Expression and regulation of CYP6D3 in the house fly, Musca domestica (L.).

Recently, a new cytochrome P450 gene, CYP6D3, was identified from house fly. CYP6D3 was found upstream of a related gene (CYP6D1) on autosome 1. CYP6D3 cDNA sequences were obtained and compared from insecticide resistant (LPR) and susceptible (CS and Edinburgh) strains. Although each strain had a different CYP6D3 allele, the deduced amino acid sequences revealed no consistent differences between the susceptible and resistant strains. There was approximately 12-fold more CYP6D3 mRNA detected in adult LPR flies compared to CS, and the elevated level of expression in LPR was not due to gene amplification. Northern blots indicate expression of CYP6D3 mRNA is developmentally regulated with no expression in eggs, yet it is readily detectable in larvae as well as male and female adults. Phenobarbital is a well studied inducer of P450s in insects and it induced expression of CYP6D3 mRNA in both the CS (16-fold) and LPR (1.6 fold) strains. The CYP6D3 5' flanking regions were sequenced from the resistant and susceptible strains. Possible regulatory sequences within this region are discussed.     

Expression of cytochrome P-450lpr Is developmentally regulated and limited to house fly

Expression of house fly cytochrome P-450_lpr was examined using immunoblotting in male and female adult LPR house flies, mixed sex adult house flies at 12 different ages, larvae, and pupae. P-450_lpr was expressed in both male and female adult house flies. P-450_lpr was clearly present in all adult stages examined, was barely detectable in pupae, and could not be detected in larvae. Thus, cytochrome P-450_lpr is developmentally regulated and present in both sexes of house fly. Expression of cytochrome P-450, immunologically homologous to house fly cytochrome P-450_lpr was examined in other species using immunoblot analysis. Eleven animal species were tested in the orders Diptera, Hymenoptera, Lepidoptera, Orthoptera, Acari, and Rodentia, using microsomes in some species from both induced and noninduced animals or insecticide-resistant and susceptible strains. P-450_lpr appears to be restricted to house flies, as none of these species contained cytochrome P-450 that reacted with antiserum to cytochrome P-450_lpr.     

Cytochrome b5 involvement in cytochrome P450 monooxygenase activities in house fly microsomes

The involvement of cytochrome b₅ in different cytochrome P450 monooxygenase and palmitoyl CoA desaturase activities in microsomes from insecticide-resistant (LPR) house flies was determined using a specific polyclonal antiserum developed against house fly cytochrome b₅. Anti-b₅ antiserum inhibited the reduction of cytochrome b₅ by NADH-cytochrome b₅ reductase. The antiserum also inhibited palmitoyl CoA desaturase, methoxycoumarin-O-demethylase (MCOD), ethoxycoumarin-O-deethylase (ECOD), and benzo[a]pyrene hydroxylase (aromatic hydrocarbon hydroxylase, AHH) activities. However, methoxyresorufin-O-demethylase (MROD) and ethoxyresorufin-O-deethy-lase (EROD) activities were not affected by this antiserum. These results demonstrate that cytochrome b₅ is involved in fatty acyl CoA desaturase activities and in certain cytochrome P450 monooxygenase activities (i.e., MCOD, ECOD, and AHH) in LPR house fly microsomes. Other cytochrome P450 monooxygenase activities (i.e., MROD and EROD) may not require cytochrome b₅. The results suggest that cytochrome b₅ involvement with cytochrome P450 monooxygenase activities is dependent upon the cytochrome P450 isoform involved. © 1994 Wiley-Liss, Inc.     

Co-up-regulation of three P450 genes in response to permethrin exposure in permethrin resistant house flies, Musca domestica

Background

Insects may use various biochemical pathways to enable them to tolerate the lethal action of insecticides. For example, increased cytochrome P450 detoxification is known to play an important role in many insect species. Both constitutively increased expression (overexpression) and induction of P450s are thought to be responsible for increased levels of detoxification of insecticides. However, unlike constitutively overexpressed P450 genes, whose expression association with insecticide resistance has been extensively studied, the induction of P450s is less well characterized in insecticide resistance. The current study focuses on the characterization of individual P450 genes that are induced in response to permethrin treatment in permethrin resistant house flies.

