首页 | 本学科首页   官方微博 | 高级检索  
相似文献
 共查询到20条相似文献,搜索用时 15 毫秒
1.
A water-soluble Mg2+-dependent ATPase (coupling factor F1) was isolated from the mitochondria of housefly thorax. It comprised about 14% of the proteins from a crude preparation. The F1 preparation was nearly homogeneous as assessed by gel electrophoresis, isoelectric focusing, and electron microscopy. It was composed of five subunits with the following apparent molecular weights: α, 68,000; β, 61,000; γ, 38,000; δ, 27,000; and ?, 17,500. The isoelectric pH (pI) of this protein was 7.3. F1 had a pH optimum of 8.2 and a temperature optimum between 37 and 45°C. The enzyme was fairly stable at 25°C. Nearly complete loss of activity was noticed at 0°C, while at 0 or 25°C, glycerol (20%) partially stabilized the enzyme activity against such inactivation. The Km value of the enzyme with respect to ATP was 0.4 mM. The activity was stimulated by low concentrations of 2,4-dinitrophenol. The enzyme was inhibited by azide, p-hydroxymercuribenzoate, and guanidine hydrochloride. Oligomycin and the pesticides pyrethrin, cyhexatin, and DDT have no effect on the enzyme activity. However, all of these chemicals inhibited intact Mg2+- ATPase. The results are discussed in the light of differential responses of soluble and intact ATPase to these pesticides.  相似文献   

2.
DDT inhibits the ATPase activity of the intact eel electroplaque. At a concentration of 10?5M, DDT inhibited 46% of the total ATPase activity, and 10?4M DDT inhibited 62% of the total ATPase activity and 62% of the ouabain-sensitive ATPase activity. The latter concentration of DDT reduced the rate of Na efflux from intact electroplaques and slowed the rate of recovery of the membrane potential following a large depolarization produced by carbamylcholine application. Repetitive direct stimulation of the innervated membrane at 10 Hz during the application of 10?4M DDT produced a significant irreversible depolarization. Ouabain, 10?4M, produced similar effects. The possible role of the inhibition of active NaK transport in producing the symptoms of DDT poisoning is discussed.  相似文献   

3.
Effects of DDT (1,1,1-trichloro-2,2-bis-(p-chlorophenyl) ethane) on various ATP utilizing enzymes in the lobster peripheral nerve were studied. On the basis of inhibition by ouabain and DDT, four classes of ATPase enzymes were recognized. They are: (1) ATPase activity that is sensitive to both ouabain and DDT inhibition, or Type A, (2) ATPase activity that is sensitive to DDT inhibition only, or Type B, (3) ATPase activity that is sensitive to ouabain only, and (4) ATPase activity that is not sensitive to either ouabain or DDT. The Type A ATPase is considered to be a part of the total (Na+K+) ATPase enzyme associated with the electrogenic pump. The Type B ATPase consisted of an uncharacterized Na+, K+, and Mg2+ stimulated ATPase and includes also a small portion of Mg2+ stimulated ATPase. Ca2+ stimulated ATPase activity was also detected but was not significantly affected by DDT. Proteins with actomyosin-like properties were also recognized to be present, though this superprecipitation process was only slightly affected by DDT.Other systems studied include the transfer of (γ-32P) ATP to endogenous proteins and added histone in the presence and absence of c-AMP. DDT generally stimulated the process of 32P incorporation, while it inhibited a portion of the specific c-AMP dependent protein kinase activity.It was concluded from these studies that DDT has a potential to inhibit or otherwise interfere with a variety of enzymatic reactions that utilize ATP as a substrate. Of these systems, the Type B ATPase bore overall resemblance to the possible target for DDT.  相似文献   

