二斑叶螨对甲氰菊酯的抗性选育及解毒酶活力变化

为了明确二斑叶螨Tetranychus urticae Koch对甲氰菊酯产生抗性的机理,在室内模拟田间药剂的选择压力, 用甲氰菊酯对二斑叶螨敏感品系（S）进行逐代汰选,选育至38代时, 获得了抗性倍数( resistance ratio, RR)为247.35的抗甲氰菊酯品系（Fe-R）。对S和Fe-R解毒酶活性的分析表明,Fe-R₃₈体内羧酸酯酶（carboxylesterase, CarE）、酸性磷酸酯酶(acid phosphatase, ACP)、 碱性磷酸酯酶(alkaline phosphatase, ALP)、谷胱甘肽-S-转移酶(glutathione s-transferase, GSTs)和多功能氧化酶(mixed function oxidase, MFO)较S体内相应酶的活力显著升高（P< 0.05）,其相对比值（R/S）分别为1.822,13.941,3.789,4.262和17.386。此外,筛选至第9,19,25,32代时,除Fe-R₂₅和Fe-R₃₂的MFO活性与S相比有显著性差异（P< 0.05）外,其余解毒酶（CarE,ACP,ALP,GSTs）的活性与S相比均无显著性差异(P>0.05)。筛选至第38代时, 5种解毒酶的活力与S相比均差异显著(P<0.05)。结果说明二斑叶螨Fe-R随着筛选代数的增加（第25代后）,MFO活性的上升可能是二斑叶螨对甲氰菊酯产生抗性的主要原因。     

Purification and characterization of the cytochrome P-448 component of a benzo(a)pyrene hydroxylase from Saccharomyces cerevisiae

Cytochrome P-448, a type of cytochrome P-450, from brewer's yeast (Saccharomyces cerevisiae) grown under conditions of glucose repression was isolated and purified. Triton X-100 in very low concentration proved to be very effective in stabilizing P-448 in the microsomal fraction and later prevented its conversion to cytochrome P-420 through solubilization with various ionic and nonionic detergents. Highest yields were obtained with 1% sodium cholate, in the presence of 0.1% Triton X-100 and reduced glutathione. A novel combination of hydrophobic adsorption and other chromatographic techniques was used for the purification of cytochrome P-448. These involve the use of amino octyl-Sepharose 4B, instead of the low-yielding aminohexyl derivative, followed by the fast-running hydroxyapatite-cellulose column. Finally, the use of DEAE-Sephacel was found to increase greatly the purity of the cytochrome P-448 obtained. The molecular weight of this preparation was estimated by sodium dodecyl sulfate-polyacrylamide gel electrophoresis (M_r, 55,500). Using the known molar extinction coefficient of the carbon monoxide-difference spectrum the estimate of degree of purity of cytochrome P-448 obtained by this purification procedure was between 88 and 97%. Electrophoresis also showed that this preparation was completely homogeneous and assays showed that it was also completely free of cytochrome b_s, cytochrome c reductase and cytochrome P-420. Purified cytochrome P-448 reconstituted with cytochrome P-450 (cytochrome c) reductase, isolated from yeast, showed 10-fold higher aryl hydrocarbon hydroxylase activity with benzo[a]pyrene as a substrate than the corresponding microsomal fraction enzyme. Kinetics of benzo[a]pyrene hydroxylation were determined: K_m (33 μm) was comparable with that reported for purified hepatic cytochrome P-448. The number of binding sites of microsomal and purified cytochromes P-450 (from liver of phenobarbital-induced rats) and yeast cytochrome P-448 with benzo[a]pyrene has been determined using and equilibrium gel filtration method. There is one binding site in each case (contrast with six sites for microsomal enzymes). The Scatchard plot gives number of binding sites, apparent association constants (K), and the equivalent dissociation constants (K_s). Comparison is made with spectral dissociation constants for these enzymes and benzo[a]pyrene. Thus the proportion bound, dissociation constant (K_s), and stoichiometry of rat liver (phenobarbital induced) and yeast cytochrome P-448 with benzo[a]pyrene were compared with corresponding values for microsomal fractions of both systems. Purified enzymes had higher K_s values in both cases, and the proportion of enzyme that bound benzo[a]pyrene was high (53%) for liver and this value is 100% for purified enzyme from yeast, which is the same as the value obtained for the microsomal enzyme from yeast.     

