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Ectopic SOX9 mediates extracellular matrix deposition characteristic of organ fibrosis

Ectopic SOX9 mediates extracellular matrix deposition characteristic of organ fibrosis
Ectopic SOX9 mediates extracellular matrix deposition characteristic of organ fibrosis
Appropriate temporospatial expression of the transcription factor SOX9 is important for normal development of a wide range of organs. Here, we show that when SOX9 is expressed ectopically, target genes become expressed that are associated with disease. Histone deacetylase inhibitors in clinical trials for cancer therapy induced SOX9 expression via enhanced recruitment of nuclear factor Y (NF-Y) to CCAAT elements in the SOX9 proximal promoter. The effect of histone deacetylase inhibitors could be elicited in cells that normally lack SOX9, such as hepatocytes. In human fetal hepatocytes, this aberrant induction of SOX9 protein caused ectopic expression of COL2A1 and COMP1 that encode extracellular matrix (ECM) components normally associated with chondrogenesis. Previously, ectopic expression of this "chondrogenic" profile has been implicated in vascular calcification. More broadly, inappropriate ECM deposition is a hallmark of fibrosis. We demonstrated that induction of SOX9 expression also occurred during activation of fibrogenic cells from the adult liver when the transcription factor was responsible for expression of the major component of fibrotic ECM, type 1 collagen. These combined data identify new aspects in the regulation of SOX9 expression. They support a role for SOX9 beyond normal development as a transcriptional regulator in the pathology of fibrosis.
antagonists & inhibitors, cytology, clinical trials, transcription factors, cancer, fibrosis, pathology, collagen, proteins, human, ccaat-binding factor, extracellular matrix, metabolism, disease, stem-cells, regeneration, base sequence, research support, research, expression, molecular sequence data, high mobility group proteins, histone deacetylases, role, sequence homology, gene silencing, humans, tumor, cell line, fetal, biosynthesis, adult, clinical-trial, models, hepatocytes, biological, liver, nucleic acid, hela cells, chemistry, genes, protein, stem cells, therapy
0021-9258
14063-14071
Hanley, K.P.
48234f69-48c2-4336-8893-873e2b25cf32
Oakley, F.
f226e690-1d98-4604-9add-f1c4c2721f5d
Sugden, S.
a39c4f81-1336-4e09-a165-39526537fbd3
Wilson, D.I.
1500fca1-7082-4271-95f4-691f1d1252a2
Mann, D.A.
54e772bb-f94f-4485-98c8-b2339a929d86
Hanley, N.A.
ac5bcdcc-51dd-4f2c-ad06-fef6c1d50ebd
Hanley, K.P.
48234f69-48c2-4336-8893-873e2b25cf32
Oakley, F.
f226e690-1d98-4604-9add-f1c4c2721f5d
Sugden, S.
a39c4f81-1336-4e09-a165-39526537fbd3
Wilson, D.I.
1500fca1-7082-4271-95f4-691f1d1252a2
Mann, D.A.
54e772bb-f94f-4485-98c8-b2339a929d86
Hanley, N.A.
ac5bcdcc-51dd-4f2c-ad06-fef6c1d50ebd

Hanley, K.P., Oakley, F., Sugden, S., Wilson, D.I., Mann, D.A. and Hanley, N.A. (2008) Ectopic SOX9 mediates extracellular matrix deposition characteristic of organ fibrosis. The Journal of Biological Chemistry, 283 (20), 14063-14071. (doi:10.1074/jbc.M707390200).

Record type: Article

Abstract

Appropriate temporospatial expression of the transcription factor SOX9 is important for normal development of a wide range of organs. Here, we show that when SOX9 is expressed ectopically, target genes become expressed that are associated with disease. Histone deacetylase inhibitors in clinical trials for cancer therapy induced SOX9 expression via enhanced recruitment of nuclear factor Y (NF-Y) to CCAAT elements in the SOX9 proximal promoter. The effect of histone deacetylase inhibitors could be elicited in cells that normally lack SOX9, such as hepatocytes. In human fetal hepatocytes, this aberrant induction of SOX9 protein caused ectopic expression of COL2A1 and COMP1 that encode extracellular matrix (ECM) components normally associated with chondrogenesis. Previously, ectopic expression of this "chondrogenic" profile has been implicated in vascular calcification. More broadly, inappropriate ECM deposition is a hallmark of fibrosis. We demonstrated that induction of SOX9 expression also occurred during activation of fibrogenic cells from the adult liver when the transcription factor was responsible for expression of the major component of fibrotic ECM, type 1 collagen. These combined data identify new aspects in the regulation of SOX9 expression. They support a role for SOX9 beyond normal development as a transcriptional regulator in the pathology of fibrosis.

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More information

Published date: 2008
Keywords: antagonists & inhibitors, cytology, clinical trials, transcription factors, cancer, fibrosis, pathology, collagen, proteins, human, ccaat-binding factor, extracellular matrix, metabolism, disease, stem-cells, regeneration, base sequence, research support, research, expression, molecular sequence data, high mobility group proteins, histone deacetylases, role, sequence homology, gene silencing, humans, tumor, cell line, fetal, biosynthesis, adult, clinical-trial, models, hepatocytes, biological, liver, nucleic acid, hela cells, chemistry, genes, protein, stem cells, therapy
Organisations: Medicine

Identifiers

Local EPrints ID: 59805
URI: http://eprints.soton.ac.uk/id/eprint/59805
ISSN: 0021-9258
PURE UUID: a0d2825d-fb77-4c66-86ee-4a12a876a09f

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Date deposited: 04 Sep 2008
Last modified: 15 Mar 2024 11:17

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Contributors

Author: K.P. Hanley
Author: F. Oakley
Author: S. Sugden
Author: D.I. Wilson
Author: D.A. Mann
Author: N.A. Hanley

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