Alterations of heme, cytochrome P-450, and steroid metabolism by mercury in rat adrenal

The treatment of male rats with Hg2+ resulted in significant alterations in heme and hemoprotein metabolism in the adrenal gland which, in turn, were reflected in abnormal steroidogenic activities and steroid output. Twenty-four hours after the administration of 30 mumol of HgCl2/kg (sc) the mitochondrial heme and cytochrome P-450 concentrations increased by approximately 50%. Also, Hg2+ treatment stimulated a porphyrinogenic response which included an 11-fold increase in the activity of delta-aminolevulinate synthetase. The increase in mitochondrial cytochrome P-450 content was reflected in elevated steroid 11 beta-hydroxylase and cholesterol side-chain cleavage activities. In contrast, Hg2+ treatment resulted in decreased concentrations of microsomal cytochrome P-450 (-75%) and heme (-45%). Similarly, the reduction in the microsomal cytochrome P-450 content was accompanied by reduced steroid 21 alpha-hydroxylase and benzo[alpha]pyrene hydroxylase activities. The mechanisms responsible for the loss of the microsomal cytochrome P-450 content appeared to involve a selective impairment of formation of the holocytochrome as well as an enhanced rate of heme degradation. This suggestion is made on the basis of findings that (a) the decrease in the microsomal cytochrome P-450 content was accompanied by a sevenfold increase in the activity of adrenal heme oxygenase, (b) no decrease in apocytochrome P-450 could be detected in sodium dodecyl sulfate-gel electrophoresis of the solubilized microsomal fractions stained for heme, and (c) the concentration of adrenal microsomal cytochrome b5 was significantly increased in the Hg2+-treated animals. It is suggested that Hg2+ directly caused a defect in adrenal steroid biosynthesis by inhibiting the activity of 21 alpha-hydroxylase. The apparent physiological consequences of this effect included lowered plasma levels of corticosterone and elevated concentrations of progesterone and dehydroepiandrosterone. This abnormal plasma steroid profile is indicative of a 21 alpha-hydroxylase impairment.     

Testosterone metabolism by microsomal cytochrome P-450 in liver of rats treated with some inducers

1. The stereoselective hydroxylation of testosterone by microsomal cytochrome P-450 and the changes in level of components participated in the microsomal electron transport system were observed in the microsomes induced unique P-450 isozymes. 2. Flavone- and hesperetin-inducible P-450 catalyzed the hydroxylation of testosterone more effectively than other chemicals-inducible ones. 3. The P-450 in all the microsomal preparations tested most rapidly oxidized testosterone to 6 beta-monohydroxy form. 4. Particularly, MC- and BNF-inducible P-450 showed high stereoselectivity on C6-position of testosterone, and PB-, flavone- and hesperetin-inducible one showed that on C2-position of this compound, respectively. 5. This specificity of two flavonoid-inducible P-450 for the formation of 2 alpha- and 2 beta-epimer of monohydroxytestosterone was opposite to each other. 6. The content of P-450 and the activity of NADPH-cytochrome P-450 reductase were high in PB-, MC- and BNF-microsomes, whereas NADH-cytochrome b5 reductase activity was high in two flavonoid-microsomes and the content of cytochrome b5 was not changed except the PB-treated rats. 7. It is suggested that the increasing activities of testosterone hydroxylases in flavonoid-microsomes seems to be closely related to NADH-cytochrome b5 reductase.     

B-type cytochromes in plasma membranes isolated from rat liver, in comparison with those of endomembranes