Reversal effects of pantoprazole on multidrug resistance in human gastric adenocarcinoma cells by down-regulating the V-ATPases/mTOR/HIF-1α/P-gp and MRP1 signaling pathway in vitro and in vivo

To investigate reversal effects of pantoprazole (PPZ) on multidrug resistance (MDR) in human gastric adenocarcinoma cells in vivo and in vitro. Human gastric adenocarcinoma cell SGC7901 was cultured in RPMI‐1640 medium supplemented with 10% fetal bovine serum and antibiotics in a humidified 5% CO₂ atmosphere at 37°C. Adriamycin (ADR)‐resistant cells were cultured with addition of 0.8 µg/ml of ADR maintaining MDR phenotype. ADR was used to calculate ADR releasing index; CCK‐8 Assay was performed to evaluate the cytotoxicity of anti‐tumor drugs; BCECF‐AM pH‐sensitive fluorescent probe was used to measure intracellular pH (pHi) value of cells, whereas pH value of medium was considered as extracellular pH (pHe) value; Western blotting and immunofluorescent staining analyses were employed to determine protein expressions and intracellular distributions of vacuolar H⁺‐ATPases (V‐ATPases), mTOR, HIF‐1α, P‐glycoprotein (P‐gp), and multidrug resistant protein 1 (MRP1); SGC7901 and SGC7901/ADR cells were inoculated in athymic nude mice. Thereafter, effects of ADR with or without PPZ pretreatment were compared by determining the tumor size and weight, apoptotic cells in tumor tissues were detected by TUNEL assay. At concentrations greater than 20 µg/ml, PPZ pretreatment reduced ADR releasing index and significantly enhanced intracellular ADR concentration of SGC7901 (P < 0.01). Similarly, PPZ pretreatment significantly decreased ADR releasing index of SGC7901/ADR dose‐dependently (P < 0.01). PPZ pretreatment also decreased cell viabilities of SGG7901 and SGC7901/ADR dose‐dependently. After 24‐h PPZ pretreatment, administration of chemotherapeutic agents demonstrated maximal cytotoxic effects on SGC7901 and SGC7901/ADR cells (P < 0.05). The resistance index in PPZ pretreatment group was significantly lower than that in non‐PPZ pretreatment group (3.71 vs. 14.80). PPZ at concentration >10 µg/ml significantly decreased pHi in SGC7901 and SGC7901/ADR cells and diminished or reversed transmembrane pH gradient (P < 0.05). PPZ pretreatment also significantly inhibited protein expressions of V‐ATPases, mTOR, HIF‐1α, P‐gp, and MRP1, and alter intracellular expressions in parent and ADR‐resistant cells (P < 0.05). In vivo experiments further confirmed that PPZ pretreatment could enhance anti‐tumor effects of ADR on xenografted tumor of nude mice and also improve the apoptotic index in xenografted tumor tissues. PPZ pretreatment enhances the cytotoxic effects of anti‐tumor drugs on SGC7901 and reverse MDR of SGC7901/ADR by downregulating the V‐ATPases/mTOR/HIF‐1α/P‐gp and MRP1 signaling pathway. J. Cell. Biochem. 113: 2474–2487, 2012. © 2012 Wiley Periodicals, Inc.     

Characteristcs of microsomal enzyme controls in primary cultures of rat hepatocytes.

