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1.
The cecropia juvenile hormone and three of its analogs were compared as inducers of microsomal epoxidase, O-demethylase, and DDT dehydrochlorinase in the housefly, Musca domestica L. The compounds were the cecropia juvenile hormone, methoprene, hydroprene, 6,7-epoxy-3,7-diethyl-1-[3,4-(methylenedioxy)phenoxy]-2-octene, and piperonyl butoxide, a well known insecticide synergist. The compounds were administered by feeding at levels up to 1% in the diet for 3 days to 1-day-old female adults. Enzymes were then prepared and assayed for their activity using heptachlor, p-nitroanisole, and DDT as substrates.There was approximately a twofold increase in the microsomal oxidases and a 50% increase in DDT dehydrochlorinase after the treatment with the cecropia juvenile hormone, while methoprene had some activity as an inducer of the epoxidase (30% increase) but no activity in the case of the O-demethylase or the dehydrochlorinase. Hydroprene had no effect on any of the enzyme systems, while 6,7-epoxy-3,7-diethyl-1-[3,4-(methylenedioxy)phenoxy]-2-octene was an inhibitor of the two microsomal oxidases. The latter compound and piperonyl butoxide were strong inducers of DDT dehydrochlorinase, causing approximately twofold increases in the activity of this enzyme.There was evidence that the microsomal preparations were able to metabolize and inactivate methoprene and hydroprene, the action being oxidative in the case of methoprene and both oxidative and hydrolytic in the case of hydroprene. The oxidative metabolism of the two juvenile hormone analogs by the microsomal preparations was inducible by the cecropia juvenile hormone and by phenobarbital and dieldrin.  相似文献   

2.
Houseflies, Musca domestica, L., were treated with the drugs phenobarbital and 3-methylcholanthrene to study the effects of these compounds as inducing agents of the microsomal oxidases, heptachlor epoxidase, and p-nitroanisole O-demethylase, and of DDT-dehydrochlorinase. Phenobarbital was active when applied by injection or as part of the diet but inactive when topically applied. The resulting increases in heptachlor epoxidase activity were as much as 25-fold that of the untreated controls. The net increase in enzyme activity after phenobarbital treatment was greater in an insecticide-susceptible strain, WHO-SRS strain, than in a carbamate-resistant strain. However, the phenobarbital induced increases in DDT-dehydrochlorinase were greater, about 2-fold, in the resistant strains than in the susceptible strain.The optimum dose for phenobarbital was 1% in the diet for a period of 3 days. None of the treatments with 3-MC, feeding, injection, exposure to residues, or topical, were effective in induction.  相似文献   

3.
Development and phenobarbital (PB) induction of microsomal cytochrome P-450, NADPH-cytochrome c (P-450) reductase, two epoxidation, and two O-demethylation activities were examined in chronologically timed populations of female black blow flies (Phormia regina, Meigen). Measurements of these enzymes started with the pharate adult stage and ended 5 days following eclosion. Induction occurred in all enzymes, even at 0.005% PB, and was maximum at 0.15%. Dramatic induction of the O-demethylation of 7-methoxy-4-methylcoumarin was observed in flies dosed with the maximum concentration of the drug. This monooxygenase activity increased to nearly 1400 times the level in control flies, whereas the other O-demethylation (methoxyresorufin) and the two epoxidation reactions exhibited considerably less change. Induction of the structural enzymes of this enzyme system were 10-fold for cytochrome P-450 and 5-fold for NADPH-cytochrome c (P-450) reductase. These data suggest that PB induces several P-450's in the blow fly, particularly one bearing a high degree of specificity for 7-methoxy-4-methycoumarin.  相似文献   