Fractions of plasma membranes, Golgi apparatus, endoplasmic reticulum (ER), and nuclear envelope were isolated from rat liver and were characterized by electron microsocpe and biochemical methods. The purity of the fractions was controlled by morphometry and by marker enzyme activities. Amounts of cytochromes b5, P-450, and P-420 were measured, as well as the NADPH- and NADPH-cytochrome c reductase activities. The pigments of the microsomal electron transport system were found in all membrane fractions in relatively high amounts, thus excluding an origin by microsomal contamination. Purified preparations of plasma membrane and Golgi apparatus contained approximately 30% of the cytochrome b5 and cytochrome P-450 + P-420 found in ER membranes. Plasma membranes were also characterized by a high ratio of P-420/450. Degradation of cytochromes P-450 and P-420 was relatively rapid in all fractions, except in the ER. Cytochrome b5 extracted from plasma membranes was spectrophotometrically and enzymatically indistinguishable from ER cytochrome b5. However, immunnlogical characterization with rabbit antibodies against the trypsin-resistant core of microsomal cytochrome b5 showed the presence of at least two types of cytochrome b5 in ER membranes, in contrast to the plasma membranes in which only one of these components was detected. This immunological differentiation also demonstrates that the plasma membrane-bound cytochrome b5 is endogenous to this membrane and does not reflect contamination by ER elements. We conclude that cytochromes b5, P-450, and P-420 are not confined only to ER and nuclear membranes but also occur in signficant amounts in Golgi apparatus and plasma membranes. The findings are discussed in relation to observations of similar redox components in Golgi apparatus, secretory vesicles, and plasma membranes of other cells.     

Microsomal enzymes of cholesterol biosynthesis from lanosterol. Characterization, solubilization, and partial purification of NADPH-dependent delta 8,14-steroid 14-reductase

The membrane-bound enzyme of microsomes that catalyzes NADPH-dependent reduction of the 14-double bond of conjugated delta 8,14- and delta 7,14-sterols has been studied both as collected in microsomes from broken cell preparations of rat liver and after solubilization. Optimal incubation conditions for assay of the membrane-bound enzyme have been determined, and properties of the microsomal enzyme have been established with respect to cofactor requirements, kinetics, pH, addition of inhibitors, addition of glycerol phosphatides, and sterol substrate specificity. The 14-reductase is readily solubilized with a mixture of octylglucoside and taurodeoxycholic acid. The solubilized enzyme has been enriched by precipitation with polyethylene glycol and chromatography on DEAE-Sephacel and hydroxylapatite columns. The resulting partially purified enzyme has been obtained free of other microsomal enzymes of cholesterol biosynthesis: 4-methyl sterol oxidase, delta 5,7-sterol 7-reductase, delta 8,24-sterol 24-reductase, 3-ketosteroid reductase, and steroid 8----7-ene isomerase, plus microsomal cytochrome P-450, cytochrome P-450 reductase, cytochrome b5 reductase, and cytochrome b5. The partially purified enzyme is stimulated by addition of phospholipids. All of the properties exhibited by partially purified 14-reductase are consistent with the suggestion that the solubilized and enriched enzyme catalyzes the microsomal reduction of the 14-double bond of the sterol-conjugated dienes. However, presence of the enzyme does not prove that the sterol-conjugated dienes are obligatory precursors of cholesterol.     

The regulation of ovine placental steroid 17 alpha-hydroxylase and aromatase by glucocorticoid

Parturition in the pregnant sheep is preceded by an abrupt alteration in placental steroid metabolism causing a shift from progesterone to estrogen production. This change is believed to be a consequence of the prepartum rise in cortisol in the fetal circulation and involves increases in activities of the enzymes steroid 17 alpha-hydroxylase (cytochrome P-450(17)alpha), steroid C-17,20-lyase, and possibly aromatase. We have investigated the activity levels of aromatase and 17 alpha-hydroxylase in placental microsomes in late pregnancy and dexamethasone-induced labor. Over the gestational period of 118-140 days basal levels of placental aromatase were relatively constant [mean value (+/- SD) of 5.6 +/- 1.6 pmol min-1 mg microsomal protein-1 (n = 10)]. Steroid 17 alpha-hydroxylase activity was undetectable [less than 0.5 pmol min-1 mg microsomal protein-1 (n = 7)]. In six animals in labor induced with infusion of dexamethasone into the fetus, placental aromatase activity had a mean value of 14.0 +/- 2.5 pmol min-1 mg protein-1; placental steroid 17 alpha-hydroxylase, measured in four of the animals, had a mean (+/- SD) activity of 319 +/- 58 pmol min-1 mg microsomal protein-1. Immunoblotting of placental microsomal preparations with specific antibodies to cytochrome P-450(17)alpha and NADPH-cytochrome P-450-reductase indicated that the glucocorticoid-induced activity of 17 alpha-hydroxylase was associated with increased content of cytochrome P-450(17)alpha. Northern blotting with a cDNA probe for cytochrome P-450(17)alpha showed that glucocorticoid increased the levels of mRNA for the enzyme.(ABSTRACT TRUNCATED AT 250 WORDS)     