Results

The expression of 3 P450 genes, CYP4D4v2, CYP4G2, and CYP6A38, was co-up-regulated by permethrin treatment in permethrin resistant ALHF house flies in a time and dose-dependent manner. Comparison of the deduced protein sequences of these three P450s from resistant ALHF and susceptible aabys and CS house flies revealed identical protein sequences. Genetic linkage analysis located CYP4D4v2 and CYP6A38 on autosome 5, corresponding to the linkage of P450-mediated resistance in ALHF, whereas CYP4G2 was located on autosome 3, where the major insecticide resistance factor(s) for ALHF had been mapped but no P450 genes reported prior to this study.

Conclusion

Our study provides the first direct evidence that multiple P450 genes are co-up-regulated in permethrin resistant house flies through the induction mechanism, which increases overall expression levels of P450 genes in resistant house flies. Taken together with the significant induction of CYP4D4v2, CYP4G2, and CYP6A38 expression by permethrin only in permethrin resistant house flies and the correlation of the linkage of the genes with resistance and/or P450-mediated resistance in resistant ALHF house flies, this study sheds new light on the functional importance of P450 genes in response to insecticide treatment, detoxification of insecticides, the adaptation of insects to their environment, and the evolution of insecticide resistance.     

Expression of cytochrome P-450lpr is developmentally regulated and limited to house fly.

Expression of house fly cytochrome P-450lpr was examined using immunoblotting in male and female adult LPR house flies, mixed sex adult house flies at 12 different ages, larvae, and pupae. P-450lpr was expressed in both male and female adult house flies. P-4501pr was clearly present in all adult stages examined, was barely detectable in pupae, and could not be detected in larvae. Thus, cytochrome P-450lpr is developmentally regulated and present in both sexes of house fly. Expression of cytochrome P-450, immunologically homologous to house fly cytochrome P-4501pr, was examined in other species using immunoblot analysis. Eleven animal species were tested in the orders Diptera, Hymenoptera, Lepidoptera, Orthoptera, Acari, and Rodentia, using microsomes in some species from both induced and noninduced animals or insecticide-resistant and susceptible strains. P-450lpr appears to be restricted to house flies, as none of these species contained cytochrome P-450 that reacted with antiserum to cytochrome P-450lpr.     

Anti-P450lpr antiserum inhibits specific monooxygenase activities in LPR house fly microsomes.

Monooxygenase activity in microsomes from the LPR strain of house fly (Musca domestica L.) was inhibited by anti-P450lpr, and antiserum specific for house fly cytochrome P450lpr. Anti-P450lpr did not inhibit house fly cytochrome P450 reductase or rat cytochrome P450 monooxygenase assays, consistent with specific inhibition of P450lpr. Anti-P450lpr inhibited the ability of cytochrome P450 reductase to reduce carbon monoxide treated LPR microsomal cytochrome P450, up to 49% of the total, showing that inhibition of cytochrome P450 reduction is the major mechanism of inhibition. Anti-P450lpr inhibited 98% of methoxyresorufin-O-demethylase activity and all the benzo(a)pyrene hydroxylase activity in LPR microsomes, but none of the pentoxyresorufin-O-dealkylase activity. The antiserum partially inhibited ethoxyresorufin-O-dealkylase and ethoxycoumarin-O-dealkylase activity. These results demonstrate that methoxyresourfin-O-demethylase activity and benzo(a)pyrene hydroxylase activity are characteristic substrates for P450lpr activity in the LPR strain of house fly.     

Metabolism of phenanthrene by house fly CYP6D1 and dog liver cytochrome P450

Polycyclic aromatic hydrocarbons (PAHs) are a ubiquitous class of environmental contaminants. The compound phenanthrene is a model PAH. A novel fluorometric method for measuring phenanthrene metabolism in vitro was developed and verified with direct measurement of [14C]phenanthrene using dog liver microsomes. The fluorometric assay and direct measurement of [14C]phenanthrene metabolism were used to show that CYP6D1, a house fly cytochrome P450, is the major house fly P450 involved in phenanthrene metabolism. Phenanthrene was metabolized by microsomes from the LPR strain of house fly that overexpresses CYP6D1, but metabolism was not observed in the CS strain that has a lower level of CYP6D1. Furthermore, the majority of phenanthrene metabolism was inhibited by a CYP6D1-specific antibody. This study increases the number of known substrates of CYP6D1 and identifies polyaromatic hydrocarbons as potential substrates of CYP6D1. The utility of CYP6D1 as an agent in bioremediation and the utility of the new fluorometric assay for understanding PAH metabolism in insects and mammals are discussed.     

