Carbon monoxide modulates α-smooth muscle actin and small proline rich-1a expression in fibrosis

Liang Zheng; Zhihong Zhou; Ling Lin; Sean Alber; Simon Watkins; Naftali Kaminski; Augustine M.K. Choi; Danielle Morse

doi:10.1165/rcmb.2007-0401OC

Carbon monoxide modulates α-smooth muscle actin and small proline rich-1a expression in fibrosis

Liang Zheng, Zhihong Zhou, Ling Lin, Sean Alber, Simon Watkins, Naftali Kaminski, Augustine M.K. Choi, Danielle Morse

Research output: Contribution to journal › Article › peer-review

21 Citations (SciVal)

Abstract

Carbon monoxide (CO) is a biologically active molecule produced in the body by the stress-inducible enzyme, heme oxygenase.Wehave previously shown that CO suppresses fibrosis in a murine bleomycin model. To investigate the mechanisms by which CO opposes fibrogenesis, we performed gene expression profiling of fibroblasts treated with transforminggrowthfactor-β₁ and CO. The mosthighly differentially expressed categories of genes included those related to muscular system development and the small proline-rich family of proteins.Weconfirmed in vitro, and in an in vivo bleomycin model of lung fibrosis, that CO suppresses α-smooth muscle actin expression and enhances small proline-rich protein-1a expression. We further show that these effects of CO depend upon signaling via the extracellular signal-regulated kinase pathway. Our results demonstrate novel transcriptional targets for CO and further elucidate the mechanism by which CO suppresses fibrosis.

Original language	English (US)
Pages (from-to)	85-92
Number of pages	8
Journal	American journal of respiratory cell and molecular biology
Volume	41
Issue number	1
DOIs	https://doi.org/10.1165/rcmb.2007-0401OC
State	Published - Jul 1 2009

All Science Journal Classification (ASJC) codes

Molecular Biology
Pulmonary and Respiratory Medicine
Clinical Biochemistry
Cell Biology

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title = "Carbon monoxide modulates α-smooth muscle actin and small proline rich-1a expression in fibrosis",

abstract = "Carbon monoxide (CO) is a biologically active molecule produced in the body by the stress-inducible enzyme, heme oxygenase.Wehave previously shown that CO suppresses fibrosis in a murine bleomycin model. To investigate the mechanisms by which CO opposes fibrogenesis, we performed gene expression profiling of fibroblasts treated with transforminggrowthfactor-β1 and CO. The mosthighly differentially expressed categories of genes included those related to muscular system development and the small proline-rich family of proteins.Weconfirmed in vitro, and in an in vivo bleomycin model of lung fibrosis, that CO suppresses α-smooth muscle actin expression and enhances small proline-rich protein-1a expression. We further show that these effects of CO depend upon signaling via the extracellular signal-regulated kinase pathway. Our results demonstrate novel transcriptional targets for CO and further elucidate the mechanism by which CO suppresses fibrosis.",

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AU - Zheng, Liang

AU - Zhou, Zhihong

AU - Lin, Ling

AU - Alber, Sean

AU - Watkins, Simon

AU - Kaminski, Naftali

AU - Choi, Augustine M.K.

AU - Morse, Danielle

PY - 2009/7/1

Y1 - 2009/7/1

N2 - Carbon monoxide (CO) is a biologically active molecule produced in the body by the stress-inducible enzyme, heme oxygenase.Wehave previously shown that CO suppresses fibrosis in a murine bleomycin model. To investigate the mechanisms by which CO opposes fibrogenesis, we performed gene expression profiling of fibroblasts treated with transforminggrowthfactor-β1 and CO. The mosthighly differentially expressed categories of genes included those related to muscular system development and the small proline-rich family of proteins.Weconfirmed in vitro, and in an in vivo bleomycin model of lung fibrosis, that CO suppresses α-smooth muscle actin expression and enhances small proline-rich protein-1a expression. We further show that these effects of CO depend upon signaling via the extracellular signal-regulated kinase pathway. Our results demonstrate novel transcriptional targets for CO and further elucidate the mechanism by which CO suppresses fibrosis.

AB - Carbon monoxide (CO) is a biologically active molecule produced in the body by the stress-inducible enzyme, heme oxygenase.Wehave previously shown that CO suppresses fibrosis in a murine bleomycin model. To investigate the mechanisms by which CO opposes fibrogenesis, we performed gene expression profiling of fibroblasts treated with transforminggrowthfactor-β1 and CO. The mosthighly differentially expressed categories of genes included those related to muscular system development and the small proline-rich family of proteins.Weconfirmed in vitro, and in an in vivo bleomycin model of lung fibrosis, that CO suppresses α-smooth muscle actin expression and enhances small proline-rich protein-1a expression. We further show that these effects of CO depend upon signaling via the extracellular signal-regulated kinase pathway. Our results demonstrate novel transcriptional targets for CO and further elucidate the mechanism by which CO suppresses fibrosis.

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Carbon monoxide modulates α-smooth muscle actin and small proline rich-1a expression in fibrosis

Abstract

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