共查询到20条相似文献,搜索用时 31 毫秒
1.
The metabolism in vivo and in vitro of [14C]parathion and [14C]paraoxon was studied in a susceptible (LS) and an organophosphorus-resistant (Q) strain of the sheep blowfly, Lucilia cuprina. Both strains detoxified the insecticides in vivo via a number of pathways, but the resistant strain produced more of the metabolites diethyl phosphate and diethyl phosphorothionate. No difference was found between strains in the rate of penetration of the compounds used. Also, in vitro studies showed no difference between strains in the sensitivity of head acetylcholinesterase to inhibition by paraoxon. Both the microsomal and the 100,000g supernatant fractions degraded paraoxon, but resistance in Q could be explained by the eightfold greater rate of diethyl phosphate production with or without added NADPH. Parathion was also degraded to diethyl phosphorothionate by an NADPH-requiring enzyme in microsomal preparations from both strains. However, Q produced significantly more diethyl phosphorothionate in vivo than LS. It was concluded that organophosphorus resistance in Q was due mainly to a microsomal phosphatase hydrolyzing phosphate but not phosphorothionate esters, probably enhanced by a microsomal oxidase detoxifying the latter. 相似文献
2.
Jane E. McIlvain Julita Timoszyk Tsutomu Nakatsugawa 《Pesticide biochemistry and physiology》1984,21(2):162-169
Paraoxonase in the liver of male Sprague-Dawley rats was studied by using [phenyl-1-14C]paraoxon. Examination of the enzyme activity in subcellular fractions of liver homogenates indicated that hepatic paraoxonase is essentially a microsomal enzyme with a pH optimum of 7.5 to 7.8. Effects of calcium ions and EDTA on the enzyme suggested that active paraoxonase is a protein-calcium complex possibly with a range of affinity to calcium ion. Activity in homogenates declined with a half-life of 6 to 9 hr when stored at 0°C, apparently reflecting dissociation of calcium ions. Experiments with homogenates of perfused liver provided evidence that even without the contribution of calcium from blood, paraoxonase is almost fully active at the moment of homogenization. Possible reasons for the much reduced activity of paraoxonase in in vivo metabolism are discussed. 相似文献
3.
Orally administered [1-14C]ethyl paraoxon, O,O-diethyl-O-p-nitrophenyl phosphate, is readily absorbed from the gastrointestinal tract of male albino rats. Radioactivity is essentially eliminated in 72 hr by excretion into urine and feces and by expiration as 14CO2. Compounds with radioactivity in the urine are tentatively identified as diethyl phosphoric acid, desethyl paraoxon, ethanol, metabolites conjugated with amino acids, and paraoxon; the first compound is the predominant radioactive metabolite. Intraperitoneally injected phenobarbital, DDT, dieldrin, and endrin are inducers of microsomal enzymes that degrade paraoxon. The aryl phosphate-cleaving activity in vitro is not dependent on the addition of NADPH. O-Dealkylation of paraoxon is catalyzed by microsomal enzymes that require NADPH and oxygen and are inhibited by carbon monoxide. Microsomal enzymes from rats pretreated with enzyme inducers give an increased rate of O-dealkylation of paraoxon. Reduced glutathione has little or no effect on paraoxon degradation by either microsomal or soluble enzymes. Actinomycin D inhibits O-dealkylation of paraoxon in vivo, as indicated by reduction of 14CO2 formation, and in vitro, as indicated by decreased activity of microsomal O-dealkylase. The role of microsomal mixed-function oxidases and NADPH-dependent O-dealkylase in the metabolism of organophosphorus insecticides is discussed. 相似文献
4.
In vitro studies of the desulfuration of parathion at 37°C by hepatic tissue from males and females of nine mammalian species revealed sex and species variation in initial rates of parathion desulfuration and arylesterase-catalyzed hydrolysis of the oxygen analogue, paraoxon. Double reciprocal plots of initial rates of parathion activation for representative males and females of each species gave Km values ranging from 0.2 × 10?4?1.0 × 10?4M parathion. Guinea pigs and rats were the only animals showing sex differences in activation, males possessing higher desulfurating abilities than the corresponding females. Based upon the sex possessing the higher desulfurating ability, the species pattern of decreasing activity was hamster > guinea pig > mouse > rat > rabbit > bovine > dog > porcine > cat. Studies of paraoxon hydrolysis indicated that only rats showed sex differences in hydrolysis, males possessing higher arylesterase activity than females. The species pattern of decreasing hydrolytic activity was in the order mouse > bovine > rat > guinea pig > rabbit > hamster > cat > dog > porcine. 相似文献
5.