4.
Earlier communications from this laboratory have shown that DDT inhibited oligomycin-sensitive Mg2+-ATPase (EC 3.6.1.3) but that its active component, F1, was not affected. In the present investigation evidence has been obtained to determine the nature of the requirements for DDT sensitivity. The results showed that DDT sensitivity was conferred to F1 from pig heart mitochondrial preparations when it was bound to F0 from the same preparation. The F1 from house fly (Musca domestica L) thorax was able to bind to F0 from pig heart. This combination showed similar sensitivity to that of the original F1-F0 combination from pig heart mitochondria. However, when F1 from pig heart mitochondria was incorporated into F0 depleted in oligomycin sensitivity-conferring protein (OSCP) from the same source, the resulting ATPase activity was insensitive to DDT. Addition of crude (50–200 μg) or purified (5–20 μg) OSCP in the above preparation restored DDT sensitivity. Presence of dioleyl or dipalmitoyl phosphatidyl choline or Triton X-100 in the reaction medium antagonized the DDT inhibitions. Depletion of phospholipids from submitochondrial membrane preparations (SMP) decreased ATPase activity. Addition of dioleyl or soybean phosphatidyl choline to this lipid-depleted preparation restored DDT sensitivity. Evidence presented suggests that DDT acted on F1 in association with one or more membrane components and that OSCP and phospholipid were essential for DDT sensitivity.  相似文献   

5.
The effect of DDT analogs and estradiol-17β on uterine ornithine decarboxylase activity in the immature intact and ovariectomized rat was studied. Pretreatment with various doses of o,p′DDT [1-(o-chlorophenyl)-1-(p-chlorophenyl)-2,2,2-trichloroethane] or estradiol-17β caused a marked increase in the specific activity of ornithine decarboxylase in the 20,000g supernatant fraction of uterine homogenates but not in liver homogenates. Doses as low as 0.5 mg of o,p′DDT or 0.002 μg of estradiol-17β stimulated uterine ornithine decarboxylase activity in the ovariectomized rat. The peaks of activity after treatment with o,p′ DDT and estradiol-17β occurred at 6 and 5 hr, respectively. The level of ornithine decarboxylase activity in untreated groups was consistently lower in ovariectomized rats than in intact immature animals. Treatment with o,p′ DDT (10 mg/100 g body weight) of ovariectomized and intact immature rats demonstrated at 131-fold and an about 20-fold increase in uterine ornithine decarboxylase activity, respectively. Treatment of ovariectomized rats with cycloheximide or actinomycin D effectively blocked the increase in ornithine decarboxylase caused by o,p′ DDT. Similar results were obtained with cycloheximide in the intact immature rat. Animals subjected to both adrenalectomy and ovariectomy demonstrated an increase in ornithine decarboxylase activity when treated with either estradiol-17β or o,p′ DDT. Dose-response curves obtained for estradiol-17β and o,p′ DDT suggest a similar mechanism of action for the two compounds. Graphic analysis of the dose-response curves for estradiol-17β and o,p′ DDT demonstrated an ED50 of 0.038 μg/100 g body weight and 1.8 mg/100 g body weight, respectively. The examination of various DDT analogs in intact and ovariectomized animals showed that o,p′ DDT was the most potent inducer of ornithine decarboxylase. The order of decreasing potency of DDT analogs was o,p′ DDT, o,p′ DDD. p,p′ DDT, p,p′ DDD, and p,p′ DDE.  相似文献   

6.
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   

7.
Analogues of DDT (ethoxymethyl and methoxymethio derivatives) compared with DDT for their inhibitory action on the ATPase system from tissues of the cockroach, Periplaneta americana show similar, but less inhibitory effects. The mitochondrial (oligomycin-sensitive) Mg2+ ATPase activity from coxal muscle preparations was more sensitive to DDT than the two analogues; whereas, the muscle and nerve cord homogenates showed about equal sensitivity to the biodegradable analogues. The mitochondrial Mg2+ ATPase from nerve cord preparation was more sensitive to the three compounds than the Na+K+ ATPase activity. The significance of these results in relation to recent reports on the effect of DDT on Na+K+ ATPase is discussed.  相似文献   