4.
A strain of the fall armyworm, Spodoptera frugiperda (J.E. Smith), collected from corn in Citra, Florida, showed high resistance to carbaryl (562-fold) and methyl parathion (354-fold). Biochemical studies revealed that various detoxification enzyme activities were higher in the field strain than in the susceptible strain. In larval midguts, activities of microsomal oxidases (epoxidases, hydroxylase, sulfoxidase, N-demethylase, and O-demethylase) and hydrolases (general esterase, carboxylesterase, β-glucosidase) were 1.2- to 1.9-fold higher in the field strain than in the susceptible strain. In larval fat bodies, various activities of microsomal oxidases (epoxidases, hydroxylase, N-demethylase, O-demethylases, and S-demethylase), glutathione S-transferases (CDNB, DCNB, and p-nitrophenyl acetate conjugation), hydrolases (general esterase, carboxylesterase, β-glucosidase, and carboxylamidase) and reductases (juglone reductase and cytochrome c reductase) were 1.3- to 7.7-fold higher in the field strain than in the susceptible strain. Cytochrome P450 level was 2.5-fold higher in the field strain than in the susceptible strain. In adult abdomens, their detoxification enzyme activities were generally lower than those in larval midguts or fat bodies; this is especially true when microsomal oxidases are considered. However, activities of microsomal oxidases (S-demethylase), hydrolases (general esterase and permethrin esterase) and reductases (juglone reductase and cytochrome c reductase) were 1.5- to 3.0-fold higher in the field strain than in the susceptible strain. Levels of cytochrome P450 and cytochrome b5 were 2.1 and 1.9-fold higher, respectively, in the field strain than in the susceptible strain. In addition, acetylcholinesterase from the field strain was 2- to 85-fold less sensitive than that from the susceptible strain to inhibition by carbamates (carbaryl, propoxur, carbofuran, bendiocarb, thiodicarb) and organophosphates (methyl paraoxon, paraoxon, dichlorvos), insensitivity being highest toward carbaryl. Kinetics studies showed that the apparent Km value for acetylcholinesterase from the field strain was 56% of that from the susceptible strain. The results indicated that the insecticide resistance observed in the field strain was due to multiple resistance mechanisms, including increased detoxification of these insecticides by microsomal oxidases, glutathione S-transferases, hydrolases and reductases, and target site insensitivity such as insensitive acetylcholinesterase. Resistance appeared to be correlated better with detoxification enzyme activities in larval fat bodies than in larval midguts, suggesting that the larval fat body is an ideal tissue source for comparing detoxification capability between insecticide-susceptible and -resistant insects.  相似文献   

5.
Various detoxifying enzymes, including microsomal oxidases, glutathione S-transferases, esterases, epoxide hydrolase, and DDT-dehydrochlorinase, were assayed in adult worker bees (Apis mellifera L.) using midguts as the enzyme source. A cell-free system was used for all enzyme assays, except that microsomal oxidases required intact midgut because of the inhibitor encountered. Midgut microsomal preparations contained mainly cytochrome P-420, the inactive form of cytochrome P-450, which may explain the low microsomal oxidase activity in microsomes. All enzymes studied were active, suggesting that the high susceptibility of honey bees to insecticides is not due to low detoxication capacity. Sublethal exposure of honey bees to various insecticides had no effect on these enzyme activities, with the exception of permethrin which significantly stimulated the glutathione S-transferase, and malathion, which significantly inhibited the α-naphthylacetate esterase and carboxylesterase.  相似文献   

6.
Development and phenobarbital (PB) induction of microsomal cytochrome P-450, cytochrome P-450 reductase, two epoxidation, and two O-demethylation activities were examined in chronologically timed populations of insecticide-susceptible (NAIDM) and -resistant (Rutgers) house flies. Measurements of these enzymes started with the pharate adult stage and ended 5 days following eclosion. Untreated insects of both strains had comparable reductase levels, whereas cytochrome P-450 and associated monooxygenase activities were 1.5-fold or more higher in Rutgers. Maximum induction, as well as toxicity, occurred at a lower PB concentration in NAIDM than Rutgers. The drug caused consistently higher increases in enzymes and activities within 12 hr of starting treatment in both strains. When PB was withdrawn from treated flies (both strains) 48 hr after treatment began, specific activities (product min?1 mg protein?1) in all enzymes returned to control values in 24 hr while metabolic capacity (product min?1 insect?1) achieved control values within 48 hr. The changes in turnover numbers (pmol product min?1 pmol P-450?1), in conjunction with the differences in the monooxygenation of the four substrates, suggest that PB treatment induced both a quantitative and qualitative change in NAIDM monooxygenation but only a quantitative change in Rutgers monooxygenation.  相似文献   

