Induction by carrot allelochemicals of insecticide-metabolising enzymes in the southern armyworm (Spodoptera eridania)

Carrot foliage monoterpenes induce cytochrome P-450 up to 2.9-fold, NADPH cytochrome c (P-450) reductase up to 1.6-fold, NADPH-oxidation up to 3.8-fold, aldrin epoxidation up to 1.5-fold in southern armyworm larval midgut tissues when incorporated in their diet at 0.2% for 3 days. Stigmasterol and ergosterol did not substantially induce microsomal oxidase activities and significantly inhibited GSH S-aryltransferase activity and sulfotransferase activity. Coumarin did not substantially affect microsomal oxidase and sulfotransferase activity but is the most potent inducer of GSH S-aryltransferase activity, increasing this activity 7-fold. None of the chemicals is acutely toxic to the sixth instar larvae or affect the larval weight gain except coumarin which significantly depressed the maximal body weight attained.     

Low speed preparation of microsomes: a comparative study

Microsomal fractions were isolated from hepatic tissue, housefly abdomen and southern armyworm midgut, either by centrifugation of post-mitochondrial supernatant for 1 h at 105 000×g or by calcium sedimentation and low speed centrifugation. A comparison of the two methods of isolation were made on the basis of: NADPH oxidase activity, O-demethylation of p-nitroanisole, spectral parameters of cytochrome P-450, and integrity of ultrastructural constituents. The method of isolation did not effect these parameters appreciably for microsomes isolated from hepatic tissue. Calcium sedimentation of insect microsomes resulted in a reduction of enzyme activity and an apparent decrease in cytochrome P-450. Ultrastructural integrity did not appear to be influenced by the method of sedimentation.     

Monoclonal antibodies to liver microsomal cytochrome P-450E of the marine fish Stenotomus chrysops (scup): cross reactivity with 3-methylcholanthrene induced rat cytochrome P-450

Hybridomas were prepared from myeloma cells and spleen cells of BALB/c female mice immunized with hepatic cytochrome P-450E purified from the marine fish, Stenotomus chrysops (scup). Nine independent hybrid clones produced MAbs, either IgG1, IgG2b, or IgM, that bound to purified cytochrome P-450E in radioimmunoassay. Antibodies from one clone MAb (1-12-3), also strongly recognized rat cytochrome P-450MC-B (P-450BNF-B; P-450c). The nine antibodies inhibited reconstituted aryl hydrocarbon hydroxylase (AHH) and ethoxycoumarin O-deethylase of scup cytochrome P-450E to varying degrees, and inhibited AHH activity of beta-naphthoflavone-induced scup liver microsomes in a pattern similar to that in reconstitutions, indicating that cytochrome P-450E is identical to the AHH catalyst induced in this fish by beta-naphthoflavone. MAb 1-12-3 also inhibited the reconstituted AHH activity of the major BNF-induced rat isozyme. Conversely, MAb 1-7-1 to rat cytochrome P-450MC-B had little effect on AHH activity of scup cytochrome P-450E, and did not recognize cytochrome P-450E in radioimmunoassay nor in an immunoblot. Scup cytochrome P-450E and rat cytochrome P-450MC-B thus have at least one common epitope recognized by MAb 1-12-3, but the epitope recognized by Mab 1-7-1 is absent or recognized with low affinity in cytochrome P-450E. The various assays indicate that the nine MAbs against cytochrome P-450E are directed to different epitopes of the molecule. These MAbs should be useful in determining phylogenetic relationships of the BNF- or MC-inducible isozymes and their regulation by other environmental factors.     

