Malondialdehyde, a Product of Lipid Peroxidation, Is Mutagenic in Human Cells

Malondialdehyde (MDA) is an endogenous genotoxic product of enzymatic and oxygen radical-induced lipid peroxidation whose adducts are known to exist in DNA isolated from healthy human beings. To evaluate the mutagenic potential of MDA in human cells, we reacted MDA with pSP189 shuttle vector DNA and...

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Veröffentlicht in:	The Journal of biological chemistry 2003-08, Vol.278 (33), p.31426-31433
Hauptverfasser:	Niedernhofer, Laura J., Daniels, J.Scott, Rouzer, Carol A., Greene, Rachel E., Marnett, Lawrence J.
Format:	Artikel
Sprache:	eng
Schlagworte:	Base Sequence Cell Line Cross-Linking Reagents - metabolism Cross-Linking Reagents - pharmacology DNA Repair Fibroblasts - drug effects Genes, Reporter Genes, Suppressor Humans Lipid Peroxidation - physiology Malondialdehyde - chemistry Malondialdehyde - metabolism Malondialdehyde - pharmacology Molecular Sequence Data Mutagens - chemistry Mutagens - metabolism Mutagens - pharmacology Mutation - drug effects Plasmids - metabolism RNA, Transfer - genetics
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container_issue	33
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container_title	The Journal of biological chemistry
container_volume	278
creator	Niedernhofer, Laura J. Daniels, J.Scott Rouzer, Carol A. Greene, Rachel E. Marnett, Lawrence J.
description	Malondialdehyde (MDA) is an endogenous genotoxic product of enzymatic and oxygen radical-induced lipid peroxidation whose adducts are known to exist in DNA isolated from healthy human beings. To evaluate the mutagenic potential of MDA in human cells, we reacted MDA with pSP189 shuttle vector DNA and then transfected them into human fibroblasts for replication. MDA induced up to a 15-fold increase in mutation frequency in the supF reporter gene compared with untreated DNA. Sequence analysis revealed that the majority of MDA-induced mutations occurred at GC base pairs. The most frequent mutations were large insertions and deletions, but base pair substitutions were also detected. MDA-induced mutations were completely abolished when the adducted shuttle vector was replicated in cells lacking nucleotide excision repair. MDA induction of large deletions and the apparent requirement for nucleotide excision repair suggested the possible involvement of a DNA interstrand cross-link as a premutagenic lesion. Indeed, MDA formed interstrand cross-links in duplex plasmids and oligonucleotides. Substrates containing the sequence 5′-d(CG) were preferentially cross-linked, consistent with the observation of base pair substitutions in 5′-d(CG) sites in the MDA-induced mutation spectrum. These experiments provide biological and biochemical evidence for the existence of MDA-induced DNA interstrand cross-links that could result from endogenous oxidative stress and likely have potent biological effects.
doi_str_mv	10.1074/jbc.M212549200
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To evaluate the mutagenic potential of MDA in human cells, we reacted MDA with pSP189 shuttle vector DNA and then transfected them into human fibroblasts for replication. MDA induced up to a 15-fold increase in mutation frequency in the supF reporter gene compared with untreated DNA. Sequence analysis revealed that the majority of MDA-induced mutations occurred at GC base pairs. The most frequent mutations were large insertions and deletions, but base pair substitutions were also detected. MDA-induced mutations were completely abolished when the adducted shuttle vector was replicated in cells lacking nucleotide excision repair. MDA induction of large deletions and the apparent requirement for nucleotide excision repair suggested the possible involvement of a DNA interstrand cross-link as a premutagenic lesion. Indeed, MDA formed interstrand cross-links in duplex plasmids and oligonucleotides. Substrates containing the sequence 5′-d(CG) were preferentially cross-linked, consistent with the observation of base pair substitutions in 5′-d(CG) sites in the MDA-induced mutation spectrum. 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subjects	Base Sequence Cell Line Cross-Linking Reagents - metabolism Cross-Linking Reagents - pharmacology DNA Repair Fibroblasts - drug effects Genes, Reporter Genes, Suppressor Humans Lipid Peroxidation - physiology Malondialdehyde - chemistry Malondialdehyde - metabolism Malondialdehyde - pharmacology Molecular Sequence Data Mutagens - chemistry Mutagens - metabolism Mutagens - pharmacology Mutation - drug effects Plasmids - metabolism RNA, Transfer - genetics
title	Malondialdehyde, a Product of Lipid Peroxidation, Is Mutagenic in Human Cells
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