The effect of paraquat on the peroxide metabolism enzymes in erythrocytes of freshwater fish species

The toxic effects of 10 ppm paraquat in vivo on the enzymes superoxide dismutase (SOD), catalase (C), peroxidase (P), glutathione peroxidase (GSH-Px) and on lipid peroxidation (LP) were estimated in erythrocytes of the carp, the tench and the crucian carp. Paraquat caused activity enhancement of the peroxide metabolism enzymes and increase of the lipid peroxidation in the carp and the crucian carp. The enzyme activities and lipid peroxidation were dependent on the species and on the length of the exposure to paraquat.     

Glutathione-dependent enzymes alone can produce paraquat resistance

HL60 cells exposed to increasing paraquat concentrations were screened for clones without increased superoxide dismutase activities in an effort to examine cytotoxic events occurring after superoxide production. The resulting resistance to paraquat was not associated with alterations in paraquat uptake, catalase, or NADPH-P450 reductase activity, but to alterations in glutathione-dependent enzyme activities. While increases in glutathione-dependent enzymes upon exposure to paraquat have been reported, the increases were considered a secondary response to increases in superoxide dismutase activities. Our results demonstrate that glutathione-dependent enzymes alone provide protection against paraquat toxicity, and their increase upon exposure to paraquat can be independent of the response of superoxide dismutases. This supports a previous finding that cells resistant to Adriamycin, based on elevated glutathione peroxidase and transferase activities are also cross-resistant to paraquat. Unlike this previous report, the increase in glutathione peroxidase was not a persistent genetic event, as activities returned to normal upon removal of paraquat. An isolated increase in glutathione peroxidase without accompanying increases in superoxide dismutases was a rare event, as nearly all clones examined after exposure to paraquat had increased superoxide dismutase.     

Protective Effects of Chlorogenic Acid on Paraquat-induced Oxidative Stress in Rats

The protective effects of chlorogenic acid on paraquat-induced oxidative stress were examined in rats. The activities of erythrocytes and liver glutathione peroxidase, and of both liver catalase and glutathione reductase, which were increased by feeding paraquat, declined to the levels in the control rats by supplementing chlorogenic acid to the paraquat diet. The activity of superoxide dismutase was not changed by dietary paraquat or by supplementing chlorogenic acid to the paraquat diet. Paraquat in the diet markedly decreased the liver triacylglycerol and phospholipid concentrations, as well as the food intake and body weight gain, while chlorogenic acid protected against these decreases. These in vivo results and the in vitro superoxide anion scavenging activity of chlorogenic acid suggest that chlorogenic acid acted preventively against paraquat-induced oxidative stress.     

Assessment of paraquat genotoxicity on barley (Hordeum vulgare L.) seedlings using molecular and biochemical parameters

The effects of exposure of barley seedlings to different concentration (10^?6 to 10^?3 mol/l) of paraquat on seed germination, root length, antioxidant enzyme activities and randomly amplified polymorphic DNA (RAPD) profiles were investigated. The results revealed that malondialdehyde content significantly increased by exposing paraquat in a concentration-dependent manner (p < 0.05). A significant increase in peroxidase and catalase activities in seedlings was observed with increased concentration of paraquat, and then decreased when the value reached 10^?3 mol/l, whereas the activities of superoxide dismutase gradually increased with increasing paraquat concentration. Germination and root elongation also decreased with the increase of paraquat concentration. On the other hand, alterations of DNA in barley seedlings were detected using RAPD technique. The changes occurring in RAPD profiles of seedlings following paraquat treatment included loss of bands found in DNA of control seedlings and appearance of new bands. The results of this study showed that paraquat induced DNA damage in a dose-dependent manner and the root cells of barley showed a defense against paraquat-induced oxidative stress by enhancing their antioxidant activities.     

