多氯联苯的羟基化代谢产物及其内分泌干扰机制*

• 综述与评论 •

多氯联苯的羟基化代谢产物及其内分泌干扰机制^*

杨方星^1,2;徐盈^1**

1.中国科学院水生生物研究所淡水生态和生物技术国家重点实验室武汉 430072；

2.中国科学院研究生院 100039

收稿日期:2004-07-01 修回日期:2005-03-01 出版日期:2005-07-24 发布日期:2005-07-24
通讯作者: 徐盈

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Hydroxylated Metabolites of Polychlorinated Biphenyls and Their Endocrine Disrupting Mechanism

Yang Fangxing^1,2;Xu Ying^1**

1.State Key Laboratory of Freshwater Ecology and Biotechnology, Institute of Hydrobiology, Chinese Academy of Sciences,Wuhan 430072,China;

2.Graduate School of the Chinese Academy of Sciences,Beijing 100039,China

Received:2004-07-01 Revised:2005-03-01 Online:2005-07-24 Published:2005-07-24
Contact: Xu Ying

羟基多氯联苯是典型持久性有机污染物(POPs)--多氯联苯在生物体内的主要活性代谢产物,已在许多野生动物和人体内被检出.由于其化学结构与天然雌激素、甲状腺激素十分类似,因此羟基多氯联苯的内分泌干扰效应近年来已开始受到国际上的高度关注.本文对多氯联苯的代谢途径、羟基多氯联苯在生物体内的浓度水平、内分泌干扰及其多种毒性作用机制进行了综述.有关对多氯联苯的活性代谢产物--羟基多氯联苯的深入研究,将有助于进一步揭示多氯联苯的毒性机制,为我国早日建立有效的POPs污染危害评价与早期预警系统提供科学依据.

关键词： 多氯联苯, 羟基多氯联苯, 内分泌干扰

Hydroxylated polychlorinated biphenyls ( OH-PCBs ), a group of main active metabolites of polychlorinated biphenyl (PCBs) which are typical persistent organic pollutants (POPs), have been identified in wild animals and human. The endocrine disruption of OH-PCBs has been drawn great attention due to the similarity of their chemical structures to the natural estrogens and thyroid hormones. The metabolic pathways of PCBs, the levels of OH-PCBs in organism,the endocrine disruption and other adverse effects of OH-PCBs are reviewed. The further investigation of OH-PCBs will not only reveal the toxicological mechanism of PCBs,but also can lay scientific basis for setting up the risk assessment of POPs contamination and early-warning system in China.

Key words: polychlorinated biphenyls, hydroxylated polychlorinated biphenyls, OH-PCBs, endocrine disruption

中图分类号:

