Increased p53 Mutation Load in Nontumorous Human Liver of Wilson Disease and Hemochromatosis: Oxyradical Overload Diseases
Hemochromatosis and Wilson disease (WD), characterized by the excess hepatic deposition of iron and copper, respectively, produce oxidative stress and increase the risk of liver cancer. Because the frequency of p53 mutated alleles in nontumorous human tissue may be a biomarker of oxyradical damage a...
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| Veröffentlicht in: | Proceedings of the National Academy of Sciences - PNAS 2000-11, Vol.97 (23), p.12770-12775 |
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| creator | Hussain, S. Perwez Raja, Kamran Amstad, Paul A. Sawyer, Mark Trudel, Laura J. Wogan, Gerald N. Hofseth, Lorne J. Shields, Peter G. Billiar, Timothy R. Trautwein, Christian Hohler, Thomas Galle, Peter R. Phillips, David H. Markin, Rodney Marrogi, Aizen J. Harris, Curtis C. |
| description | Hemochromatosis and Wilson disease (WD), characterized by the excess hepatic deposition of iron and copper, respectively, produce oxidative stress and increase the risk of liver cancer. Because the frequency of p53 mutated alleles in nontumorous human tissue may be a biomarker of oxyradical damage and identify individuals at increased cancer risk, we have determined the frequency of p53 mutated alleles in nontumorous liver tissue from WD and hemochromatosis patients. When compared with the liver samples from normal controls, higher frequencies of G:C to T:A transversions at codon 249 (P < 0.001) and C:G to A:T transversions and C:G to T:A transitions at codon 250 (P < 0.001 and P < 0.005) were found in liver tissue from WD cases, and a higher frequency of G:C to T:A transversions at codon 249 (P < 0.05) also was found in liver tissue from hemochromatosis cases. Sixty percent of the WD and 28% of hemochromatosis cases also showed a higher expression of inducible nitric oxide synthase in the liver, which suggests nitric oxide as a source of increased oxidative stress. A high level of etheno-DNA adducts, formed from oxyradical-induced lipid peroxidation, in liver from WD and hemochromatosis patients has been reported previously. Therefore, we exposed a wild-type p53 TK-6 lymphoblastoid cell line to 4-hydroxynonenal, an unsaturated aldehyde involved in lipid peroxidation, and observed an increase in G to T transversions at p53 codon 249 (AGG to AGT). These results are consistent with the hypothesis that the generation of oxygen/nitrogen species and unsaturated aldehydes from iron and copper overload in hemochromatosis and WD causes mutations in the p53 tumor suppressor gene. |
| doi_str_mv | 10.1073/pnas.220416097 |
| format | Article |
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Perwez ; Raja, Kamran ; Amstad, Paul A. ; Sawyer, Mark ; Trudel, Laura J. ; Wogan, Gerald N. ; Hofseth, Lorne J. ; Shields, Peter G. ; Billiar, Timothy R. ; Trautwein, Christian ; Hohler, Thomas ; Galle, Peter R. ; Phillips, David H. ; Markin, Rodney ; Marrogi, Aizen J. ; Harris, Curtis C.</creator><creatorcontrib>Hussain, S. Perwez ; Raja, Kamran ; Amstad, Paul A. ; Sawyer, Mark ; Trudel, Laura J. ; Wogan, Gerald N. ; Hofseth, Lorne J. ; Shields, Peter G. ; Billiar, Timothy R. ; Trautwein, Christian ; Hohler, Thomas ; Galle, Peter R. ; Phillips, David H. ; Markin, Rodney ; Marrogi, Aizen J. ; Harris, Curtis C.