7.
Carbofuran and carbaryl LD50 values were determined with and without piperonyl butoxide pretreatment for a resistant (New Jersey) and two susceptible (Utah and Netherland) populations of Colorado potato beetle larvae. Similar bioassays were conducted with carbofuran for resistant (Rutgers) and susceptible (NAIDM) adult house flies. The degree of resistance development by New Jersey Colorado potato beetles (RR = 848) was greater than that of the laboratory-selected colony of Rutgers house flies (RR = 583). Comparisons of synergist difference calculations including “percentage synergism” (%S), “log percentage synergism” (L%S), and “relative percentage synergism (R%S) for the resistant (R) and the susceptible (S) populations indicated the possibility that monooxygenases and other resistance mechanisms may be involved in Colorado potato beetle resistance to these carbamates. Monooxygenase involvement in resistance of Rutgers house flies was demonstrated in vitro by a 4-fold enhancement of p-nitroanisole O-demethylation over that of NAIDM house flies. O-demethylation of p-nitroanisole could not be demonstrated for potato beetle larvae. Colorado potato beetle resistance was associated with increases in microsomal levels of NADPH-cytochrome c reductase (ca. 2-fold) and NADPH oxidation (1.2-fold). The inability to measure O-demethylation in Colorado potato beetles may have been due to the solubilization of NADPH-cytochrome c reductase during microsomal preparation. Significant differences between resistant and susceptible Colorado potato beetle larvae were not observed in the penetration of [14C]carbaryl. Excretion of the radiocarbon may have been significantly greater in the resistant New Jersey population, but some of the insecticide may have also rubbed off the cuticle. This increased capacity for excretion, combined with increased levels of monooxygenase enzymes, could account for the high resistance level of this population.  相似文献   

8.
Levels of microsomal epoxidation, N-demethylation, and cytochrome P-450 in the gut tissues of sixth instar southern armyworm larvae were considerably enhanced following oral in vivo treatment with a series of methylbenzenes. Induction increased with increasing methyl substitution and was maximal with pentamethylbenzene. The increase in microsomal activity occurred rapidly after initiation of treatment and the final levels of induction achieved were dependent on the concentration of the inducer in the diet and the time of exposure. Microsomal enzyme activity returned to control levels following termination of exposure and induction was blocked by puromycin and cycloheximide but not by actinomycin D. The in vivo tolerance of induced worms to orally administered carbaryl was increased in a manner reflecting the enhanced microsomal enzyme activity.  相似文献   

9.
10.
Injection of 30 mg/kg body wt of polychlorinated biphenyl (Aroclor 1254) into liver parenchymal tissue of nestling and adult barn owls Tyto alba resulted in increases in the level of cytochrome P-450. Concomitantly, there were increases in catalytic activity of the microsomal enzyme system as measured by aldrin epoxidation and aminopyrine N-demethylation. However, the ratio 455430nm in the ethylisocyanide-difference spectrum remained unchanged. Of particular interest is the sudden drop in the level and catalytic activity of cytochrome P-450 in nestling owls at age 40 days. Treatment with Aroclor 1254 produced small hemorrhages in the liver of nestling owls and the liver appeared much enlarged (hepatomegaly), indicating a toxic effect and resulting in little induction of microsomal enzymes. In adult owls the inductive effect was much greater. Aroclor 1254 produced a spectral shift in the cytochrome P-450-difference spectrum from 450 to 448 nm and in the ethylisocyanide-difference spectrum from 455 to 453 nm and from 430 to 427 nm.  相似文献   

11.
Induction of glutathione S-aryl transferase by phenobarbital was studied with three stains of house flies which differed in basal levels of the enzyme. The enzyme was shown to be inducible in two of the three strains tested and the amount of induction was inversely proportional to the basal level of enzyme activity. In dose-dependency tests, a high dose of phenobarbital, 10,000 ppm, was needed to cause significant levels of induction. In a time study, 48 hr was found to be the time at which the highest levels of induction occur. Similarities of this system to house fly microsomal oxidases are discussed.  相似文献   

12.
Conditions for the measurement of aldrin epoxidation by microsomes prepared from abdominal tissues (fat body + integument) of adult female Culex pipiens were characterized. The enzyme activity had a pH optimum of 7.2 and an apparent Km of 3.4 μM. Aldrin epoxidation and NADPH-cytochrome c reductase had similar patterns of inhibition by a rabbit antiserum to house fly NADPH-cytochrome P-450 reductase, thus implicating cytochrome P-450 monooxygenase(s) in the epoxidation of aldrin. Low (71 pmol/mg protein) levels of cytochrome P-450 were detected in abdominal tissue microsomes. In non-blood-fed insects, aldrin epoxidation and NADPH-cytochrome c reductase activities did not change between Day 1 and Day 12 after adult emergence, except for a small peak on Day 2. In insects fed a blood meal on Day 6 after emergence both activities increased (two- to threefold) to a plateau maintained between 2 and 4 days after the blood meal. Aldrin epoxidation and NADPH-cytochrome c reductase activities decreased to normal values between 4 and 6 days after the blood meal.  相似文献   