Effect of prior starvation on the development of acute thioacetamide-induced liver damage in rats

The effect of previous fasting on the liver morphological changes and microsomal cytochrome P-450 and b5 content was studied in thioacetamide-induced (100 mg/kg) rat liver necrosis. Starvation for 48 hours immediately before thioacetamide administration aggravates the dystrophic and necrotic processes, as revealed by histology, electron microscopic investigations and serum aminotransferase activity. The liver microsomal cytochrome P-450 concentration tended to decrease after thioacetamide challenge, with fasting resulting in a more significant loss of cytochrome P-450. Cytochrome b5 content, however, was found to increase in acute liver necrosis induced by thioacetamide.     

The function of the microsomal oxidative system of different organs in guinea pigs administered ethanol

The microsomal cytochrome content and enzyme activity has been determined in liver, kidney, lungs and intestinal mucous from guinea pig males which were injected 25% ethanol intraperitoneally at a dose of 2 g per 1 kg of body mass. The changes in cytochrome P-450 and b5 content, amidopyrine-N-demethylase, aniline hydroxylase, p-nitrophenol hydroxylase. NADP.H-cytochrome-c-reductase activities in investigated organs of the animals have been found depending on the ethanol intoxication period (for 3, 6 or 14 days). Changes of the same type in microsomal enzyme activities have been discovered in liver, lungs and intestine, but not in kidney that is accounted for the substrate specificity and inducibility of the cytochrome P-450 some forms in extrahepatic tissues.     

The effects of phosphatase on the components of the cytochrome P-450-dependent microsomal monooxygenase

Incubation of rabbit liver microsomes with alkaline phosphatase resulted in a marked decrease of NADPH-dependent monooxygenase activities. This decrease was found to be correlated with the decrease of NADPH-cytochrome c reductase activity catalyzed by NADPH-cytochrome P-450 reductase. Neither the content of cytochrome P-450, as determined from its CO difference spectrum, nor the peroxide-supported demethylase activity catalyzed by cytochrome P-450 alone was affected by the phosphatase treatment. NADH-cytochrome b5 reductase and cytochrome b5 were not affected by the phosphatase either. NADPH-cytochrome P-450 reductase purified from rabbit liver microsomes lost its NADPH-dependent cytochrome c reductase activity upon incubation with phosphatase in a way similar to that of microsome-bound reductase. Flavin analysis showed that the phosphatase treatment caused a decrease of FMN with concomitant appearance of riboflavin. Alkaline phosphatase, therefore, inactivates the reductase by attacking its FMN, and the inactivation of the reductase, in turn, leads to a decrease of the microsomal monooxygenase activities.     

Hepatic mitochondrial cytochrome P-450 system. Distinctive features of cytochrome P-450 involved in the activation of aflatoxin B1 and benzo(a)pyrene