Molecular cloning and expression of CYP6B8: a xanthotoxin-inducible cytochrome P450 cDNA from Helicoverpa zea

Xanthotoxin, a plant allelochemical, induces alpha-cypermethrin insecticide tolerance in Helicoverpa zea (corn earworm); inhibition of tolerance by piperonyl butoxide implicates cytochrome P450 monooxygenases (P450s) in the detoxification of this insecticide. To characterize the xanthotoxin-inducible P450 that might mediate alpha-cypermethrin tolerance in this species, a cDNA library prepared from xanthotoxin-induced H. zea fifth instar larvae was screened with cDNAs encoding furanocoumarin-metabolizing P450s from Papilio polyxenes (CYP6B1v2) and P. glaucus (CYP6B4v2) as well as a sequence-related P450 from Helicoverpa armigera (CYP6B2). One full-length cDNA isolated in this screening shares 51-99% amino acid identity with the CYP6B subfamily of P450s isolated from Papilio and Helicoverpa species and, thus, has been designated CYP6B8. All of these CYP6B subfamily members share a number of highly conserved domains, including substrate recognition site 1 (SRS 1) that is critical for xanthotoxin metabolism by CYP6B1v2 from Papilio polyxenes and coumarin metabolism by CYP2a5 from Mus musculus. Northern and RT-PCR analyses indicate that CYP6B8 expression is strongly induced by xanthotoxin and phenobarbital and negligibly induced by alpha-cypermethrin.     

Inducible P450s of the CYP9 family from larval Manduca sexta midgut

Several related cytochrome P450 cDNAs belonging to the CYP9 family have been cloned from the midgut of larval tobacco hornworms, Manduca sexta. The first P450, CYP9A2, was obtained by RT-PCR using degenerate primers. Northern blot analysis of expression in the midgut using the CYP9A2 probe revealed a significant induction by a variety of chemicals. Diets supplemented with the wild tomato compound 2-undecanone caused a dose-dependent induction which peaked after 48 h. Induction was also observed after addition to the diet of indole-3-carbinol, phenobarbital, 2-tridecanone and xanthotoxin. Neither alpha-pinene, clofibrate nor nicotine were effective inducers. The CYP9A2 probe hybridized to two mRNA species, one of 2. 0 kb and another of 4.2 kb, suggesting cross-hybridization to other P450 mRNAs. Additional P450 clones of the CYP9 family were then obtained and sequenced. Northern hybridization revealed that the 4.2 kb band also hybridized to CYP9A4 whereas the 2.0 kb hybridized to CYP9A5. Despite being 91% identical, CYP9A4 and CYP9A5 were induced differentially by clofibrate and xanthotoxin. Multiple P450 genes from various families are therefore induced in Lepidoptera in response to plant allelochemicals or xenobiotics.     

氰戊菊酯和苯巴比妥钠对敏感和抗性棉铃虫中肠多功能氧化酶系的诱导作用

用苯巴比妥钠（2mg/g）和氰戊菊酯（0.2mg/g）拌饲料处理,对敏感品系棉铃虫Helicoverpa armigera中肠的细胞色素P450和细胞色素c还原酶含量均具有明显的诱导作用（两者都使细胞色素P450含量提高了2.24倍,使细胞色素c还原酶的含量分别提高1.33和1.40倍）,但对细胞色素b5诱导作用不显著（仅为对照的1.23和1.15倍）;此外,苯巴比妥钠对敏感棉铃虫中肠的艾氏剂环氧化酶活性和甲氧试卤灵-O-脱甲基酶活性也有显著的诱导作用（分别提高了2.75和2.66倍）,但对7-乙氧香豆素-O-脱乙基酶活性没有诱导作用,而氰戊菊酯对敏感棉铃虫中肠的艾氏剂环氧化酶活性则有2.02倍的诱导作用。同一浓度的苯巴比妥钠和氰戊菊酯使抗性品系棉铃虫中肠的细胞色素P450含量分别提高1.21和1.15倍,使细胞色素c还原酶含量分别提高1.48和1.86倍（差异显著）,但是细胞色素b₅含量没有明显变化（分别为对照的1.15和0.98倍）;此外,氰戊菊酯能使抗性棉铃虫中肠的艾氏剂环氧化酶活性提高1.53倍,但苯巴比妥钠对该酶活性则有明显抑制作用。     

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.     