Induction and regulation of cytochrome P450 K-5 (lauric acid hydroxylase) in rat renal microsomes by starvation

The effects of starvation on rat renal cytochrome P-450s were studied. The content of spectrally measured cytochrome P-450 in the renal microsomes of male rats increased 2-fold with 72 h starvation, but cytochrome b5 and NADPH-cytochrome P-450 reductase were not induced. 7-Ethoxycoumarin O-dealkylation and aniline hydroxylation activities of the renal microsomes of control male rats were very low but were induced 2.5-3-fold by 72 h starvation. Aminopyrine N-demethylation and lauric acid hydroxylation activities were induced 1.5-2-fold by 72 h starvation. The changes in catalytic activities suggested that the contents of individual cytochrome P-450s in the renal microsomes were altered by starvation. The contents of some cytochrome P-450s were measured by Western blotting. P450 DM (P450IIE1), a typical form of cytochrome P-450 induced by starvation in rat liver, was barely detected in rat kidney and was induced 2-fold by 72 h starvation. P450 K-5, a typical renal cytochrome P-450 and lauric acid hydroxylase, accounted for 81% of the spectrally measured cytochrome P-450 in the renal microsomes of control male rats and was induced 2-fold by 72 h starvation. P450 K-5 was not induced in rat kidney by treatment with chemicals such as acetone or clofibrate. The renal microsomes of male rats contained 6-times as much P450 K-5 as those of female rats. These results suggest that P450 K-5 is regulated by an endocrine factor.     

Comparison of cytochrome P-450-dependent metabolism in different developmental stages of Drosophila melanogaster

The activities of several drug metabolizing enzymes were compared in microsomes from larvae and adult Drosophila. The cytochrome P-450 content and the benzo[a]pyrene (BP) hydroxylation, p-nitroanisole demethylation and 3- and 4-hydroxylation of biphenyl were 4-20-fold higher in microsomes from adult flies, while 7-ethoxycoumarin deethylase activity and cytochrome c reductase activity were about the same in the two stages. 2-OH-biphenyl was formed in trace amounts by microsomes from adult flies but not to any detectable amount by microsomes from larvae. Pretreatment with phenobarbital (PB), Aroclor 1254 (PCB) or beta-naphthoflavone (BNF) increased the cytochrome P-450 content and the various cytochrome P-450-mediated reactions up to 7-fold in larvae. The effects of the pretreatments were weaker in adult flies, where the increase never was more than 3-fold, and many reactions were unaffected by the pretreatments. BNF was thus inefficient in enhancing all reactions, except a slight (1.3-fold) increase in the formation of 4-OH-biphenyl. Microsomes from both stages exhibited increases in specific protein bands with apparent molecular weights of 51 000-58 000 in the sodium dodecyl sulphate (SDS)-polyacrylamide gel electrophoresis following treatment with PB, PCB and BNF. Differences were observed between larvae and adults with respect both to the number of and the molecular weights of the increased protein bands.     

Induction of P-450 isoenzyme activities in Syrian golden hamster liver compared to rat liver as probed by the rate of 7-alkoxyresorufin-O-dealkylation

The activities of 7-ethoxyresorufin-O-deethylase (EROD), 7-pentoxyresorufin-O-deethylase (PROD), 7-ethoxycoumarin-O-deethylase (ECOD) and aromatic hydrocarbon hydroxylase (AHH) were measured in hepatic microsomes from male and female Wistar rats and Syrian golden hamsters in order to probe the basal activity and the inducibility by phenobarbital (PB) and 3-methylcholanthrene (MC) of different P-450 isoenzymes. The basal activities of EROD and ECOD, but not PROD and AHH, were higher in male hamsters than in male rats. No sex-related difference in enzyme activities was observed with hamsters, whereas male rats had a higher ECOD and AHH activity than female rats. Induction by PB led to a 450-fold and 250-fold increase in PROD activity in male and female rat liver microsomes, respectively, while MC had a more pronounced inductive effect on EROD activity in this species. In hamsters, EROD activity was induced by MC but not by PB. Unexpectedly PROD activity in male and female hamster liver microsomes was only moderately induced by PB, the extent being lower than on induction by MC. Therefore, the activity of PROD, which is useful as a specific enzymatic assay for P-450 IIB in the rat liver, cannot be used to probe PB-like inducers in the hamster liver.     

Regulation of arachidonic acid metabolism by cytochrome P-450 in rabbit kidney.