8.
A Ca-ATPase highly sensitive to DDT has been found in peripheral nerves of lobster, Homarus americanus. The observed I50 for this Ca-ATPase toward DDT is on the order of 10?9M and has a low temperature quotien. The ATPase seems to work over a wide range of ATP concentrations. It is stimulated by Ca2+ (optimum 0.1 mM) and shows sensitivity to Na+ (optimum 20 mM) and K+ (optimum 20 mM) ions. The fact that it is highly sensitive to ruthenium red (I50 = 10 μM) suggests that the enzyme is a Ca-ATPase and not a Mg-ATPase. Furthermore the enzyme is not a CaMg-ATPase, since the presence of Mg2+ along with Ca2+ ion is not required for its activity. DDT is found to inhibit the process of Ca2+ binding in the axonic membrane only in the presence of ATP. The evidence suggests the important role of the Ca-ATPase in regulating Ca2+ concentrations in the membrane. The possible significance of DDT inhibition of the ATPase is discussed.  相似文献   

9.
The ability of o,p′DDT to bind to the 8S moiety in the uterine cytosol or to interfere with the binding of 3H-estradiol-17β (3H-E2) to that binding component was investigated utilizing a 10–30% sucrose gradient sedimentation analysis. Attempts to demonstrate the binding of radiolabeled o,p′DDT to the 8S receptor in the mouse and rabbit were not successful, presumably due to the relatively low specific activity of the radiolabeled o,p′DDT, however, binding to the “nonspecific” 4S site(s) was detected. On the other hand, the addition of nonlabeled o,p′DDT inhibited the binding of 3H-E2 to the 8S receptor. Thus, o,p′DDT (2 μM) suppressed by 58% the binding of 3H-E2 (2 nM) in the 8S region in ovariectomized adult mice. Similarly, in immature rats three concentrations of o,p′DDT (16, 32, and 96 μM) inhibited by 39.5, 52.9, and 59.7% respectively, the binding of 3H-E2 (2.8 nM). Similar results were obtained with uterine preparations from mature rats. However, the suppression of binding of 3H-E2 in the 8S region resulted in an increased binding in the 3–4S region.A Scatchard plot analysis of the binding of 3H-E2 in the presence of o,p′DDT revealed the same number of binding sites as in the absence of o,p′DDT, indicating that o,p′DDT did not “destroy” the binding capacity. Also, this analysis revealed that o,p′DDT merely caused a decrease in the ratio of the bound to free E2, indicating that o,p′DDT binds to the receptor and thus interferes with E2 binding.In addition, our observations that the administration of o,p′DDT to immature female rats causes a marked increase in the levels of the uterine nuclear binding sites (nuclear estogren receptor) is a further indication that o,p′DDT acts as a typical estrogenic compound. However, whether o,p′DDT has antiestrogenic activity as well has not been established.  相似文献   

10.
Flavonoids (morin, quercetin and phloroglucinol) were tested for their ability to modulate the function of P-glycoprotein ATPase of the insecticide resistant pest Helicoverpa armigera (Ha-Pgp). Flavonoids in the presence of ethylparaoxon or cypermethrin significantly reduced both larval weight as well as survival rate 40-50%. Morin and quercetin inhibited the activity of Ha-Pgp ATPase by 80-90%, whereas phloroglucinol inhibited ATPase activity by 40% at 100 μM concentration. These flavonoids inhibited the verapamil, ethylparaoxon and cypermethrin-stimulated Ha-Pgp ATPase activity. Morin, quercetin and phloroglucinol binding were quantitated by quenching of the intrinsic Trp fluorescence of purified Ha-Pgp ATPase. Drug transport was monitored in proteoliposomes containing Ha-Pgp ATPase using the high affinity fluorescent substrate tetramethylrosamine (TMR) in real time. Addition of the morin and quercetin mediated the collapse of the TMR concentration gradient generated by Ha-Pgp ATPase. The inhibition studies on Ha-Pgp ATPase activity may contribute towards understanding new strategies of the pest to overcome insecticide resistance.  相似文献   