Rat liver mitoplasts containing less than 1% microsomal contamination contain cytochrome P-450 at 25% of the microsomal level and retain the capacity for monooxygenase activation of structurally different carcinogens such as aflatoxin B1 (AFB1), benzo(a)pyrene (BaP), and dimethylnitrosamine. Both phenobarbital (PB) and 3-methylcholanthrene (3-MC) induce the level of mitochondrial cytochrome P-450 by 2.0- to 2.5-fold above the level of control mitoplasts. The enzyme activities for AFB1 (3-fold) and BaP (16-fold) metabolism were selectively induced by PB and 3-MC, respectively. Furthermore, the metabolism of AFB1 and BaP by intact mitochondria was supported by Krebs cycle substrates but not by NADPH. Both PB and 3-MC administration cause a shift in the CO difference spectrum of mitoplasts (control, 448 nm; PB, 451 nm; and 3-MC, 446 nm) suggesting that they induce two different forms of mitochondrial cytochromes P-450. Mitoplasts solubilized with cholate and fractionated with polyethylene glycol exhibit only marginal monooxygenase activities. The activity, however, was restored to preparations from both PB-induced and 3-MC-induced mitochondrial enzymes (AFB1 activation, ethylmorphine, and benzphetamine deamination and BaP metabolism) by addition of purified rat liver cytochrome P-450 reductase, and beef adrenodoxin and adrenodoxin reductase. The latter proteins failed to reconstitute activity to purified microsomal cytochromes P-450b and P-450c that were fully active with P-450 reductase. Monospecific rabbit antibodies against cytochrome P-450b and P-450c inhibited both P-450 reductase and adrenodoxin-supported activities to similar extents. Anti-P-450b and anti-P-450c provided Ouchterlony precipitin bands against PB- and 3-MC induced mitoplasts, respectively. We conclude that liver mitoplasts contain cytochrome P-450 that is closely similar to the corresponding microsomal cytochrome P-450 but can be distinguished by a capacity to interact with adrenodoxin. These inducible cytochromes P-450 are of mitochondrial origin since their levels in purified mitoplasts are over 10 times greater than can arise from the highest possible microsomal contamination.     

The cytochromes in microsomal fractions of germinating mung beans.

Detailed studies of microsomal cytochromes from mung-bean radicles showed the presence of cytochrome P-420, particularly in dark-grown seedlings, accompanied by smaller quantities of cytochrome P-450. Similar proportions of cytochrome P-420 to cytochrome P-450 were found spectrophotometrically in vivo with whole radicles and hypocotyls. Assayed in vitro, maximum concentrations of both cytochromes were attained after 4 days of growth, before undergoing rapid degradation. Illumination of seedlings stabilized cytochrome P-450 and decreased the amount of cytochrome P-420. Three b cytochromes were present in the microsomal fraction, namely cytochromes b-562.5 (Em + 105 +/- 23 mV), b-560.5 (Em + 49 +/- 13 mV) and b5 (Em - 45 +/- 14 mV), all at pH 7.0. Of the b cytochromes, cytochrome b5 alone undergoes a rapid degradation after day 4, Changes in cytochrome b concentrations were confined to the microsomal fraction: mitochondrial b cytochrome concentrations were unaltered with age. Protohaem degradation (of exogenous methaemalbumin) was detected in microsomal fractions of mung beans. The rates of degradation were highest in extracts of young tissue and declined after day 4. The degradation mechanism and products did not resemble those of mammalian haem oxygenase.     

Reasons for reduced activities of 17 alpha-hydroxylase and C17-C20 lyase in spite of increased contents of cytochrome P-450 in mature rat testis fetally irradiated with 60Co

Pregnant rats received whole body irradiation with 2.6 Gy gamma-ray from a 60Co source at Day 20 of gestation. When pups were 4 months old, activities of electron transport system and steroid monooxygenase in tests were assayed. The content of total cytochrome P-450 in the irradiated testes had increased to 170% of that in non-irradiated rats, but NADPH-cytochrome P-450 reductase activity had reduced to 36% of the control. Also, amounts of cytochrome b5 in testicular microsomal fraction were decreased markedly after irradiation, but no significant change of NADH-cytochrome b5 reductase activity was observed in the treated pups. Because both 17 alpha-hydroxylase and C17-C20 lyase activities tended to be decreased by fetal irradiation, testosterone production from progesterone and 17 alpha-hydroxyprogesterone was reduced to about 30% of the control. From these results, it has been suggested that the testicular cytochrome P-450 is radioresistant but steroid monooxygenase activities are reduced after the fetal irradiation. We propose that the discrepancy arises from the marked decrement of NADPH-cytochrome P-450 reductase activity.     

