Antagonism of iprodione toxicity to Botrytis cinerea by mixed function oxidase inhibitors

The fungitoxicity of iprodione to a sensitive strain of Botrytis cinerea was antagonised by a variety of cytochrome P-450 mixed function oxidase inhibitors. Piperonyl butoxide, metyrapone and N-(2-ethylhexyl)-8,9,10-trinorborn-5-ene-2,3-dicarboximide (MGK-264) at non-fungitoxic concentrations were strongly antagonistic, whereas sesamex, nuarimol, fenarimol, etaconazole and 6-nitro or 6-methoxy 1,2,3-benzothiadiazole were moderately antagonistic. Phenobarbital and 2-diethylaminoethyl 2,2-diphenylvalerate (SKF 525-A) were slightly antagonistic. The results suggest that fungitoxicity of iprodione may be dependent on an activation catalysed by a cytochrome P-450 mixed function oxidase.     

Effects of anti-ecdysteroid quaternary derivatives of azole analogues of metyrapone on the post-embryonic development of the red cotton bug (Dysdercus cingulatus F)

In order to improve the larvicidal activity of the azole analogues of metyrapone, previously found to have a strong inhibitory activity on ecdysone 20-monooxygenase (E-20-M) from the fleshfly Neobellieria bullata Parker, soft-alkylated compounds (3-(1,1-dimethyl-2-oxo-2-phenylethyl)-1-dodecanoyloxymethyl-1H-imidazolium chloride, sPIM) and (1-(1,1-dimethyl-2-oxo-2-phenylethyl)-4-dodecanoyloxymethyl-1H-1,2,4-triazolium chloride, sPTM), derivatives of phenyl-imidazolyl-metyrapone (PIM) and phenyl-1,2,4-triazolyl-metyrapone (PTM), respectively, were synthesized. Both sPIM and sPTM, designed as propesticides, inhibited E-20-M in vitro at 10(-4) M concentration, which was unexpected since they had been expected to be inactive in vitro and to gain activity only within the organism. sPTM significantly delayed the pupariation of N. bullata larvae and this effect could be reversed by the simultaneous application of 20-hydroxyecdysone (20E), supporting the hypothesis that sPTM can act by interfering with the moulting hormone system. Due to this in vitro activity, sPTM and sPIM cannot be considered to be simple drug precursors, and their structure should contain structural elements (pharmacophores) responsible for the observed biological effects. In order to examine this hypothesis, derivatives of sPTM and sPIM were synthesised in which the hydrolytically labile N(+)-CH2O(CO)- moiety was changed to the more stable N(+)-CH2CH2(CO)-group. In three new stable derivatives, a dodecylamino or a phenyl group, respectively, is attached to the carbonyl group to obtain PTM and PIM derivatives quaternised with a 2-dodecylcarbamoylethyl or a 3-oxo-3-phenylpropyl group. In one derivative, the 2-oxo-2-phenylethyl quaternising group has one fewer carbon atom. In addition to their moderate activity (LC50 = 10(-6)-10(-5) M) against the red cotton bug Dysdercus cingulatus F, they delayed development and caused developmental abnormalities, including mortality in the pharate phase, mortality during moulting and wing deformations. These symptoms and the delay in development are characteristic of known compounds inhibiting the synthesis of 20E or interfering in the moulting processes. The facts that the frequent appearance of insects with developmental abnormalities and the delay in development could be reversed by co-application of 20E indicate that the moulting system might be the site of action. We presume that the quaternary azole derivatives of PIM and PTM can themselves also interact with the moulting system.     

Microsomal oxidase activity of three blowfly species and its induction by phenobarbital and β-naphtoflavone

Induction of the microsomal oxidase system by dietary phenobarbital and β-naphthoflavone was examined in three blowflies, Phormia regina (Mg.), Lucilia illustris (Mg.), and Eucalliphora lilica (Walk.). Responses were similar in adults and larvae of all species. Phenobarbital increased cytochrome P-450 levels up to 9-fold and aldrin epoxidase up to 138-fold. Increases in cytochrome P-450 and aldrin epoxidase caused by β-naphthoflavone were minor relative to those produced by phenobarbital. In toxicity experiments with carbaryl and propoxur tolerance was associated with the amount of microsomal oxidase activity. Using piperonyl butoxide to synergize carbaryl and propoxur there was no clear indication for the use of either the synergist ratio or synergist difference as an indicator of microsomal oxidase activity.     

