Recognition of Cisplatin−DNA Interstrand Cross-Links by Replication Protein A

Replication protein A (RPA) is a heterotrimeric protein that is required for DNA replication and most DNA repair pathways. RPA has previously been shown to play a role in recognizing and binding damaged DNA during nucleotide excision repair (NER). RPA has also been suggested to play a role in psoral...

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Veröffentlicht in:	Biochemistry (Easton) 2008-09, Vol.47 (38), p.10188-10196
Hauptverfasser:	Patrick, Steve M, Tillison, Kristin, Horn, Jeffrey M
Format:	Artikel
Sprache:	eng
Schlagworte:	Cisplatin - chemistry Cisplatin - metabolism Cross-Linking Reagents - chemistry Cross-Linking Reagents - metabolism DNA - chemical synthesis DNA - chemistry DNA - metabolism DNA Adducts - chemistry DNA Adducts - metabolism Fluorescence Polarization Humans Nucleic Acid Heteroduplexes - chemistry Nucleic Acid Heteroduplexes - metabolism Replication Protein A - chemistry Replication Protein A - metabolism
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creator	Patrick, Steve M Tillison, Kristin Horn, Jeffrey M
description	Replication protein A (RPA) is a heterotrimeric protein that is required for DNA replication and most DNA repair pathways. RPA has previously been shown to play a role in recognizing and binding damaged DNA during nucleotide excision repair (NER). RPA has also been suggested to play a role in psoralen DNA interstrand cross-link (ICL) repair, but a clear biochemical activity has yet to be identified in the ICL DNA repair pathways. Using HeLa cell extracts and DNA affinity chromatography, we demonstrate that RPA is preferentially retained on a cisplatin interstrand cross-link (ICL) DNA column compared with undamaged DNA. The retention of RPA on cisplatin intrastrand and ICL containing DNA affinity columns is comparable. In vitro electrophoretic mobility shift assays (EMSAs) using synthetic DNA substrates and purified RPA demonstrate higher affinity for cisplatin ICL DNA binding compared with undamaged DNA. The enhanced binding of RPA to the cisplatin ICL is dependent on the DNA length. As the DNA flanking the cisplatin ICL is increased from 7 to 21 bases, preferential RPA binding is observed. Fluorescence anisotropy reveals greater than 200-fold higher affinity to a cisplatin ICL containing 42-mer DNA compared with an undamaged DNA and a 3−4-fold higher affinity when compared with a cisplatin intrastrand damaged DNA. As the DNA length and stringency of the binding reaction increase, greater preferential binding of RPA to cisplatin ICL DNA is observed. These data are consistent with a role for RPA in the initial recognition and initiation of cisplatin ICL DNA repair.
doi_str_mv	10.1021/bi800460d
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RPA has previously been shown to play a role in recognizing and binding damaged DNA during nucleotide excision repair (NER). RPA has also been suggested to play a role in psoralen DNA interstrand cross-link (ICL) repair, but a clear biochemical activity has yet to be identified in the ICL DNA repair pathways. Using HeLa cell extracts and DNA affinity chromatography, we demonstrate that RPA is preferentially retained on a cisplatin interstrand cross-link (ICL) DNA column compared with undamaged DNA. The retention of RPA on cisplatin intrastrand and ICL containing DNA affinity columns is comparable. In vitro electrophoretic mobility shift assays (EMSAs) using synthetic DNA substrates and purified RPA demonstrate higher affinity for cisplatin ICL DNA binding compared with undamaged DNA. The enhanced binding of RPA to the cisplatin ICL is dependent on the DNA length. As the DNA flanking the cisplatin ICL is increased from 7 to 21 bases, preferential RPA binding is observed. Fluorescence anisotropy reveals greater than 200-fold higher affinity to a cisplatin ICL containing 42-mer DNA compared with an undamaged DNA and a 3−4-fold higher affinity when compared with a cisplatin intrastrand damaged DNA. As the DNA length and stringency of the binding reaction increase, greater preferential binding of RPA to cisplatin ICL DNA is observed. 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RPA has previously been shown to play a role in recognizing and binding damaged DNA during nucleotide excision repair (NER). RPA has also been suggested to play a role in psoralen DNA interstrand cross-link (ICL) repair, but a clear biochemical activity has yet to be identified in the ICL DNA repair pathways. Using HeLa cell extracts and DNA affinity chromatography, we demonstrate that RPA is preferentially retained on a cisplatin interstrand cross-link (ICL) DNA column compared with undamaged DNA. The retention of RPA on cisplatin intrastrand and ICL containing DNA affinity columns is comparable. In vitro electrophoretic mobility shift assays (EMSAs) using synthetic DNA substrates and purified RPA demonstrate higher affinity for cisplatin ICL DNA binding compared with undamaged DNA. The enhanced binding of RPA to the cisplatin ICL is dependent on the DNA length. As the DNA flanking the cisplatin ICL is increased from 7 to 21 bases, preferential RPA binding is observed. Fluorescence anisotropy reveals greater than 200-fold higher affinity to a cisplatin ICL containing 42-mer DNA compared with an undamaged DNA and a 3−4-fold higher affinity when compared with a cisplatin intrastrand damaged DNA. As the DNA length and stringency of the binding reaction increase, greater preferential binding of RPA to cisplatin ICL DNA is observed. 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RPA has previously been shown to play a role in recognizing and binding damaged DNA during nucleotide excision repair (NER). RPA has also been suggested to play a role in psoralen DNA interstrand cross-link (ICL) repair, but a clear biochemical activity has yet to be identified in the ICL DNA repair pathways. Using HeLa cell extracts and DNA affinity chromatography, we demonstrate that RPA is preferentially retained on a cisplatin interstrand cross-link (ICL) DNA column compared with undamaged DNA. The retention of RPA on cisplatin intrastrand and ICL containing DNA affinity columns is comparable. In vitro electrophoretic mobility shift assays (EMSAs) using synthetic DNA substrates and purified RPA demonstrate higher affinity for cisplatin ICL DNA binding compared with undamaged DNA. The enhanced binding of RPA to the cisplatin ICL is dependent on the DNA length. As the DNA flanking the cisplatin ICL is increased from 7 to 21 bases, preferential RPA binding is observed. Fluorescence anisotropy reveals greater than 200-fold higher affinity to a cisplatin ICL containing 42-mer DNA compared with an undamaged DNA and a 3−4-fold higher affinity when compared with a cisplatin intrastrand damaged DNA. As the DNA length and stringency of the binding reaction increase, greater preferential binding of RPA to cisplatin ICL DNA is observed. These data are consistent with a role for RPA in the initial recognition and initiation of cisplatin ICL DNA repair.</abstract><cop>United States</cop><pub>American Chemical Society</pub><pmid>18729380</pmid><doi>10.1021/bi800460d</doi><tpages>9</tpages></addata></record>
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source	ACS_美国化学学会期刊（与NSTL共建）; MEDLINE
subjects	Cisplatin - chemistry Cisplatin - metabolism Cross-Linking Reagents - chemistry Cross-Linking Reagents - metabolism DNA - chemical synthesis DNA - chemistry DNA - metabolism DNA Adducts - chemistry DNA Adducts - metabolism Fluorescence Polarization Humans Nucleic Acid Heteroduplexes - chemistry Nucleic Acid Heteroduplexes - metabolism Replication Protein A - chemistry Replication Protein A - metabolism
title	Recognition of Cisplatin−DNA Interstrand Cross-Links by Replication Protein A
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