Cytochrome P-450, NADPH-cytochrome c reductase, biphenyl hydroxylase, and epoxide hydratase have been compared in intact rat liver and in primary hepatocyte cultures. After 10 days in culture, microsomal NADPH-cytochrome c reductase and epoxide hydratase activities declined to a third of the liver value, while cytochrome P-450 decreased to less than a tenth. Differences in the products of benzo[a]pyrene metabolism and gel electrophoresis of the microsomes indicated a change in the dominant form(s) of cytochrome P-450 in the cultured hepatocytes. Exposure of the cultured cells to phenobarbital for 5 days resulted in a threefold induction in NADPH-cytochrome c reductase and epoxide hydratase activities which was typical of liver induction of these enzymes. Exposure of the cells to 3-methylcholanthrene did not affect these activities. Cytochrome P-450 was induced over two times by phenobarbital and three to four times by 3-methylcholanthrene. The λ_max of the reduced carbon monoxide complex (450.7 nm) and analysis of microsomes by gel electrophoresis showed that the phenobarbital-induced cytochrome P-450 was different from the species induced by 3-methylcholanthrene (reduced carbon monoxide λ_max = 447.9 nm). However, metabolism of benzo[a]pyrene (specific activity and product distribution) was similar in microsomes of control and phenobarbital- and 3-methylcholan-threne-induced hepatocytes and the specific activity per nmole of cytochrome P-450 was higher than in liver microsomes. The activities for 2- and 4-hydroxylation of biphenyl were undetectable in all hepatocyte microsomes even though both activities were induced by 3-methylcholanthrene in the liver. Substrate-induced difference spectra and gel electrophoresis indicated an absence in phenobarbital-induced hepatocytes of most forms of cytochrome P-450 which were present in phenobarbital-induced rat liver microsomes. It is concluded that the control of cytochrome P-450 synthesis in these hepatocytes is considerably different from that found in whole liver, while other microsomal enzymes may be near to normal. Hormonal deficiencies in the culture medium and differential hormonal control of the various microsomal enzymes provide a likely explanation of these effects.     

Effects of methylbenzenes on microsomal enzymes in rat liver,kidney and lung

The effects of pretreatment with toluene, o-, m-, p-xylene and mesitylene were investigated on the microsomal enzymes of liver, kidney and lung in rats. The activities of aminopyrine N-demethylase, aryl hydrocarbon hydroxylase, aniline hydroxylase, NADPH-cytochrome c reductase, as well as the concentrations of cytochrome P-450 and cytochrome b₅ were determined. The effects were most marked in the liver, where toluene caused increase in aniline hydroxylase and cytochrome P-450; o-xylene in aminopyrine N-demethylase and cytochrome b₅; m-xylene and mesitylene in all the enzymes investigated. In kidneys, all the compounds increased the activity of aniline hydroxylase; m-xylene induced cytochrome P-450 and b₅ as well as NADPH-cytochrome c reductase; p-xylene induced cytochrome P-450, and mesitylene cytochrome P-450 and b₅. Aminopyrine N-demethylase activity was decreased by toluene. In lungs, only mesitylene caused any significant differences from the controls: increase in aminopyrine N-demethylase and aryl hydrocarbon hydroxylase, decrease in aniline hydroxylase. The methylbenzenes tested induced the microsomal enzymes in a rough correlation to the number of their methyl groups and their hydrophobic properties.     

Reconstitution of the reduced nicotinamide adenine dinucleotide phosphate- and reduced nicotinamide adenine dinucleotide-peroxidase activities from solubilized components of rat liver microsomes.

The liver microsomal enzyme system that catalyzes the oxidation of NADPH by organic hydroperoxides has been solubilized and resolved by the use of detergents into fractions containing NADPH-cytochrome c reductase, cytochrome P-450 (or P-448), and microsomal lipid. Partially purified cytochromes P-450 and P-448, free of the reductase and of cytochrome b₅, were prepared from liver microsomes of rats pretreated with phenobarbital (PB) and 3-methylcholanthrene (3-MC), respectively, and reconstituted separately with the reductase and lipid fractions prepared from PB-treated animals to yield enzymically active preparations functional in cumene hydroperoxide-dependent NADPH oxidation. The reductase, cytochrome P-450 (or P-448), and lipid fractions were all required for maximal catalytic activity. Detergent-purified cytochrome b₅ when added to the complete system did not enhance the reaction rate. However, the partially purified cytochrome P-450 (or P-448) preparation was by itself capable of supporting the NADPH-peroxidase reaction but at a lower rate (25% of the maximal velocity) than the complete system. Other heme compounds such as hematin, methemoglobin, metmyoglobin, and ferricytochrome c could also act as comparable catalysts for the peroxidation of NADPH by cumene hydroperoxide and in these reactions, NADH was able to substitute for NADPH. The microsomal NADH-dependent peroxidase activity was also reconstituted from solubilized components of liver microsomes and was found to require NADH-cytochrome b₅ reductase, cytochrome P-450 (or P-448), lipid, and cytochrome b₅ for maximal catalytic activity. These results lend support to our earlier hypothesis that two distinct electron transport pathways operate in NADPH- and NADH-dependent hydroperoxide decomposition in liver microsomes.     

