In vitro biotransformation of flavonoids by rat liver microsomes
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In vitro biotransformation of flavonoids by rat liver microsomes. / Nielsen, S. E.; Breinholt, V.; Justesen, U.; Cornett, Claus; Dragsted, L. O.
In: Xenobiotica, Vol. 28, No. 4, 1998, p. 389-401.Research output: Contribution to journal › Journal article › Research › peer-review
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TY - JOUR
T1 - In vitro biotransformation of flavonoids by rat liver microsomes
AU - Nielsen, S. E.
AU - Breinholt, V.
AU - Justesen, U.
AU - Cornett, Claus
AU - Dragsted, L. O.
PY - 1998
Y1 - 1998
N2 - 1. Sixteen naturally occurring flavonoids were investigated as substrates for cytochrome P450 in uninduced and Aroclor 1254-induced rat liver microsomes. Naringenin, hesperetin, chrysin, apigenin, tangeretin, kaempferol, galangin and tamarixetin were all metabolized extensively by induced rat liver microsomes but only to a minor extent by uninduced microsomes. No metabolites were detected from eriodictyol, taxifolin, luteolin, quercetin, myricetin, fisetin, morin or isorhamnetin. 2. The identity of the metabolites was elucidated using lc-ms and H-1-nmr, and was consistent with a general metabolic pathway leading to the corresponding 3',4'-dihydroxylated flavonoids either by hydroxylation or demethylation. Structural requirements for microsomal hydroxylation appeared to be a single or no hydroxy group on the B-ring of the flavan nucleus. The presence of two or more hydroxy groups on the B-ring seemed to prevent further hydroxylation. The results indicate that demethylation only occurs in the B-ring when the methoxy group is positioned at C-4'-, and not at the C-3'-position. 3. The CYP1A isozymes were found to be the main enzymes involved in flavonoid hydroxylation, whereas other cytochrome P450 isozymes seem to be involved in flavonoid demethylation.
AB - 1. Sixteen naturally occurring flavonoids were investigated as substrates for cytochrome P450 in uninduced and Aroclor 1254-induced rat liver microsomes. Naringenin, hesperetin, chrysin, apigenin, tangeretin, kaempferol, galangin and tamarixetin were all metabolized extensively by induced rat liver microsomes but only to a minor extent by uninduced microsomes. No metabolites were detected from eriodictyol, taxifolin, luteolin, quercetin, myricetin, fisetin, morin or isorhamnetin. 2. The identity of the metabolites was elucidated using lc-ms and H-1-nmr, and was consistent with a general metabolic pathway leading to the corresponding 3',4'-dihydroxylated flavonoids either by hydroxylation or demethylation. Structural requirements for microsomal hydroxylation appeared to be a single or no hydroxy group on the B-ring of the flavan nucleus. The presence of two or more hydroxy groups on the B-ring seemed to prevent further hydroxylation. The results indicate that demethylation only occurs in the B-ring when the methoxy group is positioned at C-4'-, and not at the C-3'-position. 3. The CYP1A isozymes were found to be the main enzymes involved in flavonoid hydroxylation, whereas other cytochrome P450 isozymes seem to be involved in flavonoid demethylation.
KW - monooxygenase activities mutagenic activity in-vivo metabolism cytochrome-p-450 bioflavonoids quercetin constituents activation inhibition
U2 - 10.1080/004982598239498
DO - 10.1080/004982598239498
M3 - Tidsskriftartikel
C2 - 9604302
VL - 28
SP - 389
EP - 401
JO - Xenobiotica
JF - Xenobiotica
SN - 0049-8254
IS - 4
ER -
ID: 38062018