Renal microsomal cytochrome P-450-dependent arachidonic acid metabolism was correlated with the level of cytochrome P-450 in the rabbit kidney. Cobalt, an inducer of haem oxygenase, reduced cytochrome P-450 in both the cortex and medulla in association with a 2-fold decrease in aryl-hydrocarbon hydroxylase, an index of cytochrome P-450 activity, and a similar decrease in the formation of cytochrome P-450-dependent arachidonic acid metabolites by renal microsomes (microsomal fractions). Formation of the latter was absolutely dependent on NADPH addition and was prevented by SKF-525A, an inhibitor of cytochrome P-450-dependent enzymes. Arachidonate metabolites of cortical microsomes were identified by g.c.-m.s. as 20- and 19-hydroxyeicosatetraenoic acid, 11,12-epoxyeicosatrienoic acid and 11,12-dihydroxyeicosatrienoic acid. The profile of arachidonic acid metabolites was the same for the medullary microsomes. Induction of cytochrome P-450 by 3-methylcholanthrene and beta-naphthoflavone increased cytochrome P-450 content and aryl-hydrocarbon hydroxylase activity by 2-fold in the cortex and medulla, and this correlated with a 2-fold increase in arachidonic acid metabolites via the cytochrome P-450 pathway. These changes can also be demonstrated in cells isolated from the medullary segment of the thick ascending limb of the loop of Henle, which previously have been shown to metabolize arachidonic acid specifically via the cytochrome P-450-dependent pathway. The specific activity for the formation of arachidonic acid metabolites by this pathway is higher in the kidney than in the liver, the highest activity being in the outer medulla, namely 7.9 microgram as against 2.5 micrograms of arachidonic acid transformed/30 min per nmol of cytochrome P-450 for microsomes obtained from outer medulla and liver respectively. These findings are consistent with high levels of cytochrome P-450 isoenzyme(s), specific for arachidonic acid metabolism, primarily localized in the outer medulla.     

The metabolism of drugs and carcinogens in isolated subcellular fractions of Drosophila melanogaster. II. Enzyme induction and metabolism of benzo[a]pyrene

The effect of various pretreatments on the activities of several drug metabolizing enzymes was investigated in microsomes and postmicrosomal supernatant fractions isolated from whole body homogenates of Drosophila melanogaster larvae of different strains. Pretreatments of larvae with either phenobarbital (PB), β-naphthoflavone (BNF) or a mixture of polychlorinated biphenyls (Aroclor 1254, PCB) for 24 h increased microsomal benzo[a]pyrene (BP) monooxygenase activity 2- to 6-fold in all strains as compared to untreated larvae. A simultaneous increase in the contents of cytochrome P-450 occurred after pretreatment with PB and PCB. Comparison of the turnover rates of BP per molecule of cytochrome P-450 indicated that BP was a poor substrate for control cytochrome P-450 whereas BNF induced a most active hemoprotein for this metabolism. Marked differences in the qualitative pattern of BP metabolites were obtained between microsomes isolated from BNF-treated larvae or rat liver microsomes. 3-Hydroxy-BP (3-OH-BP) was the dominating metabolite with both preparations, while the BP dihydrodiols were formed in minor quantities in Drosophila as compared to rat liver. Metyrapone and SKF 525-A inhibited BP metabolism in microsomes isolated from untreated and BNF treated larvae of all strains. In contrast, α-naphthoflavone (ANF) stimulated the BP monooxygenase activity of microsomes isolated from untreated larvae approx. 3-fold but only slightly influenced the activity of microsomes from BNF treated larvae indicating that the latter species of cytochrome P-450 was less sensitive to ANF.In all strains, PCB and PB treatments approximately doubled microsomal epoxide hydrolase activity and increased cytosolic glutathione-S-transferase activity 25–60%, significant only in strain Berlin K after PB treatment. The activities of epoxide hydrolase and glutathione-S-transferase in control larvae were comparable in the different strains, whereas the content of cytochrome P-450 and BP monooxygenase activity was higher in the Hikone R strain. Variability in the induction response to the various pretreatment was observed among the three strains.     