Effects of tributyltin on the MFO system of the clam Ruditapes decussata: a laboratory and field approach

The in vivo interaction of tributyltin (TBT) with the microsomal monooxygenase (MFO) system of the clam Ruditapes decussata was studied. For this purpose, two experiments were designed: (1) a laboratory exposure to increasing nominal doses of TBT (90, 454 and 2268 ng l⁻¹) for 1 week and (2) a clam transplant from a clean area to an organotin polluted marina for periods of up to 5 weeks. Chemical analysis of organotins in clam tissue was used to relate TBT body burden to the MFO response. Neither the laboratory nor the field transplant experiment showed any significant TBT effect on the clam’s digestive gland MFO components (cytochrome P450 and cytochrome b₅). However, a significant elevation in the NADPH cytochrome (P450) reductases at the low and medium TBT doses in the laboratory and a significant decrease in NADH cytochrome (b₅) reductases, 1 week after the field transplant, was observed with further recovery to control levels thereafter.     

Simultaneous purification of a cytochrome P-450 and cytochrome b5 from the house fly,Musca domestica L.

Cytochrome P-450, cytochrome b₅ and cytochrome P-450 reductase were purified from house fly abdomens using high performance liquid chromatography (HPLC). Using a new technique, cytochrome P-450 was separated from the bulk of other proteins after polyethylene glycol fractionation and hydrophobic interaction chromatography (HIC) using a phenyl-5PW column. This technique resulted in 91% recovery of the cytochrome P-450s in a single concentrated fraction that also contained the remaining cytochrome b₅ and cytochrome P-450 reductase activity. Further purification by anion exchange on a DEAE-5SW column resolved the cytochrome P-450s, cytochrome b₅ and cytochrome P-450 reductase into individual fractions. The ion exchange step yielded one fraction that contained a high specific content of P-450 (14.4 nmol/mg protein). This cytochrome P-450 fraction ran as a single band at 54.3 kDa in sodium dodecyl sulfate polyacrylamide (SDS-PAGE) gel electrophoresis and had a carboxy ferrocytochrome absorbance maximum at 447 nm.Further purification of the anion exchange cytochrome b₅ fraction, by C8 reverse phase HPLC, resulted in a cytochrome b₅ fraction with a specific content of 51.8 nmol/mg protein and an apparent molecular mass of 19.7 kDa by SDS-PAGE. The anion exchange HPLC fraction containing the cytochrome P-450 reductase activity was further purified by NADP-agarose affinity chromatography. This step yielded cytochrome P-450 reductase with an apparent molecular mass of 72 kDa.     

Apoptosis of Dalton’s lymphoma due to in vivo treatment with emodin is associated with modulations of hydrogen peroxide metabolizing antioxidant enzymes

The evolving concept of pro-oxidative mechanism-based antitumor activity of emodin (1,3,8-trihydroxy-6-methyl anthraquinone), derived mainly from in vitro studies, needs to be defined for in vivo tumor models. The present article describes apoptosis and regression of Dalton’s lymphoma (DL) in mice by emodin vis a vis modulations of hydrogen peroxide (H₂O₂) metabolizing antioxidant enzymes in the tumor cells in vivo. A non-toxic dose (40 mg/kg bw) of emodin, given intraperitoneally to the DL bearing mice daily up to 12th post DL transplantation day, caused a significant decline (P < 0.05) in the number of viable DL cells and could significantly increase life span of the DL mice (P < 0.01). A significant decline in Bcl2/Bax ratio consistent with the release of mitochondrial cytochrome c release in DL cells from emodin-treated DL mice suggested that emodin could induce mitochondrial pathway of apoptosis in the DL cells in vivo. Apoptosis of DL cells by emodin was further confirmed by the appearance of smaller DNA fragments on DNA ladder analysis. Over activation of both, the Cu–Zn-superoxide dismutases (SOD1) and Mn-SOD (SOD2), has been found correlated with the tumor suppression. Emodin caused significant increases in the expression and activity of SOD1 and SOD2 in the DL cells. H₂O₂ produced by SODs is degraded by catalase and glutathione peroxidase in the cells. Both these enzymes were observed to be declined significantly with a concomitant increment in H₂O₂ concentration (P < 0.01) in the DL cells from emodin-treated DL mice. It is concluded that emodin is able to induce mitochondrial pathway of apoptosis in the DL cells in vivo via reciprocal modulations of H₂O₂ producing and degrading antioxidant enzymes.     

