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Association of Reduced Type IX Collagen Gene Expression in Human Osteoarthritic Chondrocytes With Epigenetic Silencing by DNA Hypermethylation

Association of Reduced Type IX Collagen Gene Expression in Human Osteoarthritic Chondrocytes With Epigenetic Silencing by DNA Hypermethylation
Association of Reduced Type IX Collagen Gene Expression in Human Osteoarthritic Chondrocytes With Epigenetic Silencing by DNA Hypermethylation
Objective

To investigate whether the changes in collagen gene expression in osteoarthritic (OA) human chondrocytes are associated with changes in the DNA methylation status in the COL2A1 enhancer and COL9A1 promoter.

Methods

Expression levels were determined using quantitative reverse transcription–polymerase chain reaction, and the percentage of DNA methylation was quantified by pyrosequencing. The effect of CpG methylation on COL9A1 promoter activity was determined using a CpG-free vector; cotransfections with expression vectors encoding SOX9, hypoxia-inducible factor 1? (HIF-1?), and HIF-2? were carried out to analyze COL9A1 promoter activities in response to changes in the methylation status. Chromatin immunoprecipitation assays were carried out to validate SOX9 binding to the COL9A1 promoter and the influence of DNA methylation.

Results

Although COL2A1 messenger RNA (mRNA) levels in OA chondrocytes were 19-fold higher than those in the controls, all of the CpG sites in the COL2A1 enhancer were totally demethylated in both samples. The levels of COL9A1 mRNA in OA chondrocytes were 6,000-fold lower than those in controls; 6 CpG sites of the COL9A1 promoter were significantly hypermethylated in OA patients as compared with controls. Treatment with 5-azadeoxycitidine enhanced COL9A1 gene expression and prevented culture-induced hypermethylation. In vitro methylation decreased COL9A1 promoter activity. Mutations in the 5 CpG sites proximal to the transcription start site decreased COL9A1 promoter activity. Cotransfection with SOX9 enhanced COL9A1 promoter activity; CpG methylation attenuated SOX9 binding to the COL9A1 promoter.

Conclusion

This first demonstration that hypermethylation is associated with down-regulation of COL9A1 expression in OA cartilage highlights the pivotal role of epigenetics in OA, involving not only hypomethylation, but also hypermethylation, with important therapeutic implications for OA treatment.
2326-5205
3040-3051
Imagawa, Kei
cfdeef65-8259-4f0c-943a-0d439aab3193
de Andrés, María C.
9b3834e7-972f-410d-a8cb-199abd035b87
Hashimoto, Ko
19b8f3be-d539-4579-a6cb-936ed0243b27
Itoi, Eiji
2c5bf991-861d-414f-a435-7d86b8acbf3f
Otero, Miguel
3f7ee13f-d9cf-495e-b184-e9896d32c8cf
Roach, Helmtrud I
825da7a6-c889-413a-b8a5-a12b240e494d
Goldring, Mary B.
67cbd000-e36a-4b82-bc50-f3c5a8d292da
Oreffo, Richard O.C.
ff9fff72-6855-4d0f-bfb2-311d0e8f3778
Imagawa, Kei
cfdeef65-8259-4f0c-943a-0d439aab3193
de Andrés, María C.
9b3834e7-972f-410d-a8cb-199abd035b87
Hashimoto, Ko
19b8f3be-d539-4579-a6cb-936ed0243b27
Itoi, Eiji
2c5bf991-861d-414f-a435-7d86b8acbf3f
Otero, Miguel
3f7ee13f-d9cf-495e-b184-e9896d32c8cf
Roach, Helmtrud I
825da7a6-c889-413a-b8a5-a12b240e494d
Goldring, Mary B.
67cbd000-e36a-4b82-bc50-f3c5a8d292da
Oreffo, Richard O.C.
ff9fff72-6855-4d0f-bfb2-311d0e8f3778

Imagawa, Kei, de Andrés, María C., Hashimoto, Ko, Itoi, Eiji, Otero, Miguel, Roach, Helmtrud I, Goldring, Mary B. and Oreffo, Richard O.C. (2014) Association of Reduced Type IX Collagen Gene Expression in Human Osteoarthritic Chondrocytes With Epigenetic Silencing by DNA Hypermethylation. Arthritis & Rheumatology, 66 (11), 3040-3051. (doi:10.1002/art.38774). (PMID:25048791)

Record type: Article

Abstract

Objective

To investigate whether the changes in collagen gene expression in osteoarthritic (OA) human chondrocytes are associated with changes in the DNA methylation status in the COL2A1 enhancer and COL9A1 promoter.

Methods

Expression levels were determined using quantitative reverse transcription–polymerase chain reaction, and the percentage of DNA methylation was quantified by pyrosequencing. The effect of CpG methylation on COL9A1 promoter activity was determined using a CpG-free vector; cotransfections with expression vectors encoding SOX9, hypoxia-inducible factor 1? (HIF-1?), and HIF-2? were carried out to analyze COL9A1 promoter activities in response to changes in the methylation status. Chromatin immunoprecipitation assays were carried out to validate SOX9 binding to the COL9A1 promoter and the influence of DNA methylation.

Results

Although COL2A1 messenger RNA (mRNA) levels in OA chondrocytes were 19-fold higher than those in the controls, all of the CpG sites in the COL2A1 enhancer were totally demethylated in both samples. The levels of COL9A1 mRNA in OA chondrocytes were 6,000-fold lower than those in controls; 6 CpG sites of the COL9A1 promoter were significantly hypermethylated in OA patients as compared with controls. Treatment with 5-azadeoxycitidine enhanced COL9A1 gene expression and prevented culture-induced hypermethylation. In vitro methylation decreased COL9A1 promoter activity. Mutations in the 5 CpG sites proximal to the transcription start site decreased COL9A1 promoter activity. Cotransfection with SOX9 enhanced COL9A1 promoter activity; CpG methylation attenuated SOX9 binding to the COL9A1 promoter.

Conclusion

This first demonstration that hypermethylation is associated with down-regulation of COL9A1 expression in OA cartilage highlights the pivotal role of epigenetics in OA, involving not only hypomethylation, but also hypermethylation, with important therapeutic implications for OA treatment.

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e-pub ahead of print date: 26 October 2014
Published date: November 2014
Organisations: Human Development & Health

Identifiers

Local EPrints ID: 367259
URI: http://eprints.soton.ac.uk/id/eprint/367259
DOI: doi:10.1002/art.38774
ISSN: 2326-5205
PURE UUID: 14a6c3db-0749-4460-8f93-da9e248abeaf
ORCID for Richard O.C. Oreffo: ORCID iD orcid.org/0000-0001-5995-6726

Catalogue record

Date deposited: 29 Jul 2014 11:36
Last modified: 15 Mar 2024 03:04

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Contributors

Author: Kei Imagawa
Author: María C. de Andrés
Author: Ko Hashimoto
Author: Eiji Itoi
Author: Miguel Otero
Author: Helmtrud I Roach
Author: Mary B. Goldring
Author: Richard O.C. Oreffo ORCID iD

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