Production in Large Quantities of Actinorhodin and Undecyl-prodigiosin Induced by afsB in Streptomyces lividans

Paraquat inhibited the acetylcholinesterase activity of human erythrocytes and electric organs of Electrophorus electricus. The inhibition of acetylcholinesterase activity was reversible, as shown from the following two experimental results: [I] The degree of inhibition was not affected by changing the preincubation time of the enzyme and paraquat before the addition of the substrate. [II] The enzyme, preincubated with paraquat and subsequently freed from inhibitor by gel filtration on Sephadex G-25, showed the same activity as the untreated enzyme. Paraquat gave effective protection against the inhibition by an irreversible anionic site inhibitor, dibenamine, but not by irreversible esteratic site inhibitors, dichlorvos and methanesulfonyl chloride. These results indicate that paraquat functions as a reversible inhibitor for the anionic site. The inhibitory powers and Hill coefficients of paraquat and diquat were compared with the other quaternary ammonium compounds. Although secondary to edrophonium, paraquat strongly inhibited acetylcholinesterases of human erythrocytes and electric eel, and showed higher inhibition selectivity for both acetylcholinesterases than for human plasma butyrylcholinesterase. The Hill coefficients concerning the interaction of paraquat with acetylcholinesterases of human erythrocytes and electric eel were given as 0.83 and 0.73, respectively. This indicates negative cooperativity between these enzymes and paraquat, which is similar to the case with d-tubocurarine. On the other hand, diquat showed weak inhibitory power and low inhibition selectivity, and its Hill coefficients were almost 1.0, indicating a competitive inhibition mode.     

Hemolysis of human erythrocytes by paraquat in relation to superoxide dismutase activity.

Paraquat, a widely used herbicide, induced hemolysis of human erythrocytes in hypotonic saline solution. The degree of hemolysis depended on the intracellular superoxide dismutase level. Erythrocytes with higher enzyme activity were more sensitive to paraquat and those depleted of superoxide dismutase by diethyldithiocarbamate were more resistant. This apparent paradox was interpreted to be due to a rapid turnover of the enzymic dismutation reaction with a resultant increase in the generation of the reactive species responsible for hemolysis. Studies with various scavengers suggested that the hemolytic agent is singlet oxygen. No definite evidence for lipid peroxidation could be demonstrated in erythrocytes exposed to paraquat.     

Genotoxicity of paraquat: micronuclei induced in bone marrow and peripheral blood are inhibited by melatonin

The ability of melatonin to influence paraquat-induced genotoxicity was tested using micronucleated polychromatic erythrocytes as an index of damage in both bone marrow and peripheral blood cells of mice. Melatonin (10 mg/kg) or an equal volume of saline were administered intraperitoneally (ip) to mice 30 min prior to an ip injection of paraquat (20 mg/kgx2), and thereafter at 6-h intervals until the conclusion of the study (72 h). The number of the micronucleated polychromatic erythrocytes increased after paraquat administration both in peripheral blood and bone marrow cells. Melatonin administration to paraquat-treated mice significantly reduced micronuclei formation in both peripheral blood and bone marrow cells; these differences were apparent at 24, 48 and 72 h after paraquat administration. The induction of micronuclei was time-dependent with peak values occurring at 24 and 48 h. The reduction in paraquat-related genotoxicity by melatonin is likely due in part to the antioxidant activity of the indole. We did not observe effects of melatonin over paraquat in paraquat+melatonin groups incubated at 0, 60 and 120 min. Mitomycin C, which was used as a positive control, also caused the expected large rises in micronuclei in both bone marrow and peripheral blood cells at 24, 48 and 72 h after its administration.     

Paraquat toxicity and pyridine nucleotide coenzyme synthesis: a data correction

The decrease in pyridine nucleotide coenzymes which occurs during poisoning of Escherichia coli by hyperbaric oxygen or paraquat is not due to impairment of nicotinatemononucleotide pyrophosphorylase (carboxylating) [EC 2.4.2.19] as was previously proposed (Brown, O.R. et al. Biochem. Biophys. Res. Commun. 91:982-990; 1979). This was shown directly using extracts of E. coli, prepared after exposure to 1 mM paraquat or 4.2 atmospheres of oxygen. The enzyme also was not impaired in Neurospora crassa by 1 mM paraquat. A naturally-occurring, non-dialyzable inhibitor of the enzyme was found in E. coli extracts. The inhibitor caused the erroneous, low nicotinatemononucleotide pyrophosphorylase (carboxylating) activities previously reported in extracts of E. coli poisoned by paraquat.     

The Effect of Free Radicals Induced by Paraquat and Copper on the In Vitro Development of Plasmodium falciparum

The role of transition metals in paraquat toxicity was studied in cultures of Plasmodium falciparum. We showed that addition of copper led to an enhancement of the plasmodium killing, whereas addition of chelating agents. such as desferrioxamine and diethylenetriamine pentaacetic acid markedly reduced the toxic effects. Parsitized G6PD deficient erythrocytes were more sensitive than parasitized normal eryth-rocytes to copper and to the combination of copper and paraquat.     