Protein oxidation by the cytochrome P450 mixed-function oxidation system

This mini-review summarizes results of studies on the oxidation of proteins and low-density lipoprotein (LDL) by various mixed-function oxidation (MFO) systems. Oxidation of LDL by the O₂/FeCl₃/H₂O₂/ascorbate MFO system is dependent on all four components and is much greater when reactions are carried out in the presence of a physiological bicarbonate/CO₂ buffer system as compared to phosphate buffer. However, FeCl₃ in this system could be replaced by hemin or the heme-containing protein, hemoglobin, or cytochrome c. Oxidation of LDL by the O₂/cytochrome P450 cytochrome c reductase/NADPH/FeCl₃ MFO system is only slightly higher (25%) in the bicarbonate/CO₂ buffer as compared to phosphate buffer, but is dependent on all components except FeCl₃. Omission of FeCl₃ led to a 60% loss of activity. These results suggest that peroxymonobicarbonate and/or free radical derivatives of bicarbonate ion and/or CO₂ might contribute to LDL oxidation by these MFO systems.     

Characterization of 7-ethoxycoumarin-O-deethylase from malathion resistant and susceptible strains of Drosophila melanogaster

Mixed-function oxidase activity in a D. melanogaster strain carrying at least two closely linked malathion resistance genes on chromosome 3 was compared with the susceptible Canton S strain. The kinetics of O-deethylation of 7-ethoxycoumarin (7-ECD activity) with respect to pH, temperature, substrate and cofactor (NADPH) affinities and the response to metal salts of both strains were similar. The resistant strain had approx. 5-fold greater 7-ECD specific activity, and a parallel increase in total cytochrome P-450 content. Developmental stage, sex and nutritional state affected Drosophila 7-ECD activity. The intestine, fat body and Malpighian tubules contained the largest 7-ECD specific activity. Both susceptible and resistant strains had similar patterns of 7-ECD expression and differed only in total activity. In addition to more cytochrome P-450, the resistant strain had increased amounts of two microsomal, heme-staining polypeptides (M_r = 50 and 54 K after SDS-PAGE). The results suggest that the genetic change in the resistant strain involves the regulation of the Drosophila cytochrome P-450 system.     

Interaction of purified microsomal cytochrome P-450 with cytochrome b5

The interactions between purified microsomal cytochrome P-450 and cytochrome b₅ has been demonstrated by aqueous two-phase partition technique. Major forms of cytochrome P-450 induced by phenobarbital (P-450_LM2) and β-naphthoflavone (P-450_LM4) are almost exclusively distributed in the dextran-rich bottom phase (partition coefficient, K = 0.06), whereas NADPH-cytochrome P-450 reductase and cytochrome b₅ are mainly distributed in the polyethylene glycol-rich top phase (K = 3.5 and 2.5, respectively), when these enzymes were partitioned separately in the dextran-polyethylene glycol two-phase system. The mixing of P-450_LM with cytochrome b₅ changes the partition coefficients of both P-450_LM and cytochrome b₅ indicating that molecular interaction between P-450_LM and cytochrome b₅ occurred. Complex formation was also confirmed by optical absorbance difference spectral titration, and the stimulation of the P-450_LM-dependent 7-ethoxycoumarin and p-nitrophenetole O-deethylase activities by equal molar quantity of detergent-solubilized cytochrome b₅, but not trypsin-solubilized enzyme, in the reconstituted system. Cytochrome b₅ decreases the K_m's of both substrates for P-450_LM2-dependent O-deethylations and increases the V's of both reactions by two- to three-fold. This stimulatory effect requires the presence of phospholipid in the reconstituted enzyme system. These results suggest that cytochrome b₅ plays a role in some reconstituted drug oxidation enzyme systems and that molecular interactions among cytochrome P-450, reductase, and cytochrome b₅ are catalytically competent in the electron transport reactions.     