The effect of the cytochrome P-450 system inducers on the development of drosophila melanogaster

D. melanogaster development was markedly retarded and its survival decreased by larvae treatment with compounds being strong inducers of the cytochrome P-450 2B in mammals— phenobarbital (PB^*), perfluorodecaline (PFD), transstilbene oxide (TSO), and triphenyldioxane (TPD). At the same time, the weak inducer hexobarbital or the selective cytochrome P-450 inducer in mice but not in rats 1,4-bis[2-(dichloropyridyl-oxy)]-benzene (DPB) did not affect the larvae development. The cytochrome P-450 1A1 inducers benzo(a)anthracene (BA) and β-naphtoflavone (BNF) were also not effective. The toxicity of phenobarbital was shown to be decreased by the cytochrome P-450 inhibitor piperonyl butoxide by adding 20-hydroxyecdysone or by treatment with aminophylline—the indirect enhancer of ecdysone production in the larval prothoracic gland. The hypothesis of the moulting hormone degradation as the cause of elevated larvae mortality resulting from the induced high mixed function oxidase activity has been discussed.     

Molecular mechanisms conferring asymmetrical cross-resistance between tebufenozide and abamectin in Plutella xylostella

Based on the confirmation of asymmetrical cross-resistance between abamectin and tebufenozide in Plutella xylostella, the present work proved that the cytochrome P450 monooxygenase plays a decisive role in cross-resistance, and the expression of various cytochrome P450 (CYP450) genes in different strains was surveyed to elucidate the molecular basis of the underlying mechanisms. Enzyme analysis showed the activity of cytochrome P450 monooxygenase was notable enhanced in the strains resistant to both tebufenozide (3.07-fold) and abamectin (3.37-fold), suggesting that the enhancement of cytochrome P450 monooxygenase is the main detoxification mechanism responsible for the cross-resistance. CYP4M7 (64.58-fold) and CYP6K1 (41.97-fold) had extremely high expression levels in the Teb-R strain, selected using tebufenozide, which was highly resistant to tebufenozide (RR 185.5) and moderately cross-resistant to abamectin (RR 41.0). When this strain was subjected to further selection using abamectin, the resultant Aba-R strain showed a higher expression of CYP6K1 (60.32-fold). However, the expression of CYP4M7 was reduced (10.62-fold). Correspondingly, the Aba-R strain became more resistant to abamectin (RR 593.8) and less resistant to tebufenozide (RR 28.0). Therefore, we concluded that the over expression of CYP4M7 was the main cause for tebufenozide resistance, and that CYP6K1 mainly conferred abamectin resistance. The asymmetrical cross-resistance occurred because tebufenozide selection not only enhanced the expression of CYP4M7, but also that of CYP6K1. This is the first report on the molecular mechanism of asymmetrical cross-resistance between insecticides.     

Dealkylation of pentoxyresorufin: A rapid and sensitive assay for measuring induction of cytochrome(s) P-450 by phenobarbital and other xenobiotics in the rat

The O-dealkylation of pentoxyresorufin (7-pentoxyphenoxazone) by rat liver microsomes was examined. The reaction appeared highly specific for certain phenobarbital inducible forms of cytochrome P-450 and was increased 95- to 140-fold by animal pretreatment with phenobarbital (75 mg/kg/day, four ip injections) and ~50-fold by Aroclor 1254 (500 mg/kg, one ip injection) while animal pretreatment with 3-methylcholanthrene (50 mg/kg/day, three ip injections) resulted in less than a 2-fold increase over the rate detected in control microsomes. It was observed that this activity, in microsomes for Aroclor-pretreated rats, was dependent on O₂ and was inhibited by metyrapone and SKF 525-A, indicative of cytochrome(s) P-450 mediation in the reaction. When antibodies directed against purified cytochrome(s) P-450S were employed to inhibit the pentoxyresorufin O-dealkylation reaction, antibodies to P-450_PB-B greatly inhibited the reaction (>90%), while antibodies to P-450_PB-C or P-450_PB/PCN-E had minimal effects. Assay of hepatic microsomes from rats which were pretreated with varying doses of phenobarbital (0.9–75 mg/kg/day, four ip injections) indicated that while aminopyrine-N-demethylase activity was induced only 2-fold at the maximum dose (75 mg/kg/day), pentoxyresorufin O-dealkylase activity was induced ~140-fold at this dose and ~4-fold by a dose of phenobarbital as low as 0.9 mg/kg.     