On the intracellular localization of the ecdysone 20-monooxygenase in Musca domestica. L

The cytochrome P-450-dependent 20-monooxygenation of ecdysone is catalyzed both by mitochondria and microsomes isolated from Musca domestica (L.) larvae; however, about 50% of the activity is associated with mitochondria, and 37% is associated with microsomes. Pretreatment of larvae with ecdysone results in an increase in Vmax and a decrease in Km values in mitochondria but not in microsomes. Phenobarbital, a known cytochrome P-450 inducer, increases the cytochrome P-450 levels in microsomes without affecting the 20-monooxygenase activity, but both the cytochrome P-450 levels and monooxygenase activity are depressed in mitochondria from phenobarbital-pretreated larvae. The ecdysone 20-monooxygenase activity is equally distributed between mitochondria and microsomes in adult insects. Pretreatment of the insects with ecdysone does not significantly modify the 20-monooxygenase activity of either mitochondrial or microsomal fractions, but the cytochrome P-450 levels are reduced in mitochondria. Phenobarbital also depresses the mitochondrial cytochrome P-450 levels while markedly increasing the microsomal cytochrome P-450 levels. However, no significant changes in ecdysone 20-monooxygenase activity are produced by phenobarbital pretreatment. The effects of ecdysone on adult cytochrome P-450 are mostly evidenced in mitochondria isolated from females, whereas in males the changes are not statistically significant. It is concluded that the mitochondrial ecdysone 20-monooxygenase is under regulatory control by ecdysone in the larval stage, which suggests that only the mitochondrial activity has a physiological role during insect development in M. domestica. In adults, both the mitochondrial and microsomal ecdysone 20-monooxygenase activities are not responsive to ecdysone, which, coupled to their high Km values, indicates that the reaction may not be of physiological importance in adult insects and that the mitochondrial cytochrome P-450 species being depressed by ecdysone in females are possibly not involved in ecdysone metabolism.     

Phenobarbital induces cytochrome P-450- and cytochrome P-448-dependent monooxygenases in rat hepatoma cells

The induction by phenobarbital (PB) of aldrin epoxidase (AE) and aryl hydrocarbon hydroxylase (AHH), markers of cytochrome P-450- and cytochrome P-448-dependent monooxygenases, was studied in cell lines derived from Reuber H35 rat hepatoma which differ widely in their degree of differentiation. The following results were obtained: (1) PB induced AE 2-6-fold and AHH 2-4-fold in the differentiated clones, Fao, 2sFou, and C2Rev7 during an exposure period of 72 h. The barbiturate increased AHH but not AE in the dedifferentiated clone H5, the poorly differentiated line H4IIEC3/T, and in the well differentiated line H4IIEC3/G-. (2) Continuous presence of the barbiturate was required for maintaining the induction of the two monooxygenase activities in C2Rev7 cells. (3) Maximum induction of AE was observed at a PB concentration of 1.5-3.0 mM. (4) The effects of 7,8-benzoflavone on AHH-activities induced by phenobarbital in C2Rev7 and H5 cells suggested that they are mediated by cytochrome P-450- and cytochrome P-448-dependent monooxygenase forms, respectively. Thus, the flavonoid had only a slight inhibitory effect on PB-induced AHH in C2Rev7 cells, but strongly inhibited PB-induced AHH in H5 cells. The induction of AE and of 7,8-benzoflavone-inhibitable AHH in 2sFou cells indicated that PB is capable of inducing cytochromes P-450 and cytochrome P-448 in the same cell.     

Isolation,partial purification,and characterization of the cytochrome P-450-dependent monooxygenase system from the midgut of the earthworm Lumbricus terrestris

1. Cytochrome P-450 was purified from microsomes of the midgut of the earthworm Lumbricus terrestris up to a maximal specific content of 5.5 nmol P-450/mg protein.2. At least 3 different cytochromes P-450 with apparent molecular weights of 48,000, 51,000 and 53,000 were identified by SDS-PAGE.3. Western blot analysis with various polyclonal antibodies did not show structural epitopes common to the cytochromes P-450 of rodents or yeast and L. terrestris.4. The microsomes contained about 43 pmol P-450/mg protein corresponding to 0.51 nmol P-450/g midgut and 64 pmol P-450/g body weight, respectively, and converted benzyloxyresorufin into resorufin with a V_max, of 2.12 pmol resorufin/min.mg protein and a K_m of 770 nM benzyloxyresorufin at 25°C, pH 8.O.5. The microsomes exhibited a NADPH-cytochrome P-450 reductase activity of 9.4 nmol cytochrome c/min.mg protein.6. The apparent molecular weight of the threefold-purified reductase was 63,000.     