Medicarpin and millepurpan,two flavonoids isolated from Medicago sativa,induce apoptosis and overcome multidrug resistance in leukemia P388 cells

BackgroundHigh consumption of flavonoids has been associated with a decrease risk of cancer. Alfalfa (Medicago sativa) leaves have been widely used in traditional medicine and is currently used as a dietary supplement because of their high nutrient content. We previously reported the cytotoxic activity of alfalfa leaf extracts against several sensitive and multidrug resistant tumor cell lines.Hypothesis/purposeWe aimed to determine whether medicarpin and millepurpan, two isoflavonoids isolated from alfalfa leaves, may have pro-apoptotic effects against drug-sensitive (P388) and multidrug resistant P388 leukemia cells (P388/DOX).Study design/methodsCells were incubated with medicarpin or millepurpan for the appropriate time. Cell viability was assessed by the MTT assay. DNA fragmentation was analyzed by agarose gel electrophoresis. Cell cycle analysis was realized by flow cytometry technics. Caspases 3 and 9 activities were measured using Promega caspACE assay kits. Proteins and genes expression were visualized respectively by western-blot using specific antibodies and RT-PCR assay.ResultsP-glycoprotein-expressing P388/DOX cells did not show resistance to medicarpin (IC₅₀ ≈ 90 µM for P388 and P388/DOX cells) and millepurpan (IC₅₀ = 54 µM and 69 µM for P388 and P388/DOX cells, respectively). Treatment with medicarpin or millepurpan triggered apoptosis in sensitive as well as multidrug resistant P388 cells. These effects were mediated through the mitochondrial pathway by modifying the balance pro/anti-apoptotic proteins. While 3 µM doxorubicin alone could not induce cell death in P388/DOX cells, concomitant treatment with doxorubicin and subtoxic concentration of medicarpin or millepurpan restored the pro-apoptotic cascade. Each compound increased sensitivity of P388/DOX cells to doxorubicin whereas they had no effect in sensitive P388 cells. Vinblastine cytotoxicity was also enhanced in P388/DOX cells (IC₅₀ = 210 nM to 23 and 25 nM with medicarpin and millepurpan, respectively). This improved sensitivity was mediated by an increased uptake of doxorubicin in P388/DOX cells expressing P-gp. P-gp expression was not altered by exposure to medicarpin and millepurpan.ConclusionThese data indicate that medicarpin and millepurpan possess pro-apoptotic properties and potentiate the cytotoxicity of chemotherapy drugs in multidrug resistant P388 leukemia cells by modulating P-gp-mediated efflux of drugs. These flavonoids may be used as chemopreventive agents or as sensitizer to enhance cytotoxicity of chemotherapy drugs in multidrug resistant cancer cells.     

Characterization and biosynthesis of cytochrome b(5) in rat liver microsomes

1. Cytochrome b₅ is released from rat liver microsomes by both proteolytic enzymes and by treatments that disrupt phospholipids. Cytochrome P-420 is only released to a marked extent by treatments that disrupt phospholipids. 2. Cytochrome b₅ was isolated in a pure state from both the rough and smooth fractions of rat liver microsomes after treatment with trypsin, and was shown to contain two cytochrome components with identical spectral properties. 3. Amino acid analyses of the two components are presented, together with peptide `fingerprint' patterns of tryptic digests of the two components. 4. Studies based on the direct isolation of cytochrome b₅ after administration of a single dose of radioactive amino acid to rats demonstrate that the cytochrome is synthesized initially in the rough fraction of microsomes and only subsequently appears in the smooth fraction. 5. Isolated rat liver microsomes are capable of incorporating radioactive amino acids into cytochrome b₅ under standard conditions. 6. Under these conditions the amino acid is incorporated into peptide linkage in the cytochrome.     