</creatorcontrib><description>Hemochromatosis and Wilson disease (WD), characterized by the excess hepatic deposition of iron and copper, respectively, produce oxidative stress and increase the risk of liver cancer. Because the frequency of p53 mutated alleles in nontumorous human tissue may be a biomarker of oxyradical damage and identify individuals at increased cancer risk, we have determined the frequency of p53 mutated alleles in nontumorous liver tissue from WD and hemochromatosis patients. When compared with the liver samples from normal controls, higher frequencies of G:C to T:A transversions at codon 249 (P < 0.001) and C:G to A:T transversions and C:G to T:A transitions at codon 250 (P < 0.001 and P < 0.005) were found in liver tissue from WD cases, and a higher frequency of G:C to T:A transversions at codon 249 (P < 0.05) also was found in liver tissue from hemochromatosis cases. Sixty percent of the WD and 28% of hemochromatosis cases also showed a higher expression of inducible nitric oxide synthase in the liver, which suggests nitric oxide as a source of increased oxidative stress. A high level of etheno-DNA adducts, formed from oxyradical-induced lipid peroxidation, in liver from WD and hemochromatosis patients has been reported previously. Therefore, we exposed a wild-type p53 TK-6 lymphoblastoid cell line to 4-hydroxynonenal, an unsaturated aldehyde involved in lipid peroxidation, and observed an increase in G to T transversions at p53 codon 249 (AGG to AGT). These results are consistent with the hypothesis that the generation of oxygen/nitrogen species and unsaturated aldehydes from iron and copper overload in hemochromatosis and WD causes mutations in the p53 tumor suppressor gene.</description><identifier>ISSN: 0027-8424</identifier><identifier>EISSN: 1091-6490</identifier><identifier>DOI: 10.1073/pnas.220416097</identifier><identifier>PMID: 11050162</identifier><language>eng</language><publisher>United States: National Academy of Sciences of the United States of America</publisher><subject>Aldehydes - pharmacology ; Alleles ; Animals ; Biological Sciences ; Cancer ; Carcinogens ; Cell Line ; Codons ; Copper ; Copper - metabolism ; Disease ; Free Radicals ; Genes, MHC Class I ; Genetic mutation ; Hemochromatosis ; Hemochromatosis - genetics ; Hemochromatosis - pathology ; Hemochromatosis Protein ; Hepatolenticular degeneration ; Hepatolenticular Degeneration - genetics ; Hepatolenticular Degeneration - pathology ; Histocompatibility Antigens Class I - genetics ; HLA Antigens - genetics ; Humans ; Iron ; Iron - metabolism ; Liver ; Liver - metabolism ; Liver - pathology ; Medical research ; Membrane Proteins ; Mutagenesis - drug effects ; Mutation ; Nitric Oxide Synthase - biosynthesis ; Nitric Oxide Synthase Type II ; Oxidative stress ; Rabbits ; Tissue samples ; Tumor Suppressor Protein p53 - genetics</subject><ispartof>Proceedings of the National Academy of Sciences - PNAS, 2000-11, Vol.97 (23), p.12770-12775</ispartof><rights>Copyright 1993-2000 National Academy of Sciences of the United States of America</rights><rights>Copyright National Academy of Sciences Nov 7, 2000</rights><rights>Copyright © 2000, The National Academy of Sciences 2000</rights><lds50>peer_reviewed</lds50><oa>free_for_read</oa><woscitedreferencessubscribed>false</woscitedreferencessubscribed><citedby>FETCH-LOGICAL-c585t-587de4d7e20eb8e2327ce1c6a04561ea83d461480d198e5646baa3f78145639a3</citedby><cites>FETCH-LOGICAL-c585t-587de4d7e20eb8e2327ce1c6a04561ea83d461480d198e5646baa3f78145639a3</cites></display><links><openurl>$$Topenurl_article</openurl><openurlfulltext>$$Topenurlfull_article</openurlfulltext><thumbnail>$$Uhttp://www.pnas.org/content/97/23.cover.gif</thumbnail><linktopdf>$$Uhttps://www.jstor.org/stable/pdf/123925$$EPDF$$P50$$Gjstor$$H</linktopdf><linktohtml>$$Uhttps://www.jstor.org/stable/123925$$EHTML$$P50$$Gjstor$$H</linktohtml><link.rule.ids>230,314,723,776,780,799,881,27903,27904,53769,53771,57995,58228</link.rule.ids><backlink>$$Uhttps://www.ncbi.nlm.nih.gov/pubmed/11050162$$D View this record in MEDLINE/PubMed$$Hfree_for_read</backlink></links><search><creatorcontrib>Hussain, S. Perwez</creatorcontrib><creatorcontrib>Raja, Kamran</creatorcontrib><creatorcontrib>Amstad, Paul A.