Studies of cytochrome P-450 in testis microsomes

Studies on the role of cytochrome P-450 in mouse, rat, and chick testis microsomes showed that this CO-binding hemoprotein is involved in the activity of the 17α-hydroxylase. A 70–80% inhibition by CO of the 17α-hydroxylase activity was detected in rat and chick testis microsomes. In the mouse testis, the level of the enzyme activity is ten times greater than that of the rat. This partly explains why an acceleration of NADPH oxidation by progesterone can be observed in mouse but not in rat testis microsomes. In rat testis microsomes, type I binding spectra of cytochrome P-450 was observed with pregnenolone, progesterone, 17-hydroxyprogesterone, androstenedione, and testosterone. The apparent K_s values for progesterone and 17-hydroxyprogesterone were 0.50 and 1.00 μm, respectively.When NADPH is used to measure cytochrome P-450 levels in rat testis microsomes, CO formation resulting from a stimulation in lipid peroxidation by phosphate or Fe²⁺ was sufficient to bind with 50% of the total amount of cytochrome P-450. Substitution of phosphate by Tris reduced the amount of lipid peroxidation to minimal levels. On a comparable basis, no CO formation was observed in avian testis microsomes.An increase in the testicular levels of cytochrome P-450 resulted upon the administration of HCG and cyclic-AMP to 1-day-old chicks. The lack of stimulation of the cytochrome P-450 levels by progesterone and pregnenolone suggest that the hormonal stimulation of the P-450 levels is not due to substrate induction.     

Relationship between induction of aryl hydrocarbon hydroxylase and de novo synthesis of cytochrome P-448 (P1-450) in mice

Phenobarbital, 1,1,1-trichloro-2,2-bis(p-chlorophenyl)ethane (DDT), benzpyrene, 3-methylcholanthrene (3-MC) or 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD) were administered i.p. for 1 or 3 days to genetically “responsive” (C57BL/6J) and genetically “non-responsive” (DBA/2J) mice. 3-MC or benzpyrene stimulated aryl hydrocarbon hydroxylase (AHH) activity in C57BL/6J (B6) mice but not in DBA/2J (D2) mice. TCDD induced AHH activity in both B6 and D2 mice. Time-course studies showed that in the first 12 h after a single injection of 3-MC to B6 mice there was no shift in the reduced cytochrome P-450-CO complex absorption spectra from 450 to 448 nm, although AHH activity increased 4–5 times over (above) that of the control group. The relationship between induction of AHH activity by polycyclic hydrocarbons in B6 mice and the concomitant synthesis of cytochrome P-448 is discussed.     

A male-specific renal cytochrome P-450 isozyme(s) responsible for mutagenic activation of 3-methoxy-4-aminoazobenzene in mice

Renal microsomes from male mice (BALB/c, DBA/2 and BALB/c x DBA/2 F1) showed about 10-fold greater activity for mediating mutagenic activation of 3-methoxy-4-aminoazobenzene (3-MeO-AAB) toward Salmonella typhimurium TA98 than did the corresponding hepatic microsomes, as compared on the basis of nmol of microsomal cytochrome P-450. On the other hand, female renal microsomes and other extrahepatic microsomes (lung, small intestine and colon) in both sexes of mice showed little or no activity for converting 3-MeO-AAB to mutagen(s). The mutagenic activation of 3-MeO-AAB with the male renal enzyme(s) was definitely inhibited by cytochrome P-450 inhibitors, 7,8-benzoflavone and SKF 525A. All these findings suggest that in mice, there is a male-specific renal 3-MeO-AAB activation enzyme(s), a cytochrome P-450 isozyme(s), which is different, at least in proportion and/or in nature, from hepatic cytochrome P-450 isozymes.     