13.
Studies were conducted to assess the contribution of the hepatic microsomal mixed function oxidase system to a 7.2-fold difference in susceptibility to the lethal effects of endrin between endrin-resistant and -susceptible pine voles, Microtus pinetorum. Evaluations of microsomal enzyme systems were conducted for basal and endrin-treated pine voles of both strains. The microsomal activity of ICR white mice was investigated to provide a species comparison. Maximal microsomal mixed function oxidase activities were determined in in vitro incubations for the model substrates ethylmorphine, aniline, and benzo(a)pyrene. Vmax values were estimated for the rate of disappearance of benzo(a)pyrene in in vitro incubations. No significant strain differences in basal microsomal enzyme activity were found for the model substrates investigated, although activity was invariably higher in the resistant strain. The concentration of cytochrome P-450 was significantly higher in the resistant vole though actually less than 20% different. The occurrence of significant strain differences in the levels of microsomal enzyme activity induced by endrin were rare. Significant endrin treatment effects on the levels of microsomal enzyme activity for the pine vole were observed but the degree and direction of change depended on the substrate used. A marked species difference in microsomal mixed function oxidase activity was noted between pine voles and white mice. This was particularly evident for endrin-treated animals. The microsomal activity of endrin-treated white mice was greatly induced relative to basal levels. The degree of induction depended on the substrate used. The small strain differences in microsomal enzyme activity for the systems investigated were judged to be insufficient to explain the strain difference in susceptibility to endrin.  相似文献   

14.
Microsomal sulfoxidation in fall armyworm (Spodoptera frugiperda) larvae was examined using phorate as substrate. The system required NADPH and was inhibited by CO and by piperonyl butoxide. Sulfoxidase activity was found in the alimentary canal, fat body, and Malpighian tubules, with the midgut being the most active. Microsomal substrates such as aldrin, heptachlor, biphenyl, and methyl parathion significantly inhibited the enzyme activity whereas p-nitroanisole and p-choloro-N-methylaniline had no effect. Enzyme activity increased during larval development, reaching a maximum shortly before pupation. Allelochemicals (monoterpenes, indoles, and flavones), drugs (phenobarbital and 3-methylcholanthrene), and host plants (corn cotton, parsnip, and parsley) significantly increased the enzyme activity. Increased phorate sulfoxidation through enzyme induction was found to decrease oral toxicity of phorate to the larvae. Analyses of internal insecticide revealed that, at various intervals, induced larvae retained less phorate and its oxidative metabolites than the controls. It was concluded that induction of phorate sulfoxidase activity results in an overall increase in the rate of phorate detoxication in this insect.  相似文献   

15.
Glutathione S-transferase in the Australian sheep blowfly, Lucilia cuprina, was studied using 3,4-dichloronitrobenzene (DCNB) and 1-chloro-2,4-dinitrobenzene (CDNB) as substrates. The optimum pHs for enzyme activity were 7.5–8.0 and 6.7–7.4 for DCNB and CDNB conjugations, respectively. Inclusion of glutathione and bovine serum albumin in the homogenizing buffer protected the glutathione S-transferase from inhibition by endogenous compounds present in extracts of final instar larvae and of adults less than 7–8 days old. Conjugation activities for DCNB and CDNB increased throughout larval development to reach a peak early in the pupal stage. Activity then decreased through the remainder of the pupal stage and for the first 6–7 days after emergence of the adult. Almost all of the decrease in activity during the first 6 days of the adult occurred in the abdomen, which accounted for 85% of total activity in the adult female at emergence but only 47% at 6 days. Larval DCNB conjugation activity was localized almost entirely in the fat body (94%), whereas only 50% of the CDNB conjugation activity was in the fat body with the remainder in the cuticle (25%), gut (15%), and blood (10%). Adult and larval enzyme was induced ca. three- to four-fold by sodium phenobarbital. The induction was associated with changes in apparent Vmax rather than apparent Km, suggesting that phenobarbital caused increased production of forms of enzymes already present rather than inducing synthesis of altered or new forms.  相似文献   