Subcellular fractionation of isolated rat hepatocytes a comparison with liver homogenate

An improved method for the homogenization and the subsequent subcellular fractionation of hepatocytes isolated from adult rat liver is described.The homogenization procedure developed in the present study allows the preservation of the integrity of subcellular structures, as demonstrated by measurement of the activities of representative enzymes as well as by determination of their latency.The activities of representative marker enzymes, as calculated on subcellular fractions obtained by differential centrifugation of the homogenate, are identical whether the homogenate arises from isolated hepatocytes or from the whole liver.Moreover, there is a close similitude between the kinetic parameters (K_{m and} V) of two microsomal cytochrome P₄₅₀-dependent mixed-function oxidases, namely aniline hydroxylase and aminopyrine demethylase determined on microsomal preparations obtained either from isolated cells or from the whole liver.     

A nuclear magnetic resonance study of axial ligation for the reduced states of chloroperoxidase,cytochrome P-450cam,and porphinatoiron(II) thiolate complexes

The reduced forms of cytochrome P-450_cam and chloroperoxidase were examined by proton NMR spectroscopy. The pH and temperature dependences of the proton NMR spectra of both ferrous enzymes are reported. A series of alkyl mercaptide complexes of both synthetic and natural-derivative iron(II) porphyrins was also examined. The proton NMR spectra of these complexes facilitated the assignment of resonances due to the axial ligand in the model compounds on the basis of their isotropic shifts and multiplicities. Comparison of model compound data with that for the reduced enzymes supports assignment of the methylene protons for the axial cysteinate of ferrous cytochrome P-450_cam and ferrous chloroperoxidase to proton NMR resonances at 279 and 200 ppm (pH 7.0, 298K), respectively. Differences in the active site structure of the two enzymes are further demonstrated by ¹⁵N-NMR spectroscopy of the cyanide complexes of the ferric forms.     

Metabolism of nitroxide spin labels in subcellular fraction of rat liver: I. Reduction by microsomes

As part of an ongoing study of the role of subcellular fractions on the metabolism of nitroxides, we studied the metabolism of a set of seven nitroxides in microsomes obtained from rat liver. The nitroxides were chosen to provide information on the effects of the type of charge, lipophilicity and the ring on which the nitroxide group is locted Important variables that were studied included adding NADH, adding, induction of enzymed by intake of phenobarbital and the effects of oxygen. Reduction of nonparamagnetic derivatives and oxidation to paramagnetic derivatives were measured by electron-spin resonance spectroscopy. In general, the relative rates of reduction of nitroxides were similar to those observed with intact cells, but the effects of the various variables that were studied often differed from those observed in intact cells. The rates of reduction were very slow in the absence of added NADh or NADPH. The relative effect of these two nucleotides changed when animals were fed phenobarbital and paralleled the levels of NADPH cytochrome c reductase, cytochrome P-450, cytochrome b₅ and NADH cytochrome c reductase; results with purified NADPH-cytochrome c reductase were consistent with these results. In microsomes from uninduced animals the rate of reduction was about 10-fold higher in the absence of oxygen. The products of reduction of nitroxides by microsomes were the corresponding hydroxylmines. We conclude that there are significant NADH- and NADPH-dependent paths for reduction of nitroxides by hepatic microsomes, probably involving cytochrome c reductases and not directly involving cytochrome P-450. From this, and from parallel studies now in progress in our laboratory, it seems likely that metabolism by microsomes is an important site of reduction of nitroxides. However, mitochondrial metabolism seems to play an even more important role in intact cells.     

Purification of hepatic microsomal cytochromes P-450 from β-naphthoflavone-treated Atlantic cod (Gadus morhua), a marine teleost fish

Four isozymes of cytochrome P-450 were purified to varying degrees of homogeneity from liver microsomes of cod, a marine teleost fish. The cod were treated with β-naphthoflavone by intraperitoneal injection, and liver microsomes were prepared by calcium aggregation. After solubilization of cytochromes P-450 with the zwitterionic detergent 3-[(3-cholamidopropyl)dimethylammonio]-1-propansulfonate, chromatography on Phenyl-Sepharose CL-4B, and subsequently on DEAE-Sepharose, resulted in two cytochrome P-450 fractions. These were further resolved on hydroxyapatite into a total of four fractions containing different isozymes of cytochromes P-450. One fraction, designated cod cytochrome P-450c, was electrophoretically homogeneous, was recovered in the highest yield and constituted the major form of the isozymes. The relative molecular mass of this form (58 000) corresponds well with a protein band appearing in cod liver microsomes after treatment with β-naphthoflavone. Both cytochrome P-450c and a minor form called cytochrome P-450d (56 000) showed activity towards 7-ethoxyresorufin in a reconstituted system containing rat liver NADPH-cytochrome P-450 reductase and phospholipid. Differences between these two forms were observed in the rate and optimal pH for conversion of this substrate, and in optical properties. Rabbit antiserum to cod cytochrome P-450c did not show any cross-reactions with cod cytochrome P-450a (M_r 55 000) or cytochrome P-450d in Ouchterlony immunodiffusion, but gave a precipitin line of partial identify with cod cytochrome P-450b (M_r 54 000), possibly as a result of contaminating cytochrome P-450c in this fraction.     