Allelochemical stimulation of ecdysone 20-monooxygenase in fall armyworm larvae

The influence of dietary allelochemical on ecdysone 20-monooxygenase activity was studied in the fall armyworm, Spodoptera frugiperda (J.E. Smith). Feeding the indoles (indole-3-carbinol, indole-3-acetonitrile), flavonoids (flavone, β-naphthoflavone), monoterpenes (menthol, menthone, peppermint oil), and a coumarin (xanthotoxin) to the larvae stimulated midgut microsomal ecdysone 20-monooxygenase activity from 28 to 200% as compared with the controls. β-Naphthoflavone was the most potent inducer among those tested. Phenobarbital, a well-known cytochrome P450 inducer, also caused a 2-fold increase in the microsomal ecdysone 20-monooxygenase activity. Ecdysone 20-monooxygenase activity was 2.7-fold higher in the microsomal fraction than in the mitochondrial fraction isolated from larval midguts. Microsomal ecdysone 20-monooxygenase activity was highest in the fat body, followed by the midgut and Malpighian tubules. Tissue localization and enzyme inducibility were different between ecdysone 20-monooxygenase and xenobiotic-metabolizing cytochrome P450 monooxygenases, including aldrin epoxidase, biphenyl hydroxylase, methoxyresorufin O-demethylase, 7-ethoxycoumarin O-deethylase, p-chloro-N-methylaniline N-demethylase, and phorate sulfoxidase in fall armyworm larvae. © 1995 Wiley-Liss, Inc.     

Collagenolytic activity of rabbit V2-carcinoma growing at multiple sites.

Interaction between lanosterol and cytochrome P-450 purified from microsomes of anaerobically-grown Saccharomyces cerevisiae was studied. Lanosterol (4,4,14α-trimethyl-5α-cholesta-8,24-dien-3β-ol) stimulated the oxidation of NADPH by molecular oxygen in the presence of cytochrome P-450 and NADPH-cytochrome P-450 reductase both purified from S. cerevisiae microsomes. Lanosterol stimulated the reduction of cytochrome P-450 by NADPH with the cytochrome P-450 reductase, and induced Type I spectral change of cytochrome P-450. These observations suggest that lanosterol interacts to the substrate region of cytochrome P-450 of S. cerevisiae. Based on these facts, possible role of cytochrome P-450 in lanosterol metabolism in yeast cell is discussed.     

Induction of microsomal aryl hydrocarbon (3,4-benzo(α)pyrene) hydroxylase and cytochrome P-450k in rat kidney cortex: I. Characteristics of the hydroxylase system

Both the rat kidney cortex aryl hydrocarbon hydroxylase activity and cytochrome P-450_K are induced by benzo(α)pyrene treatment. Following a single injection of benzo(α)pyrene, maximal hydroxylase activity and cytochrome P-450_K content occur at 24 hr, returning to control levels within 72–96 hr. Induction of both the enzyme activity and hemoprotein is inhibited by cycloheximide. The enzyme system is localized in the microsomal fraction, has an absolute requirement for NADPH and molecular oxygen, and a pH optimum at 7.4; the induced activity is linear with microsomal protein concentration up to 0.8 mg and with time up to 20 min. Both the hydroxylase activity and cytochrome P-450_K follow the same pattern of inactivation with increasing temperature. The apparent K_m for the induced hydroxylase was 7.7 μm and V was increased fourfold above control value. In the presence of laurate, a substrate for the kidney microsomal cytochrome P-450_K-dependent monooxygenase system, the amount of inhibition of hydroxylase activity corresponded to the level of activity present in untreated kidney cortex microsomes. α-Naphthoflavone (10^?5m), a type I inducer (36) produced a greater inhibitory effect on the induced hydroxylase activity than on the control (55% vs 20%). The presence of cytochrome c or carbon monoxide markedly decreased hydroxylase activity. This evidence in addition to aforementioned characteristics of the enzyme suggests a cytochrome P-450_K-dependent aryl hydroxylase activity which differs from that present in the control rat.     