Delta-aminolevulinic acid synthetase in the house fly and its possible role in oxidative resistance to insecticides

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.     

Induction of cytochrome P450 monooxygenase activity in the two-spotted spider mite Tetranychus urticae and its influence on acaricide toxicity

Detoxification by cytochrome P450 monooxygenases is an important mechanism involved in pesticide resistance in insects and mites. The activity of these enzymes can be induced by a variety of chemicals. The aim of this study was to evaluate the effect of six P450 inducers (phenobarbital, barbital, 3-methylcholanthrene, geraniol, isosafrole, pentamethylbenzene), known to have an inducing activity in insects and mammals, on the O-deethylation activity in the two-spotted spider mite Tetranychus urticae. Treatment with barbital, phenobarbital and geraniol resulted in a dose-dependent increase in activity. Neither 3-methylcholanthrene, isosafrole nor pentamethylbenzene were effective inducers. Time course studies showed that induction by geraniol and barbital started rapidly within a period of 1-4 h after initiation of the treatment, while maximal activity was reached within 4 and 48 h, respectively. In addition, it was shown that induction with xenobiotic compounds can alter the monooxygenase-mediated acaricide tolerance in a susceptible strain of T. urticae. Although barbital induced higher levels of P450 activity, geraniol proved to be a better compound to decrease toxicity of the tested acaricides.     

Effect of some ergosterol biosynthesis inhibiting fungicides on sterols and cytochrome P-450 from the Japanese quail Coturnix coturnix

Nine fungicides that inhibit ergosterol biosynthesis (diclobutrazol, fenarimol, fenpropimorph, imazalil, nuarimol, prochloraz, propiconazole, triadimefon, triadimenol) and one plant growth regulator (ancymidol) were administered to Japanese quails (Coturnix coturnix). Most of these compounds had a moderate or no effect, but prochloraz, imazalil and, to a lesser extent, propiconazole were shown to produce a dramatic increase in liver weight and cytochrome P-450 level. These three compounds were also found to be potent in-vitro inhibitors of 7-ethoxycoumarin O-de-ethylase and aniline hydroxylase, thus resulting in a biphasic effect on drug-metabolising enzymes. With these three compounds, and some others, an accumulation of lanosterol in liver was also observed, suggesting an inhibition of sterol synthesis.     

Phenobarbital induction of permethrin detoxification and phenobarbital metabolism in susceptible and resistant strains of the beet armyworm Spodoptera exigua (Hübner)

The permethrin resistant strain (TR-strain) of the beet armyworm, Spodoptera exigua (Hübner), has 92.5-fold resistance to permethrin (at LD₅₀ level) compared to the permethrin susceptible strain (TS-strain). Bioassay involving permethrin mixed with piperonyl butoxide, an inhibitor of microsomal cytochrome P450s, significantly reduced the resistance ratio from 92.5- to 7.9-fold. However, S,S,S-tributylphosphorotrithioate and diethylmaleate which are inhibitors of esterases and glutathione S-transferase, respectively, did not affect the resistance level. These results indicate that the detoxification of permethrin in the TR-strain was primarily due to the cytochrome P450 monooxygenases. LD₅₀ for permethrin was increased to 4.5-fold by the pre-treatment of phenobarbital in the TS-strain. The effect of induction by phenobarbital was almost completely overcome by the piperonyl butoxide treatment. However, it was observed that phenobarbital treatment did not cause any change in the toxicity of permethrin to TR strain. Since this result deviated from the expectation that the metabolism of phenobarbital in the TR-strain should be greater than that in the TS-strain, it was deemed necessary to compare the metabolism of phenobarbital between the TS- and TR-strains. Comparison was made based on the concentration of phenobarbital in the hemolymph and whole body. The results showed no significant difference in phenobarbital treatment between the two strains used in this study suggesting the possibility that the induction system in TS-strain is different from the TR-strain.     

