生活環境化学物質と生体内物質との相互作用によるヒト遺伝子損傷と感受性の解析

Research Project

Project/Area Number	11770181
Research Category	Grant-in-Aid for Encouragement of Young Scientists (A)
Allocation Type	Single-year Grants
Research Field	Hygiene
Research Institution	Mie University
Principal Investigator	及川伸二三重大学, 医学部, 助手 (10277006)
Project Period (FY)	1999 – 2000
Project Status	Completed (Fiscal Year 2000)
Budget Amount *help	¥2,100,000 (Direct Cost: ¥2,100,000) Fiscal Year 2000: ¥700,000 (Direct Cost: ¥700,000) Fiscal Year 1999: ¥1,400,000 (Direct Cost: ¥1,400,000)
Keywords	発がん / 生活環境 / 環境化学物質 / 生体内物質 / 酸化的DNA損傷 / 銅イオン / アゾベンゼン / カテキン類 / 過酸化ベンゾイル / N-アセチルシステイン
Research Abstract	本研究の目的は生活環境化学物質と生体内物質との相互作用によるDNA損傷の機構を解明し、一般的な食生活が発がん感受性に与える影響を検討することである。本年度は殺虫剤や染料に用いられている発がん性アゾベンゼン、がんの化学予防剤として期待されているカテキン類について生体内物質(生体内微量金属や生体内還元物質)との相互作用によるヒト遺伝子損傷性とその機構について検討した。実験方法は、^<32>Pでラベルしたヒトがん抑制遺伝子p53およびがん原遺伝子c-Ha-ras-1のDNA断片とアゾベンゼンの代謝物であるヒドラゾベンゼンやカテキン類を金属イオン存在下で反応させ、電気泳動を行いオートラジオグラムによりDNA損傷性と塩基配列特異性を検出した。また、酸化的DNA損傷の指標である8-オキソデオキシグアノシン(8-oxodG)生成量を電気化学検出器付HPLCにて定量した。ヒドラゾベンゼンは二価の銅イオン存在下でチミン残基を特異的に損傷した。この損傷には一価の銅と過酸化水素の関与が示唆された。カテキン類は二価の銅イオン存在下で活性酸素種を生成し、塩基配列特異的にDNAを損傷した。以上の結果から、ヒドラゾベンゼンやカテキン類は生体内重金属の存在下で活性酸素を生成しDNAに損傷を与えることが明らかになった。本研究から食生活により摂取される発がん物質は、生体内物質存在下で酸化的にDNAを損傷することが解明された。今後、がん予防を推進するため、食生活が発がん感受性に与える影響をさらに検討をしていく予定である。

Report

(2 results)

2000 Annual Research Report
1999 Annual Research Report

Research Products

(13 results)

All Other

All Publications (13 results)

[Publications] S.Oikawa,: "Site-specific DNA Damage at GGG Sequence by UVA Involves Acceleration of Telomere Shortening"Biochemistry. (in press).
- Related Report
  2000 Annual Research Report
[Publications] Y.Hiraku,: "Amplification of Bleomycin-induced DNA Cleavage at Cytosine Residues 3' to GGG Sequences by Pyrrole Triamide"Biochemical Pharmacology. (in press.).
- Related Report
  2000 Annual Research Report
[Publications] S.Oikawa,: "Detection of DNA damage and analysis of its site-specificity"Experimental protocols for reactive oxygen and nitrogen species. 229-235 (2000)
- Related Report
  2000 Annual Research Report
[Publications] S.Ohnishi: "Copper-dependent DNA Damage Iinduced by Hydrazobenzene, an Azobenzene Metabolite."Free Rad.Res. 32. 469-478 (2000)
- Related Report
  2000 Annual Research Report
[Publications] S.Kawanishi,: "Amplification of Pepleomycin-mediated DNA Cleavage and Apoptosis by Unfused Aromatic Cations"Biochemistry. 39. 13210-13215 (2000)
- Related Report
  2000 Annual Research Report
[Publications] K.Midorikawa,: "DNA Damage by Dimethylformamide : Role of Hydrogen Peroxide Generated During Degradation"Chem.Res.Toxicol.. 13. 309-315 (2000)
- Related Report
  2000 Annual Research Report
[Publications] 及川伸二: "分子予防医学"松島綱治編. 384 (1999)
- Related Report
  2000 Annual Research Report
[Publications] S.Oikawa: "N-Acetylcysteine,a Cancer Chemopreventive Agent,Causes Oxidative Damage to Cellular and Isolated DNA"Carcinogenesis. 20. 1485-1490 (1999)
- Related Report
  1999 Annual Research Report
[Publications] S.Kawanishi: "Site-specific Oxidation at GG and GGG Sequences in Double-stranded DNA by Benzoyl Peroxide as a Tumor Promoter"Biochemistry. 38. 16733-16739 (1999)
- Related Report
  1999 Annual Research Report
[Publications] S.Oikawa: "Site-specific DNA Damage at GGG Sequence by Oxidative Stress May Accelerate Telomere Shortening"FEBS Letters. 453. 365-368 (1999)
- Related Report
  1999 Annual Research Report
[Publications] L.Chazotte-Aubert,: "Cytotoxicity and Site-specific DNA Damage Induced by Nitroxyl Anion (NO^-) in the Presence of Hydrogen Peroxide"J.Biol.Chem.. 274. 20909-20915 (1999)
- Related Report
  1999 Annual Research Report
[Publications] T.Ninoshiba: "Role of Iron and Superoxide for Generation of Hydroxyl Radical,Oxidative DNA Lesion and Mutagenesis in Escherichia Coli."J.Biol.Chem.. 274. 34832-34837 (1999)
- Related Report
  1999 Annual Research Report
[Publications] S.Tada-Oikawa: "Generation of Hydrogen Peroxide Precedes Loss of Mitochondrial Membrane Potential during DNA Alkylation-Induced Apoptosis"FEBS Letters. 442. 65-69 (1999)
- Related Report
  1999 Annual Research Report