</creatorcontrib><creatorcontrib>Sawyer, Mark</creatorcontrib><creatorcontrib>Trudel, Laura J.</creatorcontrib><creatorcontrib>Wogan, Gerald N.</creatorcontrib><creatorcontrib>Hofseth, Lorne J.</creatorcontrib><creatorcontrib>Shields, Peter G.</creatorcontrib><creatorcontrib>Billiar, Timothy R.</creatorcontrib><creatorcontrib>Trautwein, Christian</creatorcontrib><creatorcontrib>Hohler, Thomas</creatorcontrib><creatorcontrib>Galle, Peter R.</creatorcontrib><creatorcontrib>Phillips, David H.</creatorcontrib><creatorcontrib>Markin, Rodney</creatorcontrib><creatorcontrib>Marrogi, Aizen J.</creatorcontrib><creatorcontrib>Harris, Curtis C.</creatorcontrib><title>Increased p53 Mutation Load in Nontumorous Human Liver of Wilson Disease and Hemochromatosis: Oxyradical Overload Diseases</title><title>Proceedings of the National Academy of Sciences - PNAS</title><addtitle>Proc Natl Acad Sci U S A</addtitle><description>Hemochromatosis and Wilson disease (WD), characterized by the excess hepatic deposition of iron and copper, respectively, produce oxidative stress and increase the risk of liver cancer. Because the frequency of p53 mutated alleles in nontumorous human tissue may be a biomarker of oxyradical damage and identify individuals at increased cancer risk, we have determined the frequency of p53 mutated alleles in nontumorous liver tissue from WD and hemochromatosis patients. When compared with the liver samples from normal controls, higher frequencies of G:C to T:A transversions at codon 249 (P < 0.001) and C:G to A:T transversions and C:G to T:A transitions at codon 250 (P < 0.001 and P < 0.005) were found in liver tissue from WD cases, and a higher frequency of G:C to T:A transversions at codon 249 (P < 0.05) also was found in liver tissue from hemochromatosis cases. Sixty percent of the WD and 28% of hemochromatosis cases also showed a higher expression of inducible nitric oxide synthase in the liver, which suggests nitric oxide as a source of increased oxidative stress. A high level of etheno-DNA adducts, formed from oxyradical-induced lipid peroxidation, in liver from WD and hemochromatosis patients has been reported previously. Therefore, we exposed a wild-type p53 TK-6 lymphoblastoid cell line to 4-hydroxynonenal, an unsaturated aldehyde involved in lipid peroxidation, and observed an increase in G to T transversions at p53 codon 249 (AGG to AGT). These results are consistent with the hypothesis that the generation of oxygen/nitrogen species and unsaturated aldehydes from iron and copper overload in hemochromatosis and WD causes mutations in the p53 tumor suppressor gene.</description><subject>Aldehydes - pharmacology</subject><subject>Alleles</subject><subject>Animals</subject><subject>Biological Sciences</subject><subject>Cancer</subject><subject>Carcinogens</subject><subject>Cell Line</subject><subject>Codons</subject><subject>Copper</subject><subject>Copper - metabolism</subject><subject>Disease</subject><subject>Free Radicals</subject><subject>Genes, MHC Class I</subject><subject>Genetic mutation</subject><subject>Hemochromatosis</subject><subject>Hemochromatosis - genetics</subject><subject>Hemochromatosis - pathology</subject><subject>Hemochromatosis Protein</subject><subject>Hepatolenticular degeneration</subject><subject>Hepatolenticular Degeneration - genetics</subject><subject>Hepatolenticular Degeneration - pathology</subject><subject>Histocompatibility Antigens Class I - genetics</subject><subject>HLA Antigens - genetics</subject><subject>Humans</subject><subject>Iron</subject><subject>Iron - metabolism</subject><subject>Liver</subject><subject>Liver - metabolism</subject><subject>Liver - pathology</subject><subject>Medical research</subject><subject>Membrane Proteins</subject><subject>Mutagenesis - drug effects</subject><subject>Mutation</subject><subject>Nitric Oxide Synthase - biosynthesis</subject><subject>Nitric Oxide Synthase Type II</subject><subject>Oxidative stress</subject><subject>Rabbits</subject><subject>Tissue samples</subject><subject>Tumor Suppressor Protein p53 - genetics</subject><issn>0027-8424</issn><issn>1091-6490</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2000</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNp9kc9vFCEYhonR2LV69WKixIPxMusHDAMYL6b-2Care9F4JOwMa9nMwApM0_rXy2THVj144vA-z8cHL0KPCSwJCPbq4E1aUgo1aUCJO2hBQJGqqRXcRQsAKipZ0_oEPUhpDwCKS7iPTggBDqShC_Tz3LfRmmQ7fOAMfxqzyS54vA6mw87jz8HncQgxjAmvxsGUxF3aiMMOf3N9KuQ7lyYfG9_hlR1CexHDYHJILr3Gm6vraDrXmh5vitZPU2chPUT3dqZP9tF8nqKvH95_OVtV683H87O366rlkueKS9HZuhOWgt1KSxkVrSVtY6DmDbFGsq5uSC2hI0pa3tTN1hi2E5KUnCnDTtGb49zDuB1s11qfo-n1IbrBxGsdjNN_J95d6O_hUhMpmSr6i1mP4cdoU9aDS63te-Nt-RVNRMNqSlkBn_8D7sMYfXmapkAYA6l4gZZHqI0hpWh3N3sQ0FOjempU3zRahKd_bn-LzxUW4OUMTOLvWAlNmSZUCNC7se-zvcoFffZ_tBBPjsQ-5RBvL6NMUc5-Abr-vzk</recordid><startdate>20001107</startdate><enddate>20001107</enddate><creator>Hussain, S. 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Perwez ; Raja, Kamran ; Amstad, Paul A. ; Sawyer, Mark ; Trudel, Laura J. ; Wogan, Gerald N. ; Hofseth, Lorne J. ; Shields, Peter G. ; Billiar, Timothy R. ; Trautwein, Christian ; Hohler, Thomas ; Galle, Peter R. ; Phillips, David H. ; Markin, Rodney ; Marrogi, Aizen J. ; Harris, Curtis C.</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c585t-587de4d7e20eb8e2327ce1c6a04561ea83d461480d198e5646baa3f78145639a3</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2000</creationdate><topic>Aldehydes - pharmacology</topic><topic>Alleles</topic><topic>Animals</topic><topic>Biological Sciences</topic><topic>Cancer</topic><topic>Carcinogens</topic><topic>Cell Line</topic><topic>Codons</topic><topic>Copper</topic><topic>Copper - metabolism</topic><topic>Disease</topic><topic>Free Radicals</topic><topic>Genes, MHC Class I</topic><topic>Genetic mutation</topic><topic>Hemochromatosis</topic><topic>Hemochromatosis - genetics</topic><topic>Hemochromatosis - pathology</topic><topic>Hemochromatosis Protein</topic><topic>Hepatolenticular degeneration</topic><topic>Hepatolenticular Degeneration - genetics</topic><topic>Hepatolenticular Degeneration - pathology</topic><topic>Histocompatibility Antigens Class I - genetics</topic><topic>HLA Antigens - genetics</topic><topic>Humans</topic><topic>Iron</topic><topic>Iron - metabolism</topic><topic>Liver</topic><topic>Liver - metabolism</topic><topic>Liver - pathology</topic><topic>Medical research</topic><topic>Membrane Proteins</topic><topic>Mutagenesis - drug effects</topic><topic>Mutation</topic><topic>Nitric Oxide Synthase - biosynthesis</topic><topic>Nitric Oxide Synthase Type II</topic><topic>Oxidative stress</topic><topic>Rabbits</topic><topic>Tissue samples</topic><topic>Tumor Suppressor Protein p53 - genetics</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Hussain, S. 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Perwez</au><au>Raja, Kamran</au><au>Amstad, Paul A.</au><au>Sawyer, Mark</au><au>Trudel, Laura J.</au><au>Wogan, Gerald N.</au><au>Hofseth, Lorne J.