Discriminating activation of CYP2B9 expression in male C57BL/6 mouse liver by beta-estradiol

The inducible expression of the cytochrome P450 2B subfamily was investigated in male C57BL/6 (B6) and DBA/2 (D2) mice, as well as their hybrids, B6D2F1, at the mRNA level. The expression of hepatic CYP2B mRNAs in B6 was lightly induced by beta-estradiol (ES), while that by phenobarbital (PB) or 1,1,1-trichloro-2, 2-bis(p-chlorophenyl) ethane (DDT) was prominent. Discriminating analysis showed a novelty that ES markedly induced CYP2B9 mRNA expression, whereas PB and DDT increased CYP2B10 more than CYP2B9 expression: albeit both mRNA species responded to all three inducers. Furthermore, the specific induction by ES of CYP2B9 mRNA in B6 male mice, but not D2 male mice, suggests strain dependency in the regulatory pathway of CYP2B9 expression.     

Induction of detoxification enzymes by quercetin in the silkworm

Quercetin is one of the most abundant flavonoids and the defense secondary metabolites in plants. In this study, the effect of quercetin on the growth of the silkworm larvae was investigated. Cytochrome P450 monooxygenases (P450s), glutathione S-transferases (GSTs), and carboxylesterases (COE) were assayed after exposure to different concentrations of quercetin for 3 d (short-term) and 7 d (long-term), respectively. The results showed that the weight gain of the silkworm larvae significantly decreased after the larvae were treated by different concentrations of quercetin except for the treatment with 0.5% quercetin. Activities of P450, GST, and COE were induced by 0.5 or 1% concentration of quercetin. In the midgut, the induction activity of P450s was reached to the highest level (2.3-fold) by 1% quercetin for 7 d, the highest induction activities of GSTs toward CHP and CDNB were 4.1-fold and 2.6-fold of controls by 1% quercetin after 7 d exposure, respectively. For COEs, the highest activity (2.3-fold) was induced by 0.5% quercetin for 7 d. However, P450s in whole body were higher inducible activities in short-term treatment than those in long-term treatment. The responses of eight cytochrome P450 (CYP) genes belonged to CYP6 and CYP9 families and seven GST genes were detected with real-time polymerase chain reaction. In addition, the genes induced by quercetin significantly were confirmed by qRT-PCR. CYP6AB5, CYP6B29, and GSTe8 were identified as inducible genes, of which the highest induction levels were 10.9-fold (0.5% quercetin for 7 d), 6.2-fold (1% quercetin for 7 d), and 7.1-fold (1% quercetin for 7 d), respectively.     

6种植物次生物质对斜纹夜蛾解毒酶活性的影响

草食性昆虫取食植物时遇到宿主植物中大量次生物质的化学防御,研究昆虫适应植物毒素的反防御策略具有重要的科学意义。分别添加0.01%肉桂酸、0.01%水杨酸、0.01%花椒毒素、0.02%槲皮素、0.05%黄酮和0.1%香豆素等6种植物次生物质的人工饲料饲养斜纹夜蛾(Spodoptera litura)五龄幼虫48 h后,测定斜纹夜蛾幼虫中肠和脂肪体中谷胱甘肽S-转移酶(GSTs)、羧酸酯酶(CarE)、P450的酶含量及头部乙酰胆碱酯酶(AChE)的活性,利用半定量RT-PCR检测中肠和脂肪体中CYP4M14和CYP4S9的基因表达水平。结果表明:取食肉桂酸和香豆素后,斜纹夜蛾中肠中CarE的酶活性分别提高了1.67和1.37倍,取食6种次生物质均能显著提高斜纹夜蛾脂肪体中GSTs酶活性。取食肉桂酸和香豆素48 h后,脂肪体中P450酶含量比对照增加2.93和14.50倍。取食肉桂酸、花椒毒素、槲皮素和香豆素后,斜纹夜蛾头部AchE酶活性与对照相比提高了1.53、1.80、2.36和1.56倍。6种次生物质均可诱导脂肪体中CYP4M14基因表达,槲皮素、肉桂酸和香豆素强烈诱导CYP4S9在脂肪体中表达。表明,斜纹夜蛾具有利用植物次生物质诱导其解毒酶的能力,进而提高其对毒素的抗性。