Thomas W. Fuhremann E. Paul Lichtensteina Rainer N. Zahlten Frederick W. Stratman Heinrich K. Schnoes 《Pest management science》1974,5(1):31-39
Perfusion of 14C-(ring)-parathion or 14C-(ring)-paraoxon with blood through isolated, intact rat livers resulted in the rapid degradation of these insecticides. Degradation was negligible in the absence of rat liver (controls), thus demonstrating the capacity of the liver per se to effectively degrade these compounds. Of the total radiocarbon recovered after liver perfusion with [14C]parathion, 33 % could be attributed to unchanged [14C]parathion (similarly distributed between the liver and the blood) while 67.9 % was degraded to water soluble compounds and 2.5% was converted to organic soluble paraoxon and traces of p-nitrophenol. Nearly all of the [14C]paraoxon, however, was degraded by the intact rat liver, resulting in water soluble products that amounted to 98.5% of the total radiocarbon recovered. Unexplained losses of radiocarbon with the perfusion apparatus used were lower in the presence of rat liver which degraded the insecticides to more water soluble compounds. The water soluble degradation products produced from [14C]parathion and [14C]paraoxon were non-toxic to mosquito larvae (Aedes aegypti L.). These ring-labelled products were found to be conjugated p-nito-phenol. Nearly all of the water soluble radiocarbon was located in the perfused blood, while only small amounts (1.8 to 3.0% of recovered) were excreted via the bile or were associated with the liver tissue (1.3 to 1.8 % of recovered). 相似文献
6.
Paraoxon infused into the rat liver during perfusion in situ with Waymouth's medium underwent chromatographic translobular migration with an apparent hepatic transit time of 3 min. Intralobular heterogeneity of paraoxon metabolism was examined by analyzing metabolites produced under conditions minimizing the chromatographic translobular migration of paraoxon. Periportal and centrilobular activities were estimated following forward and retrograde infusion of paraoxon, respectively. Centrilobular hepatocytes exhibited nearly twice the metabolic rate of the periportal cells. Pretreatment of the rat with DDE resulted in about a threefold increase in the ratio of oxidative deethylation to hydrolytic dearylation in the centrilobular region. The differentials observed by these analyses were less pronounced than expected from enzyme analyses in vitro, possibly reflecting secondary metabolism or intracellular heterogeneity of metabolic activities. 相似文献
7.
J.Larry Ludke 《Pesticide biochemistry and physiology》1977,7(1):28-33
Adult male Japanese quail (Coturnix coturnix) were exposed to DDE or chlordane in the diet and subsequently dosed with parathion or paraoxon. Pretreatment with 5 or 50 ppm DDE in the diet for 12 weeks resulted in increased cholinesterase (ChE) activity in plasma, but not in the brain. Dietary concentrations of 5 and 50 ppm DDE caused increased susceptibility of quail that were challenged with parathion or paraoxon. The increased mortality resulting from DDE pretreatment was reflected in brain ChE inhibition. The synergistic action of DDE was apparent after 3 days of exposure to 50 ppm DDE and 1 week of exposure to 5 ppm DDE. Birds exposed for 3 weeks to 5 or 50 ppm DDE retained their DDE-potentiated sensitivity to parathion after 2 weeks on clean diet. Chlordane pretreatment resulted in decreased susceptibility (antagonism) to parathion, but not to paraoxon dosage. Implications of differing responses in ChE and mortality among controls, DDE-, and chlordane-pretreated birds after parathion or paraoxon dosage are discussed. 相似文献
8.
The elevation of rat blood β-glucuronidase caused in vivo by O,O-dialkyl O-phenyl phosphates and phosphorothioates correlated well with the electron-withdrawing tendency (σ?) of leaving group substituents indicating the importance of a phosphorylation mechanism in the enzyme release. Hydrophobic bonding of these compounds may facilitate the phosphorylation since hydrophobicity (π) of substituents also correlated with the enzyme release. SKF 525-A decreased the elevation of β-glucuronidase by parathion through the suppression of paraoxon production. Pretreatment of rats with phenobarbital or DDE resulted in lower and delayed enzyme release caused by parathion. 相似文献
9.
