Gene Expression Pattern of Cells From Inflamed and Normal Areas of Osteoarthritis Synovial Membrane

Objective To compare the gene expression patterns of synovial cells from inflamed or normal/reactive areas of synovial membrane obtained from the same patient with osteoarthritis (OA). Methods At the time of total knee replacement, synovial tissues were obtained from 12 patients with knee OA. The in...

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Published in:Arthritis & rheumatology (Hoboken, N.J.) N.J.), 2014-04, Vol.66 (4), p.960-968
Main Authors: Lambert, Cécile, Dubuc, Jean‐Emile, Montell, Eulàlia, Vergés, Josep, Munaut, Carine, Noël, Agnès, Henrotin, Yves
Format: Article
Language:English
Subjects:
Aged
Aged, 80 and over
Angiogenesis
Chondrocytes - metabolism
Chondrocytes - pathology
Female
Gene Expression
Gene Expression Profiling
Humans
Inflammation
Inflammation - genetics
Inflammation - metabolism
Inflammation - pathology
Knee Joint - metabolism
Knee Joint - pathology
Male
Middle Aged
Osteoarthritis
Osteoarthritis, Knee - genetics
Osteoarthritis, Knee - metabolism
Osteoarthritis, Knee - pathology
RNA, Messenger - genetics
RNA, Messenger - metabolism
Synovial Membrane - metabolism
Synovial Membrane - pathology
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Summary:Objective To compare the gene expression patterns of synovial cells from inflamed or normal/reactive areas of synovial membrane obtained from the same patient with osteoarthritis (OA). Methods At the time of total knee replacement, synovial tissues were obtained from 12 patients with knee OA. The inflammation status of the synovial membrane was characterized according to macroscopic criteria and classified as normal/reactive or inflamed. Biopsy samples were cultured separately for 7 days. Microarray gene expression profiling was performed on normal/reactive and inflamed areas. Western blot and immunohistochemistry were used to confirm the identified genes that were differentially expressed. Results We identified 896 genes that were differentially expressed between normal/reactive and inflamed areas. The key pathways were related to inflammation, cartilage metabolism, Wnt signaling, and angiogenesis. In the inflammation network, the genes TREM1 and S100A9 were strongly up‐regulated. The genes MMP3, MMP9, CTSH (cathepsin H), and CTSS (cathepsin S) were significantly up‐regulated in the cartilage catabolism pathway, while the most up‐regulated anabolism enzyme gene was HAS1. In the Wnt signaling pathway, the genes for Wnt‐5a and low‐density lipoprotein receptor–related protein 5 were up‐regulated, while the gene FZD2 and the gene for Dkk‐3 were down‐regulated. Finally, STC1, which codes for a protein involved in angiogenesis, was identified as the most up‐regulated gene in inflamed compared with normal/reactive areas. Conclusion This study is the first to identify different expression patterns between 2 areas of the synovial membrane from the same patient. These differences concern several key pathways involved in OA pathogenesis. This analysis also provides information regarding new genes and proteins as potential targets of treatment.
ISSN:2326-5191
2326-5205
DOI:10.1002/art.38315