The phenobarbital-type induction of rat liver microsomal monooxygenases by perfluorodecalin

Induction of perfluorodecalin (PFD) of the liver microsomal system of metabolism of xenobiotics has been studied and compared with the inductions by phenobarbital (PB) and 3-methylcholanthrene (MC). It has been shown that PFD increases the content of cytochrome P-450, NADPH-cytochrome c reductase activity. Like PB, PFD induces the activities of benzphetamine-N-demethylase, aldrine-epoxidase, 16 beta-androstendion-hydroxylase. Using specific antibodies against cytochromes P-450b and P-450c (which are the main isoenzymes of cytochrome P-450 in the PB- and MC-microsomes respectively), an immunological identity of the cytochrome P-450 isoforms during PFD and PB induction has been found. According to the rocket immunoelectrophoresis the content of cytochrome P-450 in PFD-microsomes, which is immunologically indistinguishable from P-450b, was approximately 70% of the total cytochrome P-450. Two forms of cytochrome P-450 were isolated from the liver microsomes of PFD-induced rats and purified to homogeneity. A comparison of these forms with cytochromes P-450b and P-450e obtained from the PB-induced rat liver microsomes revealed their similarity in a number of properties, e.g., chromotographic behavior on DEAE-Sephacel column, molecular weight determined by sodium dodecyl sulphate (SDS) electrophoresis in polyacrylamide gel, immunoreactivity, peptide mapping, catalytic activity. The data presented demonstrate that PFD induced in rat liver microsomes the cytochrome P-450 forms whose immunological properties and substrate specificity correspond to those of the PB-type cytochrome P-450. These findings suggest that PFD and PB, which differ in their chemical structure, induce in the rat liver microsomes identical forms of cytochrome P-450.     

Interaction of cholesterol hydroxylating cytochrome P-450 with cytochrome b5

Some new relations between cytochrome P-450-dependent monooxygenases were discovered. Cytochrome b5, a representative of "microsomal" monooxygenases, was shown to form a highly specific complex with cytochrome P-450scc, a member of the "ferredoxin" monooxygenase family. This interaction is characterized by a dissociation constant, Kd, of 0.28 microM. The cytochrome P-450scc-cytochrome b5 complex may be cross-linked with water-soluble carbodiimide. Using proteolytic modification of cytochrome b5, it was shown that both hydrophilic and hydrophobic fragments of cytochrome b5 are involved in the interaction with cytochrome P-450scc. Cytochrome b5 immobilized via amino groups is an effective affinity matrix for cytochrome P-450scc purification. The role of some amino acid residues in cytochrome P-450scc interaction with cytochrome b5 was studied. The role and the nature of complexes in cytochrome P-450-dependent monooxygenases as well as interrelationships between "microsomal" and "ferredoxin" monooxygenases are discussed.     

Inducers of cytochrome P-450d: influence on microsomal catalytic activities and differential regulation by enzyme stabilization

The interaction of isosafrole, 3,4,5,3',4',5'-hexabromobiphenyl (HBB) and hexachlorobiphenyl (HCB) with cytochrome P-450d was evaluated by characterization of estradiol 2-hydroxylase activity. Displacement of the isosafrole metabolite from microsomal cytochrome P-450d derived from isosafrole-treated rats resulted in a 160% increase in estradiol 2-hydroxylase. The increase was fully reversed by incubation with 1 microM HBB. Although isosafrole is capable of forming a complex with many different cytochrome P-450 isozymes, it appears to bind largely to cytochrome P-450d in vivo as was demonstrated by measuring the enzymatic activity of microsomal cytochromes P-450b, P-450c, and P-450d from isosafrole-treated rats. When estradiol 2-hydroxylase was measured in rats treated with increasing doses of HCB, there was a gradual decrease in microsomal enzyme activity despite a 20-fold increase in cytochrome P-450d. The ability of cytochrome P-450d ligands to stabilize the enzyme was investigated in two ways. First, cytochromes P-450c and P-450d were quantitated immunochemically in microsomes from rats treated with 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD), at a dose which maximally induced total cytochrome P-450, followed by a single dose of a second inducer. The specific content of cytochrome P-450d was significantly increased when isosafrole or HCB was the second inducer but not when 3-methylcholanthrene was the second inducer. Second, the relative turnover of cytochrome P-450d was measured by the dual label technique. Following TCDD treatment, microsomal protein was labeled in vivo with [3H]leucine, the second inducer was given and protein was again labeled 3 days later with [14C]leucine. A higher ratio of 3H/14C in the cytochrome P-450d from isosafrole + TCDD- and HCB + TCDD-treated rats relative to TCDD (control)-treated rats suggested that isosafrole and HCB were able to retard the degradation of cytochrome P-450d, presumably by virtue of being tightly bound to the enzyme.     