11.
Antibody molecules were produced by injection of BSA-Kelevan into chickens and rabbits. Pure antibody was obtained by a single pass of blood serum through an affinity column. The affinity gel was prepared by covalently binding BGG-Kelevan to activated Sepharose 4B-CN. Purity of the antibody was determined by ultracentrifugation and gel electrophoresis. Properties of the antibody included: sedimentation coefficient = 6.2, pI = 7.0, calculated MW = 150,000, and precipitin band formation using the microouchterlony test. The antibodies in free or immobilized form were able to prevent or reverse Kepone inhibition of ATPase activity from a variety of tissues from different sources. About 70 μg (approx 0.4 μM) of purified antibody was sufficient to restore the activity of mitochondrial (oligomycin-sensitive) Mg2+ ATPase activity which had been inhibited (in vitro) by 1 μM Kepone. The antibody was effective in preventing enzyme inhibition by other organochlorine pesticides with widely differing molecular structures. However, nonchlorinated inhibitors of mitochondrial oligomycin-sensitive Mg2+ ATPase activity were much less affected by the antibody. The available evidence suggests that the antibody binding site for the hapten may be specific for secondary or induced bonding forces due to the carbon-chlorine bonds rather than for a specific molecular structure.  相似文献   

12.
The DDT-resistant housefly strain, Fe, known to resist DDT by biochemical oxidation, is also resistant to carbamate insecticides and has a high in vitro microsomal epoxidase activity. The purpose of this investigation was to determine whether the DDT resistance, associated with chromosome V, is also responsible for the resistance to carbamates and for the high epoxidase levels. Genetic procedures for segregating the R factors were employed using a multimarker insecticide susceptible strain designated acbco. The technique involved backcrossing the F1 hybrid of the resistant and susceptible parents to the susceptible parent. The genotypes with a single R chromosome from the Fc parent were retained for further development as substrains and for toxicological and biochemical studies.These studies revealed that both resistance to the carbamate insecticide, propoxur, and the high in vitro microsomal epoxidation of aldrin were lost during the genetic isolation of the R factors. However, the resistance to DDT, associated with chromosome V, was present in the substrain carrying this chromosome from the Fc parent. All of the substrains were induced five- to seven-fold, by feeding phenobarbital at 1% in the diet for 3 days.Additional substrains synthesized from the substrains carrying chromosomes II and V or III and V from the Fc parent did not possess sufficient propoxur resistance or aldrin epoxidase activity to account for that present in the R parent.The interpretation of these rseults is that neither the carbamate resistance nor the microsomal epoxidase of the Fc strain is due to the factor which oxidizes DDT. Furthermore, the factor responsible for the high microsomal epoxidase activity is not due to a single chromosome such as chromosome II which is the case in other housefly strains with high oxidase activities.  相似文献   

13.
Oligomycin-sensitive (O-S) Mg2+ ATPase from American cockroach muscle was more sensitive to DDT, TDE, methoxychlor, and DDE at cool temperatures than at warm temperature, thus showing a negative temperature effect. In contrast, inhibition by acaricides dicofol, chlorfenethol, and Plictran shows a positive temperature effect. Oxidative phosphorylation in a mitochondrial preparation from cockroach coxal muscle was reduced by DDT, but the reduction was greater at a higher temperature (32°C) than at a cooler temperature (22°C). In addition, Na+K+ ATPase from cockroach nerve cord showed a positive temperature effect with DDT. The inhibition by DDT was much less on Na+K+ ATPase than on O-S Mg2+ ATPase. The negative temperature effect by DDT and analogs on O-S Mg2+ ATPase parallels toxicity effects on insects and fish as reported by numerous researchers. The results provide further evidence for this energy-regulating enzyme being a critical component in the biological action of DDT.  相似文献   