生活環境化学物質と生体内物質との相互作用によるヒト遺伝子損傷と感受性の解析

Principal Investigator

及川 伸二 三重大学, 医学部, 助手 (10277006)

¥2,100,000 (Direct Cost: ¥2,100,000)

Report

Research Products

[Publications] S.Oikawa,: "Site-specific DNA Damage at GGG Sequence by UVA Involves Acceleration of Telomere Shortening"Biochemistry. (in press).

Related Report

[Publications] Y.Hiraku,: "Amplification of Bleomycin-induced DNA Cleavage at Cytosine Residues 3' to GGG Sequences by Pyrrole Triamide"Biochemical Pharmacology. (in press.).

Related Report

[Publications] S.Oikawa,: "Detection of DNA damage and analysis of its site-specificity"Experimental protocols for reactive oxygen and nitrogen species. 229-235 (2000)

Related Report

[Publications] S.Ohnishi: "Copper-dependent DNA Damage Iinduced by Hydrazobenzene, an Azobenzene Metabolite."Free Rad.Res. 32. 469-478 (2000)

Related Report

[Publications] S.Kawanishi,: "Amplification of Pepleomycin-mediated DNA Cleavage and Apoptosis by Unfused Aromatic Cations"Biochemistry. 39. 13210-13215 (2000)

Related Report

[Publications] K.Midorikawa,: "DNA Damage by Dimethylformamide : Role of Hydrogen Peroxide Generated During Degradation"Chem.Res.Toxicol.. 13. 309-315 (2000)

Related Report

[Publications] 及川伸二: "分子予防医学"松島綱治 編. 384 (1999)

Related Report

[Publications] S.Oikawa: "N-Acetylcysteine,a Cancer Chemopreventive Agent,Causes Oxidative Damage to Cellular and Isolated DNA"Carcinogenesis. 20. 1485-1490 (1999)

Related Report

[Publications] S.Kawanishi: "Site-specific Oxidation at GG and GGG Sequences in Double-stranded DNA by Benzoyl Peroxide as a Tumor Promoter"Biochemistry. 38. 16733-16739 (1999)

Related Report

[Publications] S.Oikawa: "Site-specific DNA Damage at GGG Sequence by Oxidative Stress May Accelerate Telomere Shortening"FEBS Letters. 453. 365-368 (1999)

Related Report

[Publications] L.Chazotte-Aubert,: "Cytotoxicity and Site-specific DNA Damage Induced by Nitroxyl Anion (NO^-) in the Presence of Hydrogen Peroxide"J.Biol.Chem.. 274. 20909-20915 (1999)

Related Report

[Publications] T.Ninoshiba: "Role of Iron and Superoxide for Generation of Hydroxyl Radical,Oxidative DNA Lesion and Mutagenesis in Escherichia Coli."J.Biol.Chem.. 274. 34832-34837 (1999)

Related Report

[Publications] S.Tada-Oikawa: "Generation of Hydrogen Peroxide Precedes Loss of Mitochondrial Membrane Potential during DNA Alkylation-Induced Apoptosis"FEBS Letters. 442. 65-69 (1999)

Related Report

及川伸二三重大学, 医学部, 助手 (10277006)

[Publications] 及川伸二: "分子予防医学"松島綱治編. 384 (1999)