Redox regulation of a novel L1Md-A2 retrotransposon in vascular smooth muscle cells

Kim P. Lu; Kenneth S. Ramos

doi:10.1074/jbc.M303888200

Redox regulation of a novel L1Md-A2 retrotransposon in vascular smooth muscle cells

Kim P. Lu
, Kenneth S. Ramos

Medicine

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

33 Scopus citations

Abstract

Activation and reintegration of retrotransposons into the genome is linked to several diseases in human and rodents, but mechanisms of gene activation remain largely unknown. Here we identify a novel gene of L1Md-A2 lineage in vascular smooth muscle cells and show that environmental hydrocarbons enhance gene expression and activate monomer-driven transcription via a redox-sensitive mechanism. Site-directed mutagenesis and progressive deletion analyses identified two antioxidant/electrophile response-like elements (5′-GTGACTCGAGC-3′) within the A2/3 and A3 region. These elements mediated activation, with the A3 monomer playing an essential role in transactivation. This signaling pathway may contribute to gene instability during the course of atherogenesis.

Original language	English (US)
Pages (from-to)	28201-28209
Number of pages	9
Journal	Journal of Biological Chemistry
Volume	278
Issue number	30
DOIs	https://doi.org/10.1074/jbc.M303888200
State	Published - Jul 25 2003

ASJC Scopus subject areas

Biochemistry
Molecular Biology
Cell Biology

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title = "Redox regulation of a novel L1Md-A2 retrotransposon in vascular smooth muscle cells",

abstract = "Activation and reintegration of retrotransposons into the genome is linked to several diseases in human and rodents, but mechanisms of gene activation remain largely unknown. Here we identify a novel gene of L1Md-A2 lineage in vascular smooth muscle cells and show that environmental hydrocarbons enhance gene expression and activate monomer-driven transcription via a redox-sensitive mechanism. Site-directed mutagenesis and progressive deletion analyses identified two antioxidant/electrophile response-like elements (5′-GTGACTCGAGC-3′) within the A2/3 and A3 region. These elements mediated activation, with the A3 monomer playing an essential role in transactivation. This signaling pathway may contribute to gene instability during the course of atherogenesis.",

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AU - Ramos, Kenneth S.

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N2 - Activation and reintegration of retrotransposons into the genome is linked to several diseases in human and rodents, but mechanisms of gene activation remain largely unknown. Here we identify a novel gene of L1Md-A2 lineage in vascular smooth muscle cells and show that environmental hydrocarbons enhance gene expression and activate monomer-driven transcription via a redox-sensitive mechanism. Site-directed mutagenesis and progressive deletion analyses identified two antioxidant/electrophile response-like elements (5′-GTGACTCGAGC-3′) within the A2/3 and A3 region. These elements mediated activation, with the A3 monomer playing an essential role in transactivation. This signaling pathway may contribute to gene instability during the course of atherogenesis.

AB - Activation and reintegration of retrotransposons into the genome is linked to several diseases in human and rodents, but mechanisms of gene activation remain largely unknown. Here we identify a novel gene of L1Md-A2 lineage in vascular smooth muscle cells and show that environmental hydrocarbons enhance gene expression and activate monomer-driven transcription via a redox-sensitive mechanism. Site-directed mutagenesis and progressive deletion analyses identified two antioxidant/electrophile response-like elements (5′-GTGACTCGAGC-3′) within the A2/3 and A3 region. These elements mediated activation, with the A3 monomer playing an essential role in transactivation. This signaling pathway may contribute to gene instability during the course of atherogenesis.

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Redox regulation of a novel L1Md-A2 retrotransposon in vascular smooth muscle cells

Abstract

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