JunD regulates transcription of the tissue inhibitor of metalloproteinases-1 and interleukin-6 genes in activated hepatic stellate cells
JunD regulates transcription of the tissue inhibitor of metalloproteinases-1 and interleukin-6 genes in activated hepatic stellate cells
Activation of hepatic stellate cells (HSCs) to a myofibroblast-like phenotype is the pivotal event in hepatic wound healing and fibrosis. Rat HSCs activated in vitro express JunD, Fra2, and FosB as the predominant AP-1 DNA-binding proteins, and all three associate with an AP-1 sequence that is essential for activity of the tissue inhibitor of metalloproteinases-1 (TIMP-1) promoter. In this study, we used expression vectors for wild-type, dominant-negative, and forced homodimeric (Jun/eb1 chimeric factors) forms of JunD and other Fos and Jun proteins to determine the requirement for JunD in the transcriptional regulation of the TIMP-1 and interleukin-6 (IL-6) genes. JunD activity was required for TIMP-1 gene promoter activity, whereas overexpression of Fra2 or FosB caused a repression of promoter activity. The ability of homodimeric JunD/eb1 to elevate TIMP-1 promoter activity supports a role for JunD homodimers as the major AP-1-dependent transactivators of the TIMP-1 gene. IL-6 promoter activity was induced upon activation of HSCs and also required JunD activity; however, expression of JunD/eb1 homodimers resulted in transcriptional repression. Mutagenesis of the IL-6 promoter showed that an AP-1 DNA-binding site previously reported to be an activator of transcription in fibroblasts functions as a suppressor of promoter activity in HSCs. We conclude that JunD activates IL-6 gene transcription as a heterodimer and operates at an alternative DNA-binding site in the promoter. The relevance of these findings to events occurring in the injured liver was addressed by showing that AP-1 DNA-binding complexes are induced during HSC activation and contain JunD as the predominant Jun family protein. JunD is therefore an important transcriptional regulator of genes responsive to Jun homo- and heterodimers in activated HSCs.
24414-24421
Smart, D.E.
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Vincent, K.J.
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Arthur, M.J.
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Eickelberg, O.
f4910ced-bced-4c7c-9fdd-d9cf0119054c
Castellazzi, M.
0849030e-74f3-47f6-b060-b0ecf4724b2d
Mann, J.
57d027bc-4bc3-412c-8e8d-8c584fc35062
Mann, D.A.
54e772bb-f94f-4485-98c8-b2339a929d86
2001
Smart, D.E.
3fc82f4e-727a-4f79-96ee-8c80765cad59
Vincent, K.J.
5f05e6d8-b5f1-41d6-9db9-bd24254dd74f
Arthur, M.J.
8dc7bb21-17cb-489c-b9b1-4d9d68fb04a5
Eickelberg, O.
f4910ced-bced-4c7c-9fdd-d9cf0119054c
Castellazzi, M.
0849030e-74f3-47f6-b060-b0ecf4724b2d
Mann, J.
57d027bc-4bc3-412c-8e8d-8c584fc35062
Mann, D.A.
54e772bb-f94f-4485-98c8-b2339a929d86
Smart, D.E., Vincent, K.J., Arthur, M.J., Eickelberg, O., Castellazzi, M., Mann, J. and Mann, D.A.
(2001)
JunD regulates transcription of the tissue inhibitor of metalloproteinases-1 and interleukin-6 genes in activated hepatic stellate cells.
The Journal of Biological Chemistry, 276 (26), .
(doi:10.1074/jbc.M101840200).
Abstract
Activation of hepatic stellate cells (HSCs) to a myofibroblast-like phenotype is the pivotal event in hepatic wound healing and fibrosis. Rat HSCs activated in vitro express JunD, Fra2, and FosB as the predominant AP-1 DNA-binding proteins, and all three associate with an AP-1 sequence that is essential for activity of the tissue inhibitor of metalloproteinases-1 (TIMP-1) promoter. In this study, we used expression vectors for wild-type, dominant-negative, and forced homodimeric (Jun/eb1 chimeric factors) forms of JunD and other Fos and Jun proteins to determine the requirement for JunD in the transcriptional regulation of the TIMP-1 and interleukin-6 (IL-6) genes. JunD activity was required for TIMP-1 gene promoter activity, whereas overexpression of Fra2 or FosB caused a repression of promoter activity. The ability of homodimeric JunD/eb1 to elevate TIMP-1 promoter activity supports a role for JunD homodimers as the major AP-1-dependent transactivators of the TIMP-1 gene. IL-6 promoter activity was induced upon activation of HSCs and also required JunD activity; however, expression of JunD/eb1 homodimers resulted in transcriptional repression. Mutagenesis of the IL-6 promoter showed that an AP-1 DNA-binding site previously reported to be an activator of transcription in fibroblasts functions as a suppressor of promoter activity in HSCs. We conclude that JunD activates IL-6 gene transcription as a heterodimer and operates at an alternative DNA-binding site in the promoter. The relevance of these findings to events occurring in the injured liver was addressed by showing that AP-1 DNA-binding complexes are induced during HSC activation and contain JunD as the predominant Jun family protein. JunD is therefore an important transcriptional regulator of genes responsive to Jun homo- and heterodimers in activated HSCs.
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Published date: 2001
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Local EPrints ID: 27432
URI: http://eprints.soton.ac.uk/id/eprint/27432
PURE UUID: bb8ed04e-3372-4129-b5ee-505e8728011a
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Date deposited: 27 Apr 2006
Last modified: 15 Mar 2024 07:18
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Author:
D.E. Smart
Author:
K.J. Vincent
Author:
M.J. Arthur
Author:
O. Eickelberg
Author:
M. Castellazzi
Author:
J. Mann
Author:
D.A. Mann
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