The liver monooxygenase system of Brazilian freshwater fish

Content of cytochromes b5 and P-450, and activities of NADPH-cytochrome c (P-450) reductase (NCR) and 7-ethoxyresorufin O-deethylase (EROD) were measured in liver microsomes prepared from two South American endemic fish, Brycon cephalus and Colossoma macropomum, from tilapia, Oreochromis niloticus, and from Swiss mice, Mus musculus, which served as a control. Strong hemoglobin binding to fish liver microsomal membranes (FLM) altered visible spectra of microsomal cytochromes. Consequently, special precautions during FLM preparation, including liver perfusion followed by repeated washing of microsomes, were required in the study of microsomal cytochromes from these fish. FLM from all fish studied here had a significantly lower content of microsomal cytochromes but a similar level of NCR and EROD activities compared to mouse liver microsomes (MLM). Strong response of the monooxygenase system in O. niloticus to water pollution was detected with both specific cytochrome P-450 content and EROD activity increasing sharply. The optical spectra of hemoglobin from B. cephalus and C. macropomum were analyzed and some differences in shape and relative extinction were observed compared to known hemoglobins.     

Hydroxylation of prostaglandins by inducible isozymes of rabbit liver microsomal cytochrome P-450. Participation of cytochrome b5

The hydroxylation of prostaglandin (PG) E1, PGE2, and PGA1 was investigated in a reconstituted rabbit liver microsomal enzyme system containing phenobarbital-inducible isozyme 2 or 5,6-benzoflavone-inducible isoenzyme 4 of P-450, NADPH-cytochrome P-450 reductase, phosphatidylcholine, and NADPH. Significant metabolism of prostaglandins by isozyme 2 occurred only in the presence of cytochrome b5. Under these conditions, PGE1 hydroxylation was linear with time (up to 45 min) and protein concentration, and maximal rates were obtained with a 1:1:2 molar ratio of reductase: cytochrome b5:P-450LM2. Moreover, P-450LM2 catalyzed the conversion of PGE1, PGE2, and PGA1 to the respective 19- and 20-hydroxy metabolites in a ratio of about 5:1, and displayed comparable activities toward the three prostaglandins based on the total products formed in 60 min. Apocytochrome b5 or ferriheme could not substitute for intact cytochrome b5, while reconstitution of apocytochrome b5 with ferriheme led to activities similar to those obtained with the native cytochrome. Isozyme 4 of P-450 differed markedly from isozyme 2 in that it catalyzed prostaglandin hydroxylation at substantial rates in the absence of cytochrome b5, was regiospecific for position 19 of all three prostaglandins, and had an order of activity of PGA1 greater than PGE1 greater than PGE2. P-450LM4 preparations from untreated and induced animals had similar activities with PGE1 and PGE2, respectively. Addition of cytochrome b5 resulted in a 20 to 30% increase in the rate of PGE1 hydroxylation and an appreciably greater enhancement in the extent of all the P-450LM4-catalyzed reactions, the stimulation being greatest with PGE2 (3-fold) and least with PGA1 (1.6-fold). Cytochrome b5 was thus required for maximal metabolism of all three prostaglandins, but did not alter the regiospecificity or the order of activity of P-450 isozyme 4 with the individual substrates. In the presence of cytochrome b5, the prostaglandin hydroxylase activities of isozyme 4 were two to six times higher than those of isozyme 2.     

