TY - JOUR
T1 - Extra-hepatic gsh-dependent metabolism of 1,2-dibromoethane (dbe) and 1,2-dibromo-3-chloropropane (dbcp) IN the rat and mouse
AU - Macfarland, R. T.
AU - Gandolfi, A. J.
AU - Sipes, I. G.
N1 - Funding Information:
Supported in part by grants from the National Institutes of
PY - 1984
Y1 - 1984
N2 - Although DBE is metabolized by both microsomal and cytosolic pathways, it is the latter, GSH-dependent route, that may lead to hepatic and extra-hepatic genotoxicity and mutagenicity. As both DBE and DBCP exhibit predominantly extra-hepatic toxicity, their in vitro GSH-dependent debromination was measured in cytosolic fractions prepared from liver, kidney, testes and stomachs of Sprague-Dawley rats and Swiss-Webster mice. There was a marked species difference between the rat and mouse, vith the rat metabolizing DBCP more rapidly than DBE, and the mouse metabolizing DBE more rapidly than DBCP. Hepatic rates exceeded those seen in extra-hepatic tissues in every case. Extra-hepatic rates of debromination represented as much as 84% of the hepatic rates, and generally followed the order: kidney > testes > stomach. Rates of metabolism for DBE and DBCP represented only a small fraction of the total cytosolic GSH S-transferase activity. These findings suggest significant levels of GSH-dependent metabolism may occur within those tissues associated with the in vivo toxicity of DBE and DBCP.
AB - Although DBE is metabolized by both microsomal and cytosolic pathways, it is the latter, GSH-dependent route, that may lead to hepatic and extra-hepatic genotoxicity and mutagenicity. As both DBE and DBCP exhibit predominantly extra-hepatic toxicity, their in vitro GSH-dependent debromination was measured in cytosolic fractions prepared from liver, kidney, testes and stomachs of Sprague-Dawley rats and Swiss-Webster mice. There was a marked species difference between the rat and mouse, vith the rat metabolizing DBCP more rapidly than DBE, and the mouse metabolizing DBE more rapidly than DBCP. Hepatic rates exceeded those seen in extra-hepatic tissues in every case. Extra-hepatic rates of debromination represented as much as 84% of the hepatic rates, and generally followed the order: kidney > testes > stomach. Rates of metabolism for DBE and DBCP represented only a small fraction of the total cytosolic GSH S-transferase activity. These findings suggest significant levels of GSH-dependent metabolism may occur within those tissues associated with the in vivo toxicity of DBE and DBCP.
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U2 - 10.3109/01480548409035104
DO - 10.3109/01480548409035104
M3 - Article
C2 - 6376058
AN - SCOPUS:0021281253
SN - 0148-0545
VL - 7
SP - 213
EP - 227
JO - Drug and Chemical Toxicology
JF - Drug and Chemical Toxicology
IS - 3
ER -