The Effect of Free Radicals Induced by Paraquat and Copper on the In Vitro Development of Plasmodium falciparum

The role of transition metals in paraquat toxicity was studied in cultures of Plasmodium falciparum. We showed that addition of copper led to an enhancement of the plasmodium killing, whereas addition of chelating agents. such as desferrioxamine and diethylenetriamine pentaacetic acid markedly reduced the toxic effects. Parsitized G6PD deficient erythrocytes were more sensitive than parasitized normal eryth-rocytes to copper and to the combination of copper and paraquat.     

Paclobutrazol Protects Wheat Seedlings from Heat and Paraquat Injury. Is Detoxification of Active Oxygen Involved?

Paclobutrazol (PBZ), a member of the triazole family, protectedwheat (Triticum aestivum L.) seedlings from injury due to heat(50°C for 2.5 h) and paraquat (2 mM). Both stresses inducedphotoinhibition, loss of fresh weight and membrane integrity,suggesting the possible involvement of toxic oxygen species.This study tested the hypothesis that PBZ-induced protectionfrom stress is in part mediated by enhanced detoxification ofactive oxygen. The results support this hypothesis since PBZstimulated a 16, 32 and 21% increase in the activities of superoxidedismutase, ascorbate peroxidase (AP), and glutathione reductase(GR), on a fresh weight basis. The increased activities of APand GR were maintained to a higher degree than their correspondingcontrols after exposure to both heat and paraquat stress. Ascorbateand glutathione pools were l4 and 8% higher respectively inthe PBZ-treated wheat than in the controls. Within the cytoplasm,PBZ increased the activities of catalase (45%) and guaiacolperoxidase (29%) on a fresh weight basis and these higher activities,over the controls, were conserved after stress. It is suggestedthat the damage caused by two different stresses, heat and paraquat,is in part due to increased generation of active oxygen andthat PBZ protects plants by maintaining increased antioxidantenzyme activity. (Received May 10, 1993; Accepted October 29, 1993)     

硫化氢在急性百草枯中毒致大鼠肺损伤中的作用

目的阐明百草枯中毒致大鼠肺损伤时机体内源性H2S的变化,探讨硫化氢在急性百草枯中毒致大鼠肺损伤中的作用。方法按时间点将50只大鼠分为5组,同时染毒;选择对应时间点50只大鼠为对照组。分组检测肺组织中内源性H2S的含量,并及时处死大鼠,行肺组织损伤病理学评分。另外取大鼠40只分为4组,即空白对照组、染毒组、染毒+外源性H2S组、外源性H2S组,于12h后,检测肺组织中内源性H2S的含量,并及时处死大鼠,行肺组织损伤病理学评分。结果百草枯中毒致大鼠肺损伤在不同时间范围内,机体内源性H2S的含量差异有显著统计学意义(P0.01);与染毒组比较,染毒组+外源性H2S组肺损伤程度评分显著降低,差异具有显著统计学意义(P0.01)。结论百草枯致大鼠肺损伤过程中,内源性H2S的含量与肺损伤程度呈负相关;外源性H2S通过增加体内肺组织H2S的含量,抑制百草枯致肺损伤。。     

Effects of pH, glucose, and chelating agents on lethality of paraquat to Escherichia coli.

Retention of paraquat by Escherichia coli B was greatest after exposure at pH 9.0 and was progressively less after exposure at pH 7.0 and 5.0, respectively. This retained paraquat was capable of persistent growth inhibition. Uptake and retention of paraquat by E. coli B was dependent upon a carbon source, such as glucose. Under comparable conditions E. coli K-12 did not retain paraquat. The lethality of paraquat was seen in TSY medium but not in VB medium. The addition of Soytone, tryptone, or yeast extract, to the VB medium allowed the lethality of paraquat to be seen. A variety of chelating agents, including EDTA, 8-hydroxyquinoline, and o-phenanthroline, prevented the lethal effect of paraquat in TSY medium. Although EDTA protected against the lethality of paraquat, it did not protect against its bacteriostatic effect.     