Effect of hepatic enzyme inducers on the in vivo and in vitro metabolism of dicrotophos,dimethoate, and phosphamidon in mice

Daily 75 mg/kg phenobarbital ip injections for 3 days or 25 ppm dieldrin in the diet of mice for 14 days caused an increase in liver cytochrome P-450 and blood B-esterase. Liver A-esterase was not significantly increased. Under in vitro conditions, phenobarbital and dieldrin induced the oxidative as well as hydrolytic metabolism of dicrotophos, dimethoate, and phosphamidon by liver homogenates or combined microsomes plus 105,000g supernatant fractions. The concentration of dimethoxon was increased more than fourfold by the pretreatments after incubation for 4 hr at 37.5°C with NADPH added. The organophosphorus insecticides used in this study were not metabolized as well by the liver microsomes alone or 105,000g supernatant alone, as by the combination of microsomes and 105,000g supernatant. Under in vivo conditions in mice, phenobarbital and dieldrin treatments increased the urinary recovery of metabolites in the initial 6 hr after [¹⁴C]carbonyl-dimethoate or [¹⁴C]N-ethyl-phosphamidon administration. Analysis of urine showed that the inducers caused a more than sixfold increase in dimethoxon recovered and twofold increase in water-soluble nontoxic metabolites within 6 hr after dimethoate administration. With phosphamidon both inducers increased the rate of metabolism, and the total recovery in aqueous and chloroform fractions was decreased. These results suggest that increased dimethoate toxicity after phenobarbital and dieldrin treatments in whole animals results from stimulation of the activation of dimethoate to dimethoxon, while the increase in hydrolytic products after both pretreatments results in decreased toxicity of the direct acetylcholinesterase inhibitors, dicrotophos and phosphamidon.     

Molecular basis for the antimycotic and antibacterial activity of N-substituted imidazoles and triazoles: The inhibition of isoprenoid biosynthesis

The antimycotic N-substituted imidazoles and triazoles, such as imazalil, ketoconazole and itraconazole, interfere selectively at low concentrations (≥0.01nm) with the 14α-demethylase system (which is dependent on cytochrome P-450) of fungal cells, for example, Candida albicans and Penicillium italicum. This results in a decreased availability of ergosterol and the accumulation of 14α-methyl-sterols such as lanosterol. Cholesterol synthesis in a subcellular fraction of rat liver, in intact fibroblasts, and in vivo in rat liver, was much less sensitive, for example, to ketoconazole. The imidazole derivatives imazalil, miconazole, ketoconazole and parconazole, and the triazole derivatives propiconazole, terconazole and itraconazole affect the cytochrome P-450 species of microsomal fractions from Saccharomyces cerevisiae and rat liver. Cytochrome P-450 of rat-liver microsomes was much less sensitive to these azole derivatives, in parallel with the lower sensitivity of cholesterol synthesis. Using unilamellar vesicles composed of phosphatidylcholine, phosphatidyl-ethanolamine and diphosphatidylcholine, multilamellar vesicles of dipalmitoylphos-phatidylcholine, and intact S. cerevisiae, it was shown that the substitution of ergosterol by lanosterol leads to functional changes in the membranes. It is speculated that the selective interaction of the azole derivatives with the yeast microsomal cytochrome P-450 leads to the accumulation of 14a-methyl-sterols and results in changes in the permeability of the membranes and leakages. The observed inhibition of growth may have its origin in these changes. Miconazole, ketoconazole and deacylated ketoconazole (R-39519) also affect the growth of Staphylococcus aureus, miconazole being 12.5 and 14 times, respectively, more active than R-39519 and ketoconazole. The greater antibacterial activity of miconazole coincides with its greater inhibition of the biosynthesis of C-55 isoprenoid alcohol and vitamin K. The phosphorylated derivative of C-55 isoprenoid alcohol has functional importance in the biosynthesis of bacterial cell wall and membrane polymers, and the menaquinone vitamin K plays a role in the electron transport of Gram-positive bacteria. The reduced synthesis of these vital compounds may contribute to the antibacterial activity of miconazole.     