Homogenates of three strains of Myzus persicae, A, R, and E, with an LD50 for topically applied parathion of 9, 93, and 263 ng per aphid, showed an in vitro hydrolytic degradation of paraoxon of 2.3, 4.7, and 8.6 pmol/mg aphid/h, respectively. These values represent Vmax; Km was <10?7M. The three strains showed a malaoxon degradation of 2.4, 11.9, and 18.8 pmol/mg/h at 10?6M substrate concentration. Vmax for R and E was 21 and 27 pmol, respectively and Km 7 and 4 × 10?7M. Activity in strain A was too low to estimate these entities. The breakdown product of paraoxon was mainly diethyl phosphoric acid, that of malaoxon mainly dimethyl phosphoric acid. No hydrolysis of the carboxylester groups of malaoxon was found. Hydrolysis of paraoxon and malaoxon was inhibited by isopropyl and n-propyl paraoxon and by the salioxon-analog K2. The two latter compounds were shown to act as synergists with parathion when added in amounts that caused little mortality when given alone. The hydrolytic enzyme is soluble and retains its activity during incubations of several hours. It is likely that it is responsible for at least part of the resistance. Resistance was maintained without selection over a period of three years. There was no correlation between degree of resistance and carboxylesterase activity of the strains. 相似文献
10.
The comparative ester hydrolysis and selective toxicity of carbamate insecticides were studied in four mammalian species. Hydrolysis rates of carbaryl and ethiofencarb (Croneton) were examined in the rat, mouse, guinea pig, and gerbil. Respiratory 14CO2 resulting from the hydrolysis of orally administered [carbonyl-14C]carbamates (0.2 mg/kg) was taken as measure of in vivo hydrolytic capabilities. Ester hydrolysis was found to be greater for ethiofencarb than for carbaryl in all species tested, although the relative order of hydrolysis among species was the same with both compounds. After 24 hr, gerbils had hydrolyzed 91% of the ethiofencarb and 65% of the carbaryl. Guinea pigs hydrolyzed somewhat less of the compounds, 65 and 58%, but considerably more than rats and mice, about 40 and 25%. Comparing hydrolysis capabilities to acute toxicity data revealed that those species exhibiting the greatest hydrolysis were equally or more susceptible to carbamate poisoning than those having lesser hydrolytic capabilities. While ester hydrolysis destroys the anticholinesterase activity of carbamates, it is clear from these findings that factors other than hydrolysis are largely responsible for the variation in toxicity of the carbamates to different mammalian species. 相似文献
11.
A suspension culture of isolated rat hepatocytes was used to reproduce in vitro the paraoxon-induced release of hepatic β-glucuronidase observed in vivo. After a short latent period, exposure of hepatocytes to paraoxon at 10?7 to 10?4M resulted in a typical dose-dependent response, with highest release occurring at 10?4M paraoxon. With 10?3M paraoxon, however, response was anomalous with a much-decreased enzyme release. As expected from earlier results in vivo, SV1-oxon exhibited less effect than paraoxon. 相似文献
12.
Glutathione-dependent degradation of parathion was studied in six strains of houseflies to find out whether it might be important as a cause of resistance. When supernatant fractions of high-speed centrifuged homogenates were fortified with glutathione and incubated with parathion, water-soluble products were formed. The rate of parathion detoxication was highest in a malathion-resistant strain (c. 4 μg parathion degraded per abdomen per hour), lowest in a susceptible strain, and intermediate in some other organophosphate-resistant strains. In one of the latter strains, E1, the gene for glutathione-dependent degradation is located on the second chromosome, closely linked with gene cm+. This is the same chromosome on which gene a for low ali-esterase activity and hydrolytic detoxication of paraoxon is located. It is not likely that the gene for glutathione-dependent degradation is identical with gene a, since it is also present in strain Nie which lacks gene a, and, therefore, the presence of a separate gene which is called gene g is postulated. 相似文献
13.