A prostaglandin omega-hydroxylase cytochrome P-450 (P-450PG-omega) purified from lungs of pregnant rabbits

Cytochrome P-450-dependent prostaglandin omega-hydroxylation is induced over 100-fold during late gestation in rabbit pulmonary microsomes (Powell, W.S. (1978) J. Biol. Chem. 253, 6711-6716). Purification of cytochromes P-450 from lung microsomes of pregnant rabbits yielded three fractions. Two of these fractions correspond to rabbit lung P-450I (LM2) and P-450II (LM5), which together constitute 70-97% of total cytochrome P-450 in lung microsomes from nonpregnant rabbits. The third form, which we designate rabbit cytochrome P-450PG-omega, regioselectively hydroxylates prostaglandins at the omega-position in reconstituted systems with a turnover of 1-5 min-1. Titration with purified pig liver cytochrome b5, demonstrated a 4-fold maximum stimulation at a cytochrome b5 to a P-450 molar ratio of 1-2. Rabbit lung P-450PG-omega formed a typical type I binding spectrum upon the addition of prostaglandin E1 with a calculated K8 of 1 microM, which agreed reasonably well with the kinetically calculated Km of 3 microM. Cytochrome P-450PG-omega was isolated as a low-spin isozyme with a lambda max (450 nm) in the CO-difference spectrum distinguishable from P-450I (451 nm) and P-450II (449 nm). Sodium dodecyl sulfate-polyacrylamide slab gel electrophoresis demonstrated that although purified P-450PG-omega had a relatively low specific content (12.1 nmol mg-1), it appeared homogeneous with a calculated minimum Mr of 56,000, intermediate between rabbit LM4 and LM6. When lung microsomes from pregnant and nonpregnant rabbit were analyzed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis, a protein band, with a Mr identical to P-450PG-omega, was observed in the pregnant rabbit, whereas this band appeared to be very faint or absent in microsomes from the nonpregnant rabbit. Purification of cytochromes P-450 from nonpregnant rabbit lung yielded only P-450I and P-450II. P-450PG-omega appears to be a novel rabbit P-450, possessing high activity towards omega-hydroxylation of prostaglandins, and is greatly induced during pregnancy in rabbit lung.     

氯虫苯甲酰胺诱导甜菜夜蛾细胞色素P450基因上调表达

【目的】明确氯虫苯甲酰胺对甜菜夜蛾Spodoptera exigua (Hübner)细胞色素P450基因的诱导表达作用。【方法】采用O-脱乙基香豆素法研究了低剂量氯虫苯甲酰胺处理对甜菜夜蛾幼虫中肠P450s酶活性的影响,应用Real-time PCR方法测定了其对P450基因(CYP9A9, CYP4G37,CYP4S11和CYP6B)和NADPH细胞色素P450还原酶基因(HQ852049)表达的影响。【结果】氯虫苯甲酰胺对甜菜夜蛾P450酶及相关基因的诱导作用均表现出时间效应和剂量效应,。甜菜夜蛾4龄幼虫取食0.02 mg/kg氯虫苯甲酰胺饲料至5龄, 在蜕皮后6-36 h内, 其P450s酶活性增加为对照组的1.90~2.92倍, 诱导效应高于0.01 mg/kg氯虫苯甲酰胺处理组（其P450s酶活性为对照组的1.11~1.62倍）。同时, 0.02 mg/kg氯虫苯甲酰胺处理组甜菜夜蛾中肠P450基因CYP9A9, CYP4G37和CYP6B mRNA的相对表达量分别上升为对照组的1.97~3.95, 2.46~4.29及1.53~4.48倍, NADPH细胞色素P450还原酶基因 HQ852049 的相对表达量亦增加为对照的1.85~4.08倍。【结论】结果提示,氯虫苯甲酰胺可能通过诱导3种P450基因及细胞色素P450还原酶基因 HQ852049 基因mRNA的上调表达而增强了甜菜夜蛾幼虫中肠P450s酶活性。