Biochemical genetics of oxidative resistance to diazinon in the house fly

The genetics and biochemistry of oxidative resistance to diazinon were investigated in a diazinon-resistant strain of the house fly, Musca domestica L. The resistant strain was crossed with a multimarker susceptible strain and substrains containing portions of the resistant strain genome were prepared. Resistance, microsomal oxidase, and cytochrome P-450 spectral characteristics were then compared in the different strains. The major gene for resistance to diazinon is semidominant and is located on chromosome II, 13 crossing over units from the recessive mutant stubby wing. Additional resistance genes occur on chromosome II and on other chromosomes as well. Resistance to diazinon was introduced into a susceptible mutant-marked strain via genetic crossing over. Increases in parathion oxidase, total and P-450-specific N- and O-demethylase activity, and resistant strain type I binding spectrum were introduced along with resistance, indicating genes controlling these parameters and resistance are either identical or closely linked. No increase in activity of cytochrome P-450 itself was introduced into the mutant strain. Additional genes controlling the amount of cytochrome P-450 and several spectral changes characteristic of the resistant strains are apparently controlled by genes located at different loci on chromosome II. Resistance factors on other chromosomes are also present, but were not characterized.     

Cytochrome P-450 in insects. 6. Age dependency and phenobarbital induction of cytochrome P-450, P-450 reductase,and monooxygenase activities in susceptible and resistant strains of Musca domestica

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.     

Dehydrogenation: A previously unreported pathway of lindane metabolism in mammals

This study presents evidence for the dehydrogenation of lindane by a hepatic microsomal mixed-function oxidase system. Preliminary investigation established that the incubation of lindane with rat liver homogenates produces a chlorinated, nonpolar compound identified as hexachlorocyclohexene. Differential centrifugation resulted in the sedimentation of most of the dehydrogenase activity in the microsomal fraction. Optimum in vitro assay conditions were established and it was found that the dehydrogenase system required molecular oxygen and reduced pyridine nucleotide coenzyme for maximum activity. Inhibition by SKF 525-A and CO suggested that the enzyme was cytochrome P-450 dependent. Lack of inhibition by cyanide indicated that the cytochrome b₅ desaturase system was probably not involved. Pretreatment of rats with DDT, which stimulates lindane metabolism, also induced significantly higher dehydrogenase activity. Both the in vivo and in vitro metabolism of hexachlorocyclohexene produced previously identified lindane metabolites. The existence of a cytochrome P-450 dependent mixed-function oxidase which catalyzes the dehydrogenation of lindane has not previously been reported and may be of importance in the metabolism of other xenobiotics.     

Effects of anti-ecdysteroid azole analogues of metyrapone on the larval development of the fleshfly,Neobellieria bullata

Based on our previous finding that PIM (phenyl-imidazolyl-metyra-pon; 2-(1-imidazolyl)-2-methyl-1-phenylpropan-1-one, 1) is a strong inhibitor of ecdysone 20-monooxygenase (IC₅₀ = 7.89 × 10^?7 M) from the fleshfly, Neobellieria bullata (Parker) and has also a good toxic action in vivo against this insect, 17 imidazole and 1,2,4-triazole analogues of metyrapone were synthesized and evaluated for their action against N. bullata larvae in terms of toxicity, length of larval development, weight of the puparium as well as special symptoms, i.e. malformations of the anterior and posterior spiracles, and of the mandibles. The introduction of p-methoxy (LC₅₀ = 49 mg kg^?1 in diet) or p-chloro (LC₅₀ = 97 mg kg^?1) substituents on the benzene ring of PIM resulted in a significant increase in toxicity compared to that of metyrapone (LC₅₀ = 561 mg kg^?1) and PIM (LC₅₀ = 148 mg kg^?1). The hybridization state of the carbon atom adjacent to the benzene ring was not an important factor for toxicity because the acetoxy derivative ( 13 ) was almost as toxic as PIM. At least one methyl group was required on the carbon atom adjacent to the azole ring to maintain activity, while an ethyl group ( 4 ) enhanced the toxic effect. At the applied doses some compounds including metyrapone itself, extended the duration of the larval development. Only metyrapone and PIM decreased the puparium weight. Several derivatives induced lethal malformations of mandibles as well as the anterior and posterior spiracles.     