The level and activity of molecular forms of monooxygenase P-450b and P-450c during their separate and consecutive induction in the liver

Studies with monospecific antibodies to individual forms of monooxygenases P-450b (phenobarbital-induced) and P-450c (3-methylcholanthrene-induced) by immunochemical, kinetic and spectral methods revealed differences in the dynamics of xenobiotic-induced changes in the content and monooxygenase activity of the total microsomal CO-binding hemoprotein and of its molecular forms. Correction was made in the estimation of the benzphetamine-demethylase and benzpyrene-hydroxylase activities based on the content of specific forms of P-450b and P-450c. Since consecutive injection of phenobarbital and 3-methylcholanthrene (or vice versa) is accompanied by selective induction of the corresponding isoforms and the redistribution of the relative content of P-450b and P-450c in the total pool of cytochrome P-450 in rat liver microsomes, a conclusion was drawn that these molecular forms are induced by different populations of hepatocytes. This conclusion was confirmed by data from immunohistochemical analysis.     

The ratio of two isozyme groups in microsomal cytochrome P-450 under exogenous influence of carbon tetrachloride and cyclophosphamide

A method for measuring the content of two groups of microsomal cytochrome P-450 isozymes--cytochromes P-450W and P-450L--with the active sites directed into the water phase and membrane lipids, respectively, has been developed. The method is based on the ability of the xanthine oxidase-menadione complex to reduce microsomal cytochromes b5 and P-450 under anaerobic conditions by transferring electrons to hemoproteins with the active sites directed into the water phase. Cytochrome b5 is completely reduced (to the dithionite level) and cytochrome P-450 is reduced partially (only a group of cytochromes P-450W). The amount of cytochromes P-450L is estimated using the difference between the total content of cytochrome P-450 reduced by sodium dithionite and the content of cytochromes P-450W. The possibility of controlling the ratio of these two isozyme groups in cytochrome P-450 in vivo in membranes of the endoplasmic reticulum by pretreatment of animals with a variety of chemicals has been demonstrated. The ratio of cytochromes P-450W and P-450L has been shown to decrease two-fold 18 days after three injections of phenobarbital into mice. Carbon tetrachloride and cyclophosphamide also decrease this ratio in vivo.     

Detection of a system of microsomal monooxygenases in the rodent malaria parasite Plasmodium berghei

A microsomal fraction from the cells of the malaria parasite of rodent Plasmodium berghei was obtained. The spectral properties of microsomal preparations suggest that P. berghei microsomes contain cytochromes b5 and P-420. Electrophoretic separation of microsomal proteins revealed the presence of proteins whose molecular mass corresponds to NADPH-cytochrome c reductase, cytochrome P-450 and epoxide hydratase. The activities of NADPH-cytochrome c reductase and benzpyrene hydroxylase were determined. The spectral parameters, electrophoretic data and enzymatic activities of microsomal proteins indicate that P. berghei cells contain a cytochrome P-450 monooxygenase system. The interrelationship between the activity of the microsomal monooxygenase system and the resistance of P. berghei cells to the antimalaria preparation chloroquine is discussed.     

Enzymes metabolizing xenobiotics in spontaneous tumors in mice

The microsomal monooxygenase activity in spontaneous mouse hepatomas has been studied. The cytochrome P-450 level in hepatomas was shown to be 2 times as low as that in the liver. The reduction of the cytochrome P-450 content in the tumour was accompanied by a decrease in the activity of benz(a)pyrene hydroxylase, amino-pyrene-N-demethylase and p-nitroanisole-O-demethylase. However, 7-ethoxycoumarin-O-deethylase activity in hepatomas was much higher than in the liver both estimated as mg of the microsomal protein and nmol of cytochrome P-450. The cytochrome b5 content in the hepatomas was comparable with its level in the liver. A more elevated content of NADPH-cytochrome c reductase and microsomal epoxide hydrolase activity was found in the hepatomas. The results obtained provide evidence of different oxidation effects regarding some substrates in the liver and hepatomas. The ratio of cytochrome P-450 isoforms is likely to change in the hepatomas in contrast with that in the liver.