Oxidation-reduction potentials of cytochromes P-450 and ferredoxin in the bovine adrenal: Their modification by substrates and inhibitors

The midpoint reduction potentials of the haem iron in bovine adrenal cytochrome P-450 and its associated iron-sulphur protein, adrenal ferredoxin, have been measured, using EPR spectroscopy to monitor the high and low spin ferric haem iron and reduced adrenal ferredoxin signals as a function of potential, in mitochondrial and microsomal suspensions.In mitochondria the high spin (substrate-bound) cytochrome P-450 showed single-component one-electron plots under most conditions; at pH 6.65 cholesterol side-chain cleavage cytochrome P-450 (P-450_scc) had a midpoint E_m = ?305 mV; at pH 8.0 11β-hydroxylase cytochrome P-450 (P-450_11β) had E_m = ?335 mV. Low spin cytochrome P-450 showed more complex titration curves under all conditions, which could be most simply interpreted in terms of two one-electron components with midpoint potentials approx. ?360 and ?470 mV, with varying intensities. During treatments that caused substrate binding, only the ?470 mV component was reduced in magnitude. On sonication and removal of adrenal ferredoxin, the ?470 mV low spin component was converted to higher potential. The potentials could also be altered by the cytochrome P-450 inhibitors aminoglutethimide and metyrapone. In the microsomes, a high spin component of cytochrome P-450 (E_m ≈ ?290 mV) was observed even at pH 8.0, suggesting the binding of an endogenous substrate, while the low spin P-450 showed a predominance of the ?360 mV component. The midpoint potential of membrane-bound adrenal ferredoxin under these various conditions was found to be ?248 mV ± 15 mV.     

Cytochrome P-450 induction by clofibrate. Purification and properties of a hepatic cytochrome P-450 relatively specific for the 12- and 11-hydroxylation of dodecanoic acid (lauric acid)

Hypolipidaemic drugs induce peroxisomal proliferation in the liver and many induce the formation of the hepatic endoplasmic reticulum in general and the formation of cytochrome P-450 in particular. We have induced the formation of rat liver microsomal cytochrome P-450 by the administration of the hypolipidaemic drug clofibrate, isolated the endoplasmic reticulum, solubilized the cytochrome P-450 from these membranes and subdivided the cytochrome P-450 into four fractions by the use of hydrophobic, anionic, cationic and adsorption chromatography. One of these fractions (cytochrome P-450 fraction 1) was highly purified to a specific content of 17nmol of cytochrome P-450/mg of protein and the protein was active in a reconstituted enzyme system towards the 12- and 11-hydroxylation of the fatty acid, dodecanoic (lauric) acid, with preferential activity towards the 12-hydroxy metabolite. This reconstituted activity was absolutely dependent on NADPH, NADPH-cytochrome P-450 reductase and cytochrome P-450, indicating the role of the mixed-function oxidase system in the metabolism of lauric acid. Another fraction of the haemoprotein (cytochrome P-450 fraction 2) preferentially formed 11-hydroxylauric acid, whereas a third fraction (cytochrome P-450 fraction 3) exhibited only trace laurate oxidase activity and was similar to the phenobarbitone form of the haemoprotein in that these last two cytochromes rapidly turned-over the drug benzphetamine. The molecular weights and spectral properties of these cytochrome P-450 fractions are reported, along with the phenobarbitone-induced form of the enzyme and the nature of the cytochrome(s) induced by clofibrate pretreatment are discussed in the terms of possible haemoprotein heterogeneity.