X17
X503

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[ 1 ] WHO. Environmental Health Criteria 140 : Polychlorinated Biphenyls and Terphenyls , 2nd ed. Geneva : World Health Organization , 1993
[ 2 ] Ballschmiter K, Rappe C , Buser H R. Halogenated Biphenyls ,Terphenyls , Naphthalenes , Dibenzodioxins and Related Products (eds. Kimbrough R D , Jensen A A) . Amsterdam: Elsevier-North Holland , 1989. 47 —69
[ 3 ] Kannan N , Tanabe S , Ono M, et al . Arch. Enrion. Contam.Toxicol . , 1989 , 18 : 850 —857
[ 4 ] McFarland V A , Clarke J U. Environ. Health Perspect . , 1989 ,81 : 225 —239
[ 5 ] Safe S. CRC Crit . Rev. Toxicol . , 1984 , 12 : 319 —395
[ 6 ] Safe S. CRC Crit . Rev. Toxicol . , 1990 , 21 : 51 —88
[ 7 ] Safe S. CRC Crit . Rev. Toxicol . , 1994 , 24 : 87 —149
[ 8 ] Tilson H A , Jacobson J L , Rogan W J . Neurotoxicol . Teratol . ,1990 , 12 : 239 —248
[ 9 ] Schantz S L. Neurotoxicol . Teratol . , 1996 , 18 : 217 —227
[10] Tilson H A , Kodavanti P R S. Neurotoxicology , 1997 , 18 : 727 —744
[11] Kodavanti P R S , Tilson H A. Ann. NY Acad. Sci . , 2000 ,919 : 97 —105
[12] Jacobson J L , Jacobson S W N. Engl . J . Med. , 1996 , 335 :783 —789
[13] Whitlock J P Jr. Chem. Res. Toxicol . , 1993 , 6 : 754 —763
[14] Seegal R F , Bush B , Shain W. Toxicol . Appl . Pharmacol . ,1990 , 106 : 136 —144
[15] Seegal R F , Bush B , Brosch K O. Toxicology , 1991 , 66 : 145 —163
[16] Kodavanti P R S , Shin D , Tilson H A , et al . Toxicol . Appl .Pharmacol . , 1993 , 123 : 97 —106
[17] Kodavanti P R S , Ward T R , McKinney J D , et al . Toxicol .Appl . Pharmacol . , 1995 , 130 : 140 —148
[18] Maier W E , Kodavanti P R , Harry G J , et al . J . Appl .Toxicol . , 1994 , 14 : 225 —229
[19] Letcher R J , Klasson-Wehler E , Bergman ! . The Handbook of Environmental Chemistry , vol . 3 , Part K. New Types of Persistent Halogenated Compounds. Heidelberg : Springer , 2000. 315 —359
[20] Letcher R J , Norstrom R J , Muir D C G. Environ. Sci .Technol . , 1998 , 32 : 1656 —1661
[21] Brouwer A , Klasson-Wehler E , Boddam M, et al . Chemosphere ,1990 , 20 : 1257 —1262
[22] Garner C E , Jefferson W N , Burka L T , et al . Toxicol . Appl .Pharmacol . , 1999 , 154 : 188 —197
[23] Greb W, Klein W, Coulston F , et al . Bull . Environ. Contam.Toxicol . , 1975 , 4 : 471 —476
[24] Goto M, Sugiura K, Hattori M, et al . Chemosphere , 1974 , 3 :227 —232
[25] Goto M, Sugiura K, Hattori M, et al . Chemosphere , 1974 , 3 :233 —238
[26] Klasson-Wehler E , Lindberg L , Jênsson C L , et al .Chemosphere , 1993 , 27 : 2397 —2412
[27] Linda M C , Derek C G, Muir D , et al . Environ. Sci . Technol . ,2003 , 37 : 1720 —1725
[28] Hovander L , Malmberg T , Athanasiadou M, et al . Arch.Environ. Contam. Toxicol . , 2002 , 42 : 105 —117
[29] Courtney D S , Pierre A , Eric D , et al . Environ. Health Perspect . , 2000 , 108 : 611 —616
[30] Sandau C D , Ramsay M A , Norstrom R J . Proceeding of the Third Biennial Internaltional Conference on Chemical Measurement and Monitoring of the Environment ( eds. Clement R , Burk B) .Ottawa , Canada : EnvironAnalysis Conference Secretariat , 2000.247 —252
[31] Sjêdin A , Hagmar L , Klasson-Wehler E , et al . Environ. Health Perspect . , 2000 , 108 : 1035 —1041
[32] Asplund L , Athanasiadou M, Sjêdin A , et al . Ambio , 1999 , 28 :464 —469
[33] Bergman ! , Klasson-Wehler E , Kuroki H. Environ. Health Perspect . , 1994 , 102 : 464 —469