Effect of mixed function oxidase inhibitors on the toxicity of chlortoluron and isoproturon to wheat

Growth responses of wheat plants to combined treatments of four mixed function oxidase (MFO) inhibitors and chlortoluron were determined. Analysis of interactions showed that piperonyl-butoxide and especially ABT (1-aminobenzotriazole) increased the toxicity of chlortoluron. Metyrapone and 2,4-dichlorophenoxypropyne were phytotoxic and did not exert any clear interaction. ABT also increased the toxicity of isoproturon to wheat. Our results suggest that ABT Strongly inhibits the breakdown of chlortoluron and isoproturon in wheat. Since ABT is known to act as a suicide substrate for plant cytochrome P-450, wheat enzymes involved in the metabolism of these two herbicides are likely to belong to this class. It thus appears that compounds designed to inhibit plant cytochrome P-450 enzymes may interact with herbicide metabolism and are potential synergists of herbicide activity.     

Binding of azole fungicides related to diclobutrazol to cytochrome P-450

Fungicides containing the imidazole and triazole groups are known to block the 14α-demethylation reaction in ergosterol biosynthesis, which is a cytochrome P-450 enzyme system. Fungicides related to diclobutrazol [(2RS, 3RS)-1-(2,4-dichlorophenyl)-4,4-dimethyl-2-(1,2,4-triazol-1-yl)pentan-3-ol] bind to cytochrome P-450 in rat liver microsomes, whole yeast cells, yeast microsomes and to a partially purified cytochrome P-450 from yeast, with Type II spectral changes. The most fungicidally active isomer (2R, 3R) shows greater binding than the less active (2S, 3S)-enantiomer to yeast microsomes; when the cytochrome P-450 was purified, a preparation was obtained to which binding more closely matched the fungicidal activity. Binding to rat liver microsomes does not reflect the fungicidal activity of the compounds.     

氰戊菊酯和苯巴比妥钠(PB)对棉铃虫细胞色素P450含量的影响

用 0 .2 mg/ g氰戊菊酯和 2 mg/ g苯巴比妥钠 (PB)拌饲料处理不同时间 ,对敏感种群 (HDS)和抗性种群 (KQR)棉铃虫不同组织的 P4 50诱导作用不同。两种诱导剂对 HDS种群棉铃虫的中肠、脂肪体和体壁的 P4 50都有明显的诱导作用 ,其中 PB诱导的最高倍数分别达 2 .2 4、2 .0 3和 1.6 0倍 ,氰戊菊酯诱导的最高倍数分别达 2 .14、2 .83和 1.2 8倍 ;两种诱导剂对 KQR种群棉铃虫的部分组织 P4 50也有一定的诱导作用 ,但不及对 HDS棉铃虫的显著 ,最高诱导倍数只有 :中肠 1.2 1倍 (PB)和 1.15倍 (氰戊菊酯 ) ,脂肪体 1.72倍 (PB) ;诱导作用除了表现出种群差异性 ,还表现出诱导剂差异、时间效应和组织特异性。尽管不同组织被诱导的程度不同 ,但两种群中中肠和脂肪体的 P4 50相对更容易被诱导 ,诱导倍数也较高 ;诱导达到最大值所需时间一般为 12～ 4 8h不等 ;两种诱导剂中 ,PB比氰戊菊酯对棉铃虫不同组织的P4 50具有更强的诱导作用。     

Inhibition of insect cytochrome P-450 by some metyrapone analogues and compounds containing a cyclopropylamine moiety and their evaluation as inhibitors of juvenile hormone biosynthesis

Two metyrapone analogues, 2-(l-imidazolyl)-2-methyl-l-phenyl-l-pro-panone (A-phenyl-B-imidazolyl-metyrapone; III) and 2-methyl-l-phenyl-2-{1,2,4-triazol-l-yl)-l -propanone (A-phenyl-B-triazolyl-meiyrapone; IV) as well as two cyclopropylamine derivatives. N-cyclopropyl-4-icrt-butylbenzylamine (V) and N-cyclopropyl-4-(3,7-dimethyl-7-methoxy-octyloxy)benzamide (cyclopropylamine acylated with a JH analogue acid of known structure; VI) were synthesized and evaluated in biological assays for JH biosynthesis on cockroach, Diploptera punctata corpora allata and egg growth in adult cockroach as well as for mixed function oxidase activities, i.e. epoxidation of aldrin to dieldrin and O-demethylation of 7-methoxy-4-methylcoumarin to 7-hydroxy-4-methylcoumarin on microsomes from housefly, Musca domestica, abdomen and from cockroach midgut. Compound VI was a good in-vitro inhibitor of JH biosynthesis, but it had significantly lower activities in the assays for inhibition of microsomal cytochrome P-450. Compound IV and metyrapone had moderate activity as inhibitors of oocyte growth. Compounds III, IV and V were more potent inhibitors of housefly aldrin epoxidation than metyrapone and they inhibited the enzyme activity by almost 100% at 02mM, while in cockroach midgut microsome assay metyrapone was more potent than these three compounds.     