Biochemical Studies of Paraquat-Tolerant Mutants of the Fern Ceratopteris richardii

Enzymes and metabolites associated with mitigation of paraquat toxicity were compared in two paraquat-tolerant mutants and a sensitive wild-type strain of the fern Ceratopteris richardii Brongn. In 21-day-old gametophytes, the specific activities of superoxide dismutase, catalase, peroxidase, glutathione reductase, dehydroascorbate reductase, and ascorbate peroxidase showed no differences that would explain mutant tolerance. Constitutive levels of ascorbate and glutathione also did not differ significantly in the three strains. An experiment testing the inducibility of paraquat tolerance revealed no change in the dose response of mutant or wild type gametophytes after exposure to sublethal concentrations of the herbicide. Uptake of paraquat by whole gametophytes was also equivalent in mutants and wild type. These data suggest that the physiological basis for tolerance in these mutants, unlike several other tolerant biotypes reported, does not lie in the oxygen radical scavenging system, in an inducible stress response, or in a block to whole-plant uptake.     

Effect of paraquat exposure on nitric oxide-responsive genes in rat mesencephalic cells

When neural cells are exposed to paraquat, nitric oxide generation increases primarily due to an increase in the expression of the inducible isoform of nitric oxide synthase. The nitric oxide generated has controversial actions in paraquat exposure, as both protective and harmful effects have been described previously. While the actions mediated by nitric oxide in neural cells have been well described, there is evidence that nitric oxide may also be an important modulator of the expression of several genes during paraquat exposure. To better understand the actions of nitric oxide and its potential role in paraquat-induced gene expression, we examined changes in GCH1, ARG1, ARG2, NOS1, NOS2, NOS3, NOSTRIN, NOSIP, NOS1AP, RASD1, DYNLL1, GUCY1A3, DDAH1, DDAH2 and CYGB genes whose expression is controlled by or involved in signaling by the second messenger nitric oxide, in rat mesencephalic cells after 3, 6, 12 and 24 h of paraquat exposure. A qPCR strategy targeting these genes was developed using a SYBR green I-based method. The mRNA levels of all the genes studied were differentially regulated during exposure. These results demonstrate that nitric oxide-related genes are regulated following paraquat exposure of mesencephalic cells and provide the basis for further studies exploring the physiological and functional significance of nitric oxide-sensitive genes in paraquat-mediated neurotoxicity.     

Effects of L-dopa and other amino acids against paraquat-induced nigrostriatal degeneration

Exposure to the herbicide paraquat causes selective nigrostriatal degeneration and aggregation of alpha-synuclein in the mouse brain. The purpose of this study was to assess mechanisms of paraquat entry into the CNS and, in particular, the effects of substrates of the blood-brain barrier (BBB) neutral amino acid transporter (System L carrier) on paraquat accumulation and neurotoxicity. Using a paraquat antibody, robust immunoreactivity was observed in the midbrain of mice injected with the herbicide. This immunoreactivity was abolished by administration of l-valine or l-phenylalanine, two System L substrates, immediately before paraquat exposure. Pre-treatment with these amino acids completely protected against paraquat-induced loss of nigrostriatal dopaminergic cells and formation of thioflavine S-positive intracellular deposits. Interestingly, the anti-parkinsonian drug l-dopa, which is transported across the BBB through the same neutral amino acid carrier, was also neuroprotective when administered 30 min prior to paraquat. In contrast, paraquat-induced toxicity was unaffected if animals (i) were pre-treated with d-valine, the biologically inactive d-isomer of l-valine, or with l-lysine, a substrate of the basic rather than the neutral amino acid carrier, or (ii) were injected with l-dopa 24 h after paraquat exposure. Data are consistent with a critical role of uptake across the BBB in paraquat neurotoxicity, and suggest that dietary elements (e.g. amino acids) or therapeutic agents (e.g. l-dopa) may modify the effects of toxicants targeting the nigrostriatal system.     

Effects of paraquat administration on longevity, oxygen consumption, lipid peroxidation, superoxide dismutase, catalase, glutathione reductase, inorganic peroxides and glutathione in the adult housefly

The effects of oxidative stress in the adult male housefly were examined by the administration of 1 mM paraquat. Houseflies exhibit NADH and NADPH-diaphorase activity. Paraquat caused a significant decrease in life span, metabolic rate and the concentration of thiobarbituric acid-reactants. Concentrations of reduced glutathione and inorganic peroxides were increased by paraquat. Paraquat stimulated the activity of catalase but did not affect activities of superoxide dismutase and glutathione reductase. The levels of oxidized glutathione and the rate of fluorescent age pigment accumulation were unaffected by paraquat. Results indicate that paraquat toxicity does not result from lipid peroxidation.