14.
Resistance to 4,4′-dichlorodiphenyltrichloroethane (DDT) in the 91-R strain of Drosophila melanogaster is extremely high compared to the susceptible Canton-S strain (>1500 times). In addition to enhanced oxidative detoxification, the 91-R strain also has a reduced rate of DDT penetration, increased levels of reductive and conjugative metabolism, and substantially more excretion than the Canton-S strain. Contact penetration of DDT was ∼30% less with 91-R flies, which also had significantly more cuticular hydrocarbons and a thicker, more laminated cuticle compared to Canton-S flies, possibly resulting in penetration differences. DDT was metabolized ∼1.6-fold more extensively by 91-R than Canton-S flies, resulting in dichlorodiphenyldichloroethane (DDD), two unidentified metabolites and polar conjugates being formed in significantly greater amounts. 91-R flies also excreted ∼4-fold more DDT and metabolites than Canton-S flies. Verapamil pretreatment reduced the LD50 value for 91-R flies topically dosed with DDT by a factor of 10-fold, indicating that the increased excretion may involve, in part, ATP-binding cassette (ABC) transporters. In summary, DDT resistance in 91-R is polyfactorial and includes reduced penetration, increased detoxification and direct excretion.  相似文献   

15.
Intact mitochondria, isolated from red coxal muscle of the American cockroach (Periplaneta americana L.), were incubated in the presence of 1,1,1-trichloro-2,2-bis(4-chloro[14C]phenyl)ethane ([14C]DDT) to isolate a suspected binding site for DDT in the membrane sector of the mitochondrial ATPase. The requirements for the binding of DDT were compared with those for the binding of dicyclohexyl[14C]carbodi-imide([14C]DCCD), a potent inhibitory probe of mitochondrial ATPase activity. [14C]DDT appeared to bind to a proteolipid of the membrane sector, which also binds [14C]DCCD. Exchange experiments, with [14C]DCCD, [14C]DDT and unlabelled DDT at different concentrations, indicated that DDT and DCCD may be acting on a similar protein. This protein may act as the energy transducing protonophore required for the synthesis and hydrolysis of ATP in coupled mitochondria. Inhibition of mitochondrial ATPase activity may be a consequence of DDT and DCCD binding to this proteolipid protonophore, resulting in the disruption of energy transduction in muscle and nerve.  相似文献   

16.
The mode of action of DDT and pyrethroids was investigated in the house fly, Musca domestica L, using drug:receptor binding techniques. Both in vivo and in vitro binding studies demonstrated the existence of membrane receptors which bind specifically to [14C]DDT and [14C]cis-permethrin. The receptors show properties to be expected of a critical target site of these insecticides. These include negative temperature correlation with binding, relatively nonsensitivity to DDE, and sensitivity to Ca2+. The receptor sites are readily saturated at 45–90 nM [14C]DDT and have an apparent disassociation constant (Kd) of 12.2 nM. The maximum number of binding sites was estimated to be 17 pmol DDT/mg membrane protein (0.34 pmol/house fly head). Competition studies showed DDT, cis-permethrin, and cypermethrin bind to the same receptor but not at precisely the same site. The addition of Ca2+ to the incubation buffer significantly inhibited the binding of both [14C]DDT and [14C]cis-permethrin, suggesting the receptor binding is Ca2+ sensitive and may have a role in ion conductance.  相似文献   

17.
Glutathione S-transferases from two strains of house fly have been prepared in a high degree of homogeneity by a procedure involving affinity chromatography and isoelectrofocusing. They fall into two groups in each strain. One group, of isoelectric point greater than pH 6.5, catalyzes the glutathione-dependent degradation of lindane, diazinon and methyl parathion. The other group, of low isoelectric point, has conjugating activity with the model substrate CDNB, but very little activity with the insecticide substrates. In the Cornell R strain the three isoenzyme forms in the high pI group appear to be almost identical in their substrate specificities. In the A strain, it is apparent that the enzyme forms falling into this group vary markedly in substrate specificity. The dehydrochlorination of DDT paralleled very closely the conjugation of the other insecticides catalyzed by the three high pI enzymes in the Cornell R strain. In the A strain, DDT dehydrochlorinase was most strongly associated with a glutathione S-transferase isoelectric at pH 7.1. It is tentatively concluded that multiple genes are involved in the production of the glutathione S-transferases involved in pesticide metabolism in the house fly and that DDT dehydrochlorinase may be derived from some, but not all, of these same genes.  相似文献   