吡唑解草酯对小麦细胞色素P450的诱导作用及其光谱特征

用吡唑解草酯浇灌小麦,试验结果表明,50μmol/L吡唑解草酯处理抗6号小麦,可使其细胞色素P450含量达到最大值108.18 pmol/mg蛋白质,为对照组的1.67倍;100μmol/L吡唑解草酯处理敏18号小麦,可使其细胞色素P450含量达到最大值80.97 pmol/mg蛋白质,为对照组的1.86倍。吡唑解草酯对两个小麦品种的细胞色素P450均有诱导作用,抗6号小麦更容易被诱导,这与两小麦品种的耐药性一致。室温(20±1)℃下扫描不同时间的细胞色素P450-CO结合光谱,结果表明,微粒体粗提液室温(20±1)℃保存200 min后,细胞色素P450完全转变为细胞色素P420。     

Alterations in microsomal cytochrome P-450-catalyzed reactions as a function of chlordecone (Kepone) induction

The effects of chlordecone treatment on the hepatic microsomal monooxygenase system of male rats were investigated. Chlordecone increased the microsomal content of cytochrome P-450, NADPH-cytochrome P-450 (c) reductase and, to a lesser extent, cytochrome b₅ in a time- and dose-dependent manner. The content of NADH-cytochrome b₅ (c) reductase was reduced. The turnover of seven substrates was studied in detail and, with the exception of aniline, was found to be increased between 1.3- and 2.2-fold. The apparent K_m's for these substrates were increased 2.1- to 16.7-fold. In addition, zoxazolamine paralysis time was reduced as a result of chlordecone treatment. These kinetic changes are explained on the basis of alterations in the cytochrome P-450 pool together with residual chlordecone acting as an inhibitor of substrate turnover. The sodium dodecyl sulfate-polyacrylamide gel electrophoresis protein pattern of microsomes isolated from chlordecone-treated rats more closely resembled that of microsomes isolated from untreated rats than that of microsomes isolated following phenobarbital or 3-methylcholanthrene treatment.     

Microsomal oxidase activities in relation to age and chlorcyclizine induction in American cockroach,Periplaneta americana,fat body,midgut and hindgut

Female adult American cockroaches, Periplaneta americana L., showed definite age-dependent changes in levels of activity of the microsomal mixed-function oxidases. Cytochrome P-450 levels, EPN-detoxication, and p-nitroanisole O-demethylation activities were very low in young adult insects but increased steadily reaching a natural peak at about 100 days in fat body and at about 90 days in midgut and hindgut. The activities then declined rapidly reaching levels of young insects at about 130 to 140 days of age. NADPH-neotetrazolium-reductase activity was high in young insects, declined later in adult life, and returned to a peak at about 100 days.Injections of chlorcyclizine, a known microsomal enzyme inducer, significantly increased levels of cytochrome P-450, EPN-detoxication, p-nitroanisole O-demethylation, and NADPH-NT-reductase activities in young cockroaches. The drug injections were effective, however, only before the natural activity peak was reached. Beyond this point the injections had no inductive effect indicating that the microsomal oxidases in this insect are uninducible when normal enzyme levels are falling.NADPH-NT-reductase activity in male cockroaches, while being somewhat higher than in females, showed a similar age-dependent curve with the peak occurring at about 120 days.Age-dependent carbaryl resistance in male and female insects tended to follow levels of the microsomal oxidase activities. Fifty to 60-day-old insects, however, tended to be more resistant to the insecticide than microsomal enzyme levels would indicate.RNA levels of normal female insects showed age-dependent curves similar to those of the microsomal enzyme activities, being low in young adults and reaching a peak at about 100 days. Chlorcyclizine injections had little or no effect on total microsomal RNA levels.