Howard H. Casper Jerome C. Pekas W.E. Dinusson 《Pesticide biochemistry and physiology》1973,2(4):391-396
The gastric absorption of [1-naphthyl-1-14C]N-methylcarbamate (radiolabeled carbaryl) administered intragastrically (7.5 μmoles/kg body wt) to fasted, anesthetized female rats was investigated by measurement of 14C absorption and by identification of the radiolabeled constituents in the portal blood. At 22 and 67 min after dosing, 52.6 ± 14.1% (n = 3) and 81.7 ± 15.7% (n = 3), respectively, of the 14C was absorbed from the stomachs (ligated pylori) of rats with intact portal circulation. In another experiment, 69.1 ± 25.9% (n = 3) of the 14C was absorbed from the rat stomachs (ligated pylorus and esophagus) during 66.0 ± 1.0 min of total portal blood collection (via an in vivo perfusion technique). The radiolabeled material in the collected portal blood accounted for 97.2 ± 1.9% (n = 3) of the 14C absorbed from rat stomachs. On the basis of thin-layer chromatography, gas chromatography, and infrared spectroscopy, 89.3% of the radiolabeled material in the collected portal blood was [1-naphthyl-1-14C]N-methylcarbamate. 相似文献
14.
Jrgen Stenersen 《Pest management science》1979,10(2):104-112
The earthworm, Eisenia foetida, eliminated parathion and carbofuran at first order rates when continually rinsed in water after treatment with the pesticides. This experiment was also carried out on Lumbricus rubellus for comparison. Carbofuran which is more soluble in water, was eliminated quicker than parathion. The later rate of elimination was very similar for the two species, but immediately after injection the rate was much higher in E. foetida. The metabolism of 1-ethyl14C labelled parathion and paraoxon (diethyl 4-nitrophenyl phosphate) was studied in E. foetida. The worm was able to convert parathion to paraoxon by a rather slow process although this metabolite could not be detected in the worms due to its rapid transformation to diethyl hydrogen phosphate. Indirectly, paraoxon can be postulated as a parathion metabolite because of a progressive depression of cholinesterase level observed after treatment with parathion. Small amounts of diethyl hydrogen phosphate were detected as a metabolite of parathion; this is also an indication of paraoxon formation. During the 30 h following injection of parathion, only 4.4% of the applied dose was recovered as water-soluble metabolites (2.8% in the worms and 1.6% in the sand surrounding them), while 52% was recovered as unmetabolised parathion. Because of inefficient injection, only 70-59% of the dose thought to be injected was recovered. Therefore the part of the actual applied dose that remained unmetabolised was probably even greater (88%). Five days after injection of parathion, 15 and 9.3 % of the recovered radioactivity in the surrounding sand and in the worm extracts, respectively, was identified as O,O-diethyl O-hydrogen phosphorothioate, 3.7 and 7.0% as diethyl hydrogen phosphate, 8.8 and 3.3% as O-ethyl O-4-nitrophenyl O-hydrogen phosphorothioate (desethylparathion) and/or O-4-aminophenyl O,O-diethyl phosphorothioate, while 70.3 and 80.4% was unmetabolised parathion. Paraoxon was very quickly hydrolysed to diethyl hydrogen phosphate in vivo and in vitro. The in-vitro hydrolysis was associated with a microsomal fraction and was not inhibited by ethylenediaminetetra-acetic acid or 4-(chloromercuri)benzoic acid, and incompletely by aldicarb. Cholinesterase and arylesterase were therefore excluded as enzymes responsible for the activity. 相似文献
15.
A microsomal malathion carboxylesterase present in Triatoma infestans eggs was active from the first day of embryonic development. This microsomal egg malathionase (MEM) showed a unique band in polyacrilamide gel electrophoresis (PAGE) when malathion was used as substrate. In vivo metabolism of [14C]malathion during all embryonic development showed a 10% degradation due to carboxylesterases. The in vitro evaluation of the same metabolic pathway catalyzed by the microsomal fraction of T. infestans eggs showed partial inhibition by paraoxon. α- and β-malathion monoacids were identified as the main metabolites of the in vivo and in vitro metabolic pathways. The carboxylesterase band that appeared in PAGE (MEM) from the first day of embryonic development could be the main cause of malathion tolerance in T. infestans eggs. 相似文献
16.