</au><au>Shields, Peter G.</au><au>Billiar, Timothy R.</au><au>Trautwein, Christian</au><au>Hohler, Thomas</au><au>Galle, Peter R.</au><au>Phillips, David H.</au><au>Markin, Rodney</au><au>Marrogi, Aizen J.</au><au>Harris, Curtis C.</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Increased p53 Mutation Load in Nontumorous Human Liver of Wilson Disease and Hemochromatosis: Oxyradical Overload Diseases</atitle><jtitle>Proceedings of the National Academy of Sciences - PNAS</jtitle><addtitle>Proc Natl Acad Sci U S A</addtitle><date>2000-11-07</date><risdate>2000</risdate><volume>97</volume><issue>23</issue><spage>12770</spage><epage>12775</epage><pages>12770-12775</pages><issn>0027-8424</issn><eissn>1091-6490</eissn><abstract>Hemochromatosis and Wilson disease (WD), characterized by the excess hepatic deposition of iron and copper, respectively, produce oxidative stress and increase the risk of liver cancer. Because the frequency of p53 mutated alleles in nontumorous human tissue may be a biomarker of oxyradical damage and identify individuals at increased cancer risk, we have determined the frequency of p53 mutated alleles in nontumorous liver tissue from WD and hemochromatosis patients. When compared with the liver samples from normal controls, higher frequencies of G:C to T:A transversions at codon 249 (P < 0.001) and C:G to A:T transversions and C:G to T:A transitions at codon 250 (P < 0.001 and P < 0.005) were found in liver tissue from WD cases, and a higher frequency of G:C to T:A transversions at codon 249 (P < 0.05) also was found in liver tissue from hemochromatosis cases. Sixty percent of the WD and 28% of hemochromatosis cases also showed a higher expression of inducible nitric oxide synthase in the liver, which suggests nitric oxide as a source of increased oxidative stress. A high level of etheno-DNA adducts, formed from oxyradical-induced lipid peroxidation, in liver from WD and hemochromatosis patients has been reported previously. Therefore, we exposed a wild-type p53 TK-6 lymphoblastoid cell line to 4-hydroxynonenal, an unsaturated aldehyde involved in lipid peroxidation, and observed an increase in G to T transversions at p53 codon 249 (AGG to AGT). These results are consistent with the hypothesis that the generation of oxygen/nitrogen species and unsaturated aldehydes from iron and copper overload in hemochromatosis and WD causes mutations in the p53 tumor suppressor gene.</abstract><cop>United States</cop><pub>National Academy of Sciences of the United States of America</pub><pmid>11050162</pmid><doi>10.1073/pnas.220416097</doi><tpages>6</tpages><oa>free_for_read</oa></addata></record> |
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| subjects | Aldehydes - pharmacology Alleles Animals Biological Sciences Cancer Carcinogens Cell Line Codons Copper Copper - metabolism Disease Free Radicals Genes, MHC Class I Genetic mutation Hemochromatosis Hemochromatosis - genetics Hemochromatosis - pathology Hemochromatosis Protein Hepatolenticular degeneration Hepatolenticular Degeneration - genetics Hepatolenticular Degeneration - pathology Histocompatibility Antigens Class I - genetics HLA Antigens - genetics Humans Iron Iron - metabolism Liver Liver - metabolism Liver - pathology Medical research Membrane Proteins Mutagenesis - drug effects Mutation Nitric Oxide Synthase - biosynthesis Nitric Oxide Synthase Type II Oxidative stress Rabbits Tissue samples Tumor Suppressor Protein p53 - genetics |
| title | Increased p53 Mutation Load in Nontumorous Human Liver of Wilson Disease and Hemochromatosis: Oxyradical Overload Diseases |
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