1. In the present study, nine cytochrome P450 enzyme activities in seven species were characterized to allow a practical means of comparing this important metabolic step between various test animals and man. 2. Enzyme activities and kinetic parameters were first determined towards marker substrates for human cytochrome P450 enzymes. Inhibition profiles were then determined with both antibodies directed against various cytochrome P450 enzymes and with chemical inhibitors. 3. Both the enzyme kinetic parameters/enzyme activities, and the inhibition profiles obtained for the animal species were compared with those obtained for human liver microsomes in order to postulate the animal species most similar to man with regard to each individual cytochrome P450 enzyme activity. 4. It was found that, as expected, none of the tested species was similar to man for all the measured P450 enzyme activities, but that in each species only some of the P450 enzyme activities could be considered as similar to man. 5. When it is known which human cytochrome P450 enzymes are involved in the metabolism of a compound, the comparative data presented here can be used for selecting the most suitable species for in vitro and in it no experiments.
Replication of human immunodeficiency virus type 1 (HIV-1) can be influenced by iron. Hence, decreasing the availability of iron may inhibit HIV-1 replication. Deferoxamine and deferiprone, both forming catalytically inactive iron-chelator complexes, and bleomycin, by use of which iron catalyzes oxidative nucleic acid destruction, were investigated. Expression of p24 antigen in human monocyte-derived macrophages and peripheral blood lymphocytes (PBL) was reduced by all 3 iron chelators. In PBL, p24 reduction was mirrored by a decrease in proliferation after incubation with deferoxamine or deferiprone, suggesting that viral inhibition is closely linked to a decrease in cellular proliferation. In contrast, clinically relevant bleomycin concentrations reduced p24 levels by approximately 50% without affecting proliferation. When deferoxamine and the nucleoside analogue dideoxyinosine were used in combination, they acted synergistically in inhibiting HIV-1 replication. These observations suggest that iron chelators with different mechanisms of action could be of additional benefit in antiretroviral combination therapy.
Development of drug resistance against alkylating cytostatic drugs has been associated with higher intracellular concentrations of glutathione (GSH) and increased expression of glutathione S-transferase (GST) enzymes. Therefore, enhanced detoxification by the glutathione/glutathione S-transferase pathway has been proposed as a major factor in the development of drug resistance toward alkylating agents. In this paper we describe 31P NMR and HPLC studies on the spontaneous and glutathione S-transferase catalyzed formation of glutathionyl conjugates of two metabolites of ifosfamide, i.e., 4-hydroxyifosfamide and ifosfamide mustard. At 25 degrees C activated ifosfamide (= 4-hydroxyifosfamide + aldoifosfamide) disappeared faster in the presence of a 10-fold excess of GSH (t1/2 = 107 min) compared to incubations without GSH (t1/2 = 266 min). No evidence for the formation of 4-glutathionyl ifosfamide was found. The ultimate alkylating species of ifosfamide is ifosfamide mustard (IM). In the absence of glutathione, the rate constant for the disappearance of the ifosfamide mustard signal at 25 degrees C (pH 7) was 1.98 x 10(-3) min-1 (t1/2 = 350 min). In the presence of a 10-fold molar excess of glutathione, this rate constant was 1.95 x 10(-3) min-1 (t1/2 = 355 min), indicating that the spontaneous formation of an aziridinium ion is the rate-limiting event in the reaction with glutathione. The aziridinium ion formed from IM can deprotonate upon formation, leading to the formation of a (noncharged) aziridine species. This intermediate (N-(2-chloroethyl)-N'-phosphoric acid diamide) was characterized by 31P, 1H, and 13C NMR spectra. When 2 mM ifosfamide mustard was incubated with 1 mM GSH in the presence of 40 microM GST P1-1, the formation of monoglutathionyl ifosfamide mustard was 2.3-fold increased above the spontaneous level. The other major human isoenzymes tested (A1-1, A2-2, and M1a-1a) did not influence the formation of monoglutathionyl ifosfamide mustard. The results of these studies demonstrate that increased levels of GST P1-1 can contribute to an enhanced detoxification of ifosfamide.
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