16.
Larvae of the southern armyworm, Spodoptera eridania (Cramer), grew well in the 15–30°C temperature range. Pupae survived poorly at 15°C but moths emerged from 85% of the pupae at 30°C. The time for development was prolonged at 15°C and larvae grew significantly bigger than at 30°C. Cytochrome P-450 content, cytochrome P-450 reductase, p-chloro N-methylaniline N-demethylation, methoxyresorufin 0-demethylation, and aldrin epoxidation activities were higher at 15°C than at 30°C. All cytochrome P-450 activities were more inducible by dietary pentamethylbenzene at 30°C than at 15°C. High cytochrome P-450-catalyzed activities were associated with increases in microsomal protein rather than with changes in membrane lipid or phospholipid content. Phosphatidylcholine was the major midgut membrane phospholipid. There was only a tendency towards increased unsaturation of the phospholipid fatty acyl moieties and lowered membrane phase transition temperature in cold-adapted larvae. Acute oral carbaryl toxicity was generally inversely correlated with cytochrome P-450 catalyzed activities. Carbaryl toxicity was decreased about 10-fold by pentamethylbenzene induction and about 3-fold by the lower acclimatization temperature.  相似文献   

17.
American cockroaches injected with sublethal doses of DDT (0.75 μg/roach) at 5-day intervals showed a 40% reduction in oligomycin-sensitive Mg2+ATPase from muscle homogenates, and a 23% reduction of Na+-K+ATPase from nerve cords. Thus, the maximum effect measured occurred with the same enzyme and tissue as determined from in vitro studies. The metabolite, DDE, used at 15 μg per roach, gave no significant change in activity of the ATPase system following injection. In contrast, high single doses of DDT (7.5 μg/roach) and 100 μg DDE and dicofol per roach caused over 30% increase in oligomycin-sensitive Mg2+ATPase of muscle and a 10–15% increase in Na+-K+ATPase of nerve cords measured 24 and 48 hr later. While a similar response was observed for Mg2+ATPase activities in cockroaches that were immobilized, the increase in enzyme activities were much greater than that caused by the pesticides.  相似文献   

18.
The inductive effect of six triazine herbicides on a variety of detoxification enzymes was investigated in fall armyworm (Spodoptera frugiperda) larvae maintained on an artificial diet. Dietary atrazine induced nine microsomal oxidase activities ranging from 1.3- to 21.6-fold, 12 glutathione S-transferase activities ranging from 1.3- to 4.2-fold, four hydrolase activities ranging from 1.3- to 2.9-fold, and two reductase activities ranging from 1.5- to 5.1-fold, depending on the enzyme assayed and tissue source (midgut vs. fat body) used. Simazine, cyanazine, ametryn, tebutryn, and terbuthylazine also induced these detoxification enzymes. The induction of microsomal oxidase (aldrin epoxidase) ranged from 1.2- to 11-fold, glutathione S-transferase (CDNB) ranged from 1.3- to 4-fold, and general esterase ranged from 1.4- to 4.1-fold, depending on the tissue source examined. In general, fat bodies were more inducible than midguts with respect to these detoxification enzymes, especially the microsomal oxidases. The induction by atrazine was associated with decreased toxicity of carbaryl, permethrin and indoxacarb, but increased toxicity of methyl parathion, phorate, and trichlorfon.  相似文献   

19.
Of five cotton allelochemicals, (+)-α-pinene, β-caryophyllene, gossypol, umbelliferone, and scopoletin, all except gossypol induced cytochrome P-450 content, N-demethylation, and epoxidation activities more in tobacco budworm larval midguts than in adult or larval boll weevils. All except gossypol also induced glutathione transferase activity in tobacco budworm larval midguts and adult boll weevils. Microsomal esterase activity was unaffected or suppressed by all five allelochemicals. Soluble esterase activities were unaffected, or induced only in boll weevil larvae. The contrast in insecticide resistance development between the tobacco budworm and the boll weevil may be, in part, related to superior inducibility of cytochrome P-450 and associated activities in the former species in addition to overall higher uninduced activities (26).  相似文献   

20.
δ-Aminolevulinic acid synthetase (ALA synthetase EC 2.3.1.37) is the initial and rate-limiting enzyme in the biosynthetic pathway leading to heme and cytochrome formation in animals. The occurrence of ALA synthetase in house fly mitochondria was established and its possible relationship to oxidative resistance to insecticides was investigated.Levels of ALA synthetase in five house fly strains were measured and compared with levels of microsomal oxidases and cytochrome P-450 in the same strains. ALA synthetase was elevated in those strains with elevated levels of microsomal oxidases and cytochrome P-450 and was highest in the strain with the highest levels of microsomal oxidases and P-450. A possible regulatory role for ALA synthetase in relation to oxidative resistance to insecticides in the house fly is discussed.  相似文献   

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