18.
The action of insecticides on the spontaneous electrical activity of neurohemal tissue in the stick insect, Carausius morosus, has been studied using extracellular electrodes. The pyrethroid, permethrin, causes a massive increase in the frequency of the spontaneously generated action potentials at concentrations between 5 × 10?5 and 5 × 10?8M. Concentrations as low as 5 × 10?11M are still effective in producing bursting activity.DDT, at concentrations between 5 × 10?5M and 5 × 10?6M, produces an overall increase in activity although the bursting activity is less violent than that shown with permethrin. DDT, 5 × 10?7M, is ineffective at altering the resting pattern.Carbaryl and coroxon cause a transitory increase in electrical activity at 1 × 10?4M, but are ineffective at 1 × 10?5M.It is concluded that insecticides could have a direct effect upon the neurohormonal balance in insects.  相似文献   

19.
The effect of DDT (2,2-bis-(p-chlorophenyl)-1,1,1-trichloroethane) on carbon assimilation of a green alga, Selanastrum capricormutum was studied. DDT at concentrations between 3.6 and 36 ppb was inhibitory to the photosynthetic CO2 fixation (ethanol-soluble and/or ethanol-insoluble) and the longer the exposure to DDT, the greater the inhibition. Kinetic studies of photosynthetic CO2 fixation indicated that DDT stimulated the incorporation of carbon-14 into glycolic acid, a major compound of photorespiration and caused the concomittant suppression of flow of carbon-14 into aspartic acid, a major component of the C4-dicarboxylic acid pathway. The shift from an efficient pathway into a nonefficient pathway by DDT was interpreted to be through interruption of cyclic photophosphorylation.  相似文献   

20.
Isolated spinach (Spinacia oleracea L.) chloroplasts contain a Mg+2-dependent ATPase that is activated by light in the presence of dithiothreitol (DTT) and phenazine methosulfate (PMS). Effects of 11 herbicides, known to affect photophosphorylation in isolated chloroplasts, were measured on ATPase activity when added prior to illumination, on the postillumination dark activity of the ATPase, and on the light-induced synthesis of ATP mediated by DTT and PMS.When added prior to illumination, activity of the ATPase was stimulated by low, and inhibited by high, molar concentrations of chlorpropham, dicryl, dinoseb, ioxynil, oryzalin, perfluidone, propanil, and 4,6,7-trichloro-2-(trifluoromethyl)benzimidazole (TCTFB). The light activation of the ATPase was not affected by diuron, bromacil, or atrazine. Perfluidone, dinoseb, ioxynil, and TCTFB stimulated, whereas chlorpropham, dicryl, oryzalin, propanil, atrazine, bromacil, and diuron had no effect on postillumination hydrolytic activity. The light-induced synthesis of ATP mediated by DTT and PMS was inhibited strongly by chlorpropham, dicryl, dinoseb, ioxynil, oryzalin, perfluidone, propanil, and TCTFB.Because the ATPase reactions are considered to represent the reversal of the terminal reactions of photophosphorylation, inhibition of these reactions implies that the compounds tested, except for diuron, atrazine, and bromacil, have a site of action on the ATP-generating pathway that is separate from the site involved in the inhibition of the Hill reaction.  相似文献   

设为首页 | 免责声明 | 关于勤云 | 加入收藏

Copyright©北京勤云科技发展有限公司  京ICP备09084417号