The metabolites isolated and purified from the excreta of the rats treated with [14C]photoheptachlor were analyzed by gc-mass spectrometry. Molecular structure of two of the major metabolites indicated that they were produced by hydroxylations at two different CCl bonds of photoheptachlor. One of these metabolites was conjugated with glucuronic acid, the other with an unknown compound. Hepatic origin of the products was shown by concordance of the in vitro and in vivo study. Most of the radioactivity in fat, skin, liver, kidney, and muscle tissues of male and female rats was organosoluble containing photoheptachlor and its nonpolar metabolites. 相似文献
17.
The prolonged use of dimethoate, introduced into Denmark to control houseflies (Musca domestica L.) that had become resistant to parathion and diazinon, resulted ultimately in dimethoate resistance. Selection with dimethoate led to the disappearance of the hydrolytic phosphatase, a major mechanism of resistance to parathion and diazinon, and its replacement by the acetylcholinesterase AChER with somewhat decreased sensitivity to inhibition by organophosphorus (OP) insecticides. The hydrolytic phosphatase probably disappeared because low substrate turn-over made it ineffective against dimethoxon (O, O-dimethyl S-methylcarbamoylmethyl phosphorothioate, also known as omethoate). which accumulates at higher concentrations than paraoxon (diethyl4-nitrophenyl phosphate) in the haemolymph. Dimethoate selected AChER preferentially because it improved the chances of houseflies surviving against the relatively poor AChE inhibitor dimethoxon, whereas its relatively small insensitivity to OP insecticides, unimportant against good inhibitors such as paraoxon, prevented its selection by parathion. 相似文献
18.
K.D. Rainsford 《Pesticide biochemistry and physiology》1978,8(3):302-316
The toxicity in the brain of several parathion, fenthion, and fensulfothion insecticides and their toxic metabolites was determined by a technique of directly injecting the compounds into the region of the third ventricle of conscious mice, an area rich in cholinesterase activity. The results were compared on a body weight basis to the toxicity of these compounds when given by ip and oral routes. The results show that there is a direct relationship between the relative inhibition of cholinesterase activity in the brain by the organophosphates (e.g., methyl paraoxon, Sumioxon, and some members of the fenthion series) and the toxicity of these compounds in the brain. Methyl paraoxon and Sumioxon were found to be very toxic in the brain, Sumioxon being three to four times less toxic than methyl paraoxon. This is of the same order of effect of these compounds in inhibiting cholinesterases. It is concluded that any selective effects of Sumithion compared with methyl parathion must be due to the greater rate of metabolism of Sumithion to less toxic metabolites as well as to the lower toxicity of the oxon metabolite and not due to the relative rates of penetration of the toxic oxygen metabolites as previously suggested [J. Miyamoto, Agr. Biol. Chem.28, 422 (1964)]. A gas-liquid chromatographic method was employed to assess the distribution in the brain following intracerebral injection of the parathion-type compounds. The results suggest that there may be intracerebral metabolism of thionophosphates in vivo. 相似文献
19.
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. 相似文献
20.
R.E. Wilkinson 《Pesticide biochemistry and physiology》1981,16(3):199-205
[2-14C]Mevalonic acid incorporation into gibberellic acid precursors was measured in cell-free extracts from sorghum [Sorghum bicolor (L.) Moench var. G-522 DR] coleoptiles. 14C incorporation into ent-kaur-16-ene was inhibited ca. 90% by 10?7 to 10?4M metolachlor [2-chloro-N-(2-ethyl-6-methylphenyl)-N-(2-methoxy-1-methylethyl)acetamide]. [14C]Geranylgeraniol (GG) content increased. [14C]Farnesol content was not altered and [14C]geraniol content decreased. Total 14C incorporation was decreased by metolachlor. In the safener [α-(cyanomethoximino)benacetonitrile]-treated sorghum seed coleoptile cell-free system, total 14C incorporation increased, [14C]kaurene and relative kaurence content increased 4× up to 105M metolachlor, and [14C]farnesol, and [14C]GG contents increased while relative farnesol and relative GG contents were not influenced by metolachlor. Thus, the inhibition of kaurene synthesis by metolachlor was reversed by the safener. Since the biosynthetic processes are mevalonic acid → geraniol → farnesol → GG → copalylol → kaurene, these data corroborate a proposed gibberellic acid biosynthesis inhibition between GG and kaurene as well as a partial blockage between mevalonic acid and geraniol. Thus, a portion of metolachlor-induced growth inhibitions of sorghum could be explicable on the basis of gibberellic acid biosynthesis inhibitions. 相似文献