and supported the survival and cocompaction of monocyte/macrophages in the neo-lining structure. Furthermore, when stimulated by cytokines, FLS lining structures displayed features of the hyperplastic rheumatoid arthritis synovial lining.

CONCLUSION

This 3-D micromass organ culture method demonstrates that many of the phenotypic characteristics of the normal and the hyperplastic synovial lining in vivo are intrinsic functions of FLS. Moreover, FLS promote survival and cocompaction of primary monocytes in a manner remarkably similar to that of synovial lining macrophages. These findings provide new insight into inherent functions of the FLS lineage and establish a powerful in vitro method for further investigation of this lineage.

摘要

目的

确定成纤维样滑膜细胞（FLS）建立三维（3-D）复杂滑膜衬里结构的内在能力，该结构的特征是紧密排列的滑膜衬里的多细胞组织以及滑液成分的形成。

方法

将FLS培养在球形细胞外基质（ECM）微团中3周。通过组织学评估FLS微团结构，并与真皮成纤维细胞对照进行比较。通过免疫检测测量润滑素的合成。进行基底膜基质和网状纤维染色以检查ECM组织。制备原代人单核细胞和小鼠单核细胞，并与微团中的FLS共培养，以研究衬里结构中的共压实情况。施加细胞因子刺激以确定炎症结构重排的能力。

结果

在3-D ECM微团器官培养中，FLS而非真皮成纤维细胞在3周内自发形成紧密排列的衬里结构。这些衬里细胞产生润滑素。FLS将其周围的ECM重排为类似于滑膜衬里的复杂结构，并支持单核细胞/巨噬细胞在新衬里结构中的存活和共压实。此外，当受到细胞因子刺激时，FLS衬里结构表现出增生性类风湿关节炎滑膜衬里的特征。

结论

这种3-D微团器官培养方法表明，体内正常和增生性滑膜衬里的许多表型特征是FLS的内在功能。此外，FLS以与滑膜衬里巨噬细胞非常相似的方式促进原代单核细胞的存活和共压实。这些发现为FLS谱系的固有功能提供了新的见解，并建立了一种强大的体外方法来进一步研究该谱系。

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滑膜成纤维细胞在三维器官培养中自我引导多细胞内衬结构和合成功能。

Synovial fibroblasts self-direct multicellular lining architecture and synthetic function in three-dimensional organ culture.

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