Comparative in vitro metabolism of chloroxylenol, chlorophene, and triclosan with rat, mouse, and human hepatic microsomes

被引:4
|
作者
Thomas R.E. [1 ]
Kotchevar A.T. [1 ]
机构
[1] Department of Chemistry and Biochemistry, California State University, Hayward, CA 94542, East Bay
来源
Toxicological and Environmental Chemistry | 2010年 / 92卷 / 09期
关键词
Chlorinated antiseptics; GC-MS; Metabolites;
D O I
10.1080/02772241003694736
中图分类号
学科分类号
摘要
A number of studies have reported the presence of chlorinated phenols, commonly used as antiseptics, in the environment. Chloroxylenol, chlorophene, and triclosan are three such chemicals believed to have leached into water supplies through the wastewater treatment facilities. Understanding how these compounds are metabolized is important in determining the risks of chemical exposure. In this study, we compared the in vitro metabolism of these three chlorinated phenols with rat, mouse, and human liver microsomes. The structures of the metabolites formed during the microsomal reactions were identical when rat, mouse, and human liver extracts were used, but variations existed in the kinetics of the reactions. © 2010 Taylor & Francis.
引用
收藏
页码:1735 / 1747
页数:12
相关论文
共 16 条
  • [1] In vitro metabolism studies of polybrominated diphenyl ethers using rat and human liver microsomes
    Shun, Wen Cheng
    Randall, Kathleen
    Kotchevar, Anne T.
    American Journal of Biochemistry and Biotechnology, 2008, 4 (03) : 295 - 303
  • [2] Role of Human Liver Microsomes in In Vitro Metabolism of Drugs—A Review
    Sepuri Asha
    Maravajhala Vidyavathi
    Applied Biochemistry and Biotechnology, 2010, 160 : 1699 - 1722
  • [3] The metabolism of gelsevirine in human, pig, goat and rat liver microsomes
    Zhang, Hua-Hai
    Yang, Wen-Jia
    Huang, Ya-Jun
    Li, Wen-Jing
    Zhang, Shuo-Xin
    Liu, Zhao-Ying
    VETERINARY MEDICINE AND SCIENCE, 2021, 7 (05) : 2086 - 2092
  • [4] In vitro Metabolism of 14C-Moxidectin by Hepatic Microsomes from Various Species
    J. Dupuy
    E. Escudero
    C. Eeckhoutte
    J.F. Sutra
    P. Galtier
    M. Alvinerie
    Veterinary Research Communications, 2001, 25 : 345 - 354
  • [5] In vitro metabolism of 14C-moxidectin by hepatic microsomes from various species
    Dupuy, J
    Escudero, E
    Eeckhoutte, C
    Sutra, JF
    Galtier, P
    Alvinerie, M
    VETERINARY RESEARCH COMMUNICATIONS, 2001, 25 (05) : 345 - 354
  • [6] Role of Human Liver Microsomes in In Vitro Metabolism of Drugs-A Review
    Asha, Sepuri
    Vidyavathi, Maravajhala
    APPLIED BIOCHEMISTRY AND BIOTECHNOLOGY, 2010, 160 (06) : 1699 - 1722
  • [7] Metabolism of methylstenbolone studied with human liver microsomes and the uPA+/+-SCID chimeric mouse model
    Geldof, Lore
    Lootens, Leen
    Polet, Michael
    Eichner, Daniel
    Campbell, Thane
    Nair, Vinod
    Botre, Francesco
    Meuleman, Philip
    Leroux-Roels, Geert
    Deventer, Koen
    Van Eenoo, Peter
    BIOMEDICAL CHROMATOGRAPHY, 2014, 28 (07) : 974 - 985
  • [8] Synthesis of deuterium-labelled amlexanox and its metabolic stability against mouse, rat, and human microsomes
    Gan, Xinmin
    Wilson, Michael W.
    Beyett, Tyler S.
    Wen, Bo
    Sun, Duxin
    Larsen, Scott D.
    Tesmer, John J. G.
    Saltiel, Alan R.
    Showalter, Hollis D.
    JOURNAL OF LABELLED COMPOUNDS & RADIOPHARMACEUTICALS, 2019, 62 (05) : 202 - 208
  • [9] Metabolic Stability and Metabolite Identification of N-Ethyl Pentedrone Using Rat, Mouse and Human Liver Microsomes
    Godoi, Alexandre Barcia
    Antunes, Natalicia de Jesus
    Cunha, Kelly Francisco
    Martins, Aline Franco
    Huestis, Marilyn A.
    Costa, Jose Luiz
    PHARMACEUTICS, 2024, 16 (02)
  • [10] An in vitro reporter gene assay method incorporating metabolic activation with human and rat S9 or liver microsomes
    Sumida, K
    Ooe, N
    Nagahori, H
    Saito, K
    Isobe, N
    Kaneko, H
    Nakatsuka, I
    BIOCHEMICAL AND BIOPHYSICAL RESEARCH COMMUNICATIONS, 2001, 280 (01) : 85 - 91
12