[34] Klasson-Wehler E , Bergman ! , Athanasiadou M, et al . Environ.Toxicol . Chem. , 1998 , 17 : 1620 —1625
[35] Olsson A , Ceder K, Bergman ! , et al . Environ. Sci . Technol . ,2000 , 34 : 2733 —2740
[36] Sandau C D , Ayotte P , Dewailly E , et al . Environ. Health Perspect . , 2000 , 34 : 3871 —3877
[37] Klasson-Wehler E , Hovander L , Bergman ! . Organohalogen Compounds , 1997 , 33 : 420 —425
[38] Britta F , Maria A , Philippe G, et al . Environ. Health Perspect . ,2002 , 110 : 895 —899
[39] Li H , Drouillard K G, Bennett E , et al . Environ. Sci .Technol . , 2003 , 37 : 832 —839
[40] Korach K S , Sarver P , Chae K, et al . Mol . Pharmacol . , 1988 ,33 : 120 —126
[41] McKinney J D , Waller C L. Environ. Health Perspect . , 1994 ,102 : 290 —297
[42] Gierthy J F , Arcaro K F , Floyd M. Chemosphere , 1997 , 34 :1495 —1505
[43] Schultz T W, Kraut D H , Sayler G S , et al . Environ. Toxicol .Chem. , 1998 , 17 : 1727 —1729
[44] Kramer V J , Giesy J P. Sci . Total Environ. , 1999 , 233 : 141 —161
[45] Kramer V J , Helferich W G, Bergman ! , et al . Toxicol . Appl .Pharmacol . , 1997 , 144 : 363 —376
[46] Jansen H T , Cooke P S , Porcelli J , et al . Reprod. Toxicol . ,1993 , 7 : 237 —248
[47] Ramamoorthy K, Vyhlidal C , Wang F , et al . Toxicol . Appl .Pharmacol . , 1997 , 147 : 93 —100
[48] Conner K, Ramamoorthy K, Moore M, et al . Toxicol . Appl .Pharmacol . , 1997 , 145 : 111 —123
[49] Korach K S , Davis V D , Curtis S W, Bocchifuso W P. Endocrine Toxicology (eds. Thomas T A , Colby H D) . Washington , D C:Taylor and Francis , 1997. 181 —213
[50] Alice C L , John S , Besty W, et al . Toxicol . Appl . Pharmacol . ,2002 , 180 : 157 —163
[51] Fielden M R , Chen I , Chittim B , et al . Environ. Health Perspect . , 1997 , 105 : 1238 —1248
[52] Moore M, Mustain M, Daniel K, et al . Toxicol . Appl .Pharmacol . , 1997 , 142 : 160 —168
[53] Carlson D B , Williams D E. Environ. Toxicol . Chem. , 2001 ,20 : 351 —358
[54] Kuiper G G J M, Lemmen J G, Carlsson B , et al . Endocrinology ,1998 , 139 : 4252 —4263
[55] Kester M H A , Sema B , Dick T , et al . Endocrinology , 2000 ,141 : 1897 —1900
[56] Brouwer A , Blaner W S , Kukler A , et al . Chemico-Biological Interact . , 1988 , 68 : 203 —217
[57] Rickenbacher U , McKinney J D , Oatley S J , et al . J . Med.Chem. , 1986 , 29 : 641 —648
[58] Lans M C , Klasson-Wehler E , Willemsen M, et al . Chem. Biol .Interact . , 1993 , 88 : 7 —21
[59] Brouwer A , Moorse D C , Lans M C , et al . Toxicol . Ind. Health ,1998 , 14 : 59 —84
[60] Meerts I A T M, Assink Y, Cenijn P H , et al . Toxicol . Sci . ,2004 , 68 : 361 —371
[61] Meerts I. Ph D Thesis , Department of Toxicology , Wageningen University , 2001
[62] Shiraishi F , Okumura T , Nomachi M, et al . Chemosphere , 2003 ,52 : 33 —42
[63] Martine C L , Cecile S , Abraham B , et al . Eur. J . Pharmacol . ,1994 , 270 : 129 —136
[64] Schuur A G, Brouwer A , Bergman ! , et al . Chem. Biol .Interact . , 1998 , 109 : 293 —297
[65] Narasimhan T R , Kim H L , Safe S. J . Biochem. Toxicol . ,1991 , 6 : 229 —236
[66] van den Hurk P , Kubiczak G A , Lehmler H J , et al . Environ.Health Perspect . , 2002 , 110 : 343 —348
[67] Brouwer A , van den Berg K J . Toxicol . Appl . Pharmacol . ,1986 , 85 : 301 —312

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多氯联苯的羟基化代谢产物及其内分泌干扰机制^*

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多氯联苯的羟基化代谢产物及其内分泌干扰机制^*

Hydroxylated Metabolites of Polychlorinated Biphenyls and Their Endocrine Disrupting Mechanism