Enhanced activity of an insecticidal protein, trypsin modulating oostatic factor (TMOF), through conjugation with aliphatic polyethylene glycol

BACKGROUND: Trypsin modulating oostatic factor (TMOF), a decapeptide (Tyr-Asp-Pro-Ala-Pro₆) isolated from the ovaries of the adult yellow fever mosquito, Aedes aegypti, regulates trypsin biosynthesis. TMOF per os is insecticidal to larval mosquitoes and a good model for the development of technologies to enhance protein insecticide activity by reduced catabolism and/or enhanced delivery to the target. RESULTS: TFA-TMOF-K (TFA = trifluoro acetyl) allowed the specific conjugation of monodispersed, aliphatic polyethylene glycol (PEG) to the amino group of lysine-producing TMOF-K-methyl(ethyleneglycol)₇-O-propionyl (TMOF-K-PEG₇P). The addition of lysine to TMOF reduced its per os larval mosquitocidal activity relative to the parent TMOF, but conjugation of TMOF-K with methyl(ethyleneglycol)₇-O-propionyl increased its toxicity 5.8- and 10.1-fold above that of TMOF and TMOF-K for Ae. aegypti. Enhanced insecticidal activity was also found for larval Ae. albopictus and for neonates of Heliothis virescens and Heliocoverpa zea. Only TMOF-K was found by MS/MS in the hemolymph for H. virescens fed on TMOF-K-PEG₇P. No TMOF, TMOF-K or PEGylated TMOF-K was detected in the hemolymph after topical applications. CONCLUSIONS: This research suggests that aliphatic PEG polymers can be used as a new method for increasing the activity of insecticidal proteins. Copyright © 2011 Society of Chemical Industry     

Investigation of acute toxicity of (2,4-dichlorophenoxy)acetic acid (2,4-D) herbicide on crayfish (Astacus leptodactylus Esch. 1823)

The acute 96 h LC₅₀ of (2,4-dichlorophenoxy)acetic acid (2,4-D), a widely used agricultural herbicide, was determined on crayfish (Astacus leptodactylus Esch. 1823). Crayfish of 23.5 ± 1.49 g mean weight and 9.6 ± 0.21 cm mean length were selected for the bioassay experiments. The experiments were repeated three times, in 10 L tap water. The data obtained were statistically evaluated by the use of the E.P.A computer program based on Finney’s probit analysis method and the 96 h LC₅₀ value for crayfish was calculated to be 32.6 mg/L in a static bioassay test system. 95% lower and upper confidence limits for the LC₅₀ were 15.10-327.16. In conclusion, 2,4-D is highly toxic to crayfish, a non-target organism in the ecosystem. Water temperature was 23 ± 1 °C. Behavioral changes of crayfish were recorded for all herbicide concentrations.     

Toxicity of novel aromatic and aliphatic organic acid and ester analogs of trypsin modulating oostatic factor to larvae of the northern house mosquito, Culex pipiens complex, and the tobacco hornworm, Manduca sexta

Eight non-peptidic chemical analogs of trypsin modulating oostatic factor (TMOF, NH₂-YDPAP₆), an insect hormone inhibiting trypsin biosynthesis in mosquitoes, were synthesized based on the structure of the native peptide. The median lethal concentration (LC₅₀) for the chemical analogs, TMOF and FDPAP (a peptidic analog of TMOF) was estimated for larvae of the northern house mosquito, the Culex pipiens complex, using a static 5-day bioassay. Four of these compounds demonstrated the same larvicidal activity as TMOF, while three of these compounds were 1.2-2.5-fold more active than TMOF. The compounds introduced by injection were toxic to fourth instars of the tobacco hornworm, Manduca sexta, except for TMOF, FDPAP, and PPHEN. Injection of TMOF and FDPAP into fourth stadium and TMOF into second stadium M. sexta had no effect on trypsin activity, growth, or mortality. Apparently the mosquito hormone is inactive in the tobacco hornworm at the developmental stages examined. Three TMOF analogs (CHEA, PHEA, and PHA) demonstrating the highest activity by injection in M. sexta were also found to be toxic by injection in fourth instars of the tobacco budworm, Heliothis virescens, and the cotton bollworm, Helicoverpa zea, as well as adult male German cockroaches, Blattela germanica. A two-choice feeding bioassay with H. virescens indicated that at least one of the TMOF analogs, PHEA, has anti-feeding properties.     

Resistance development in rice blast disease caused by Magnaporthe grisea to tricyclazole

Sensitivity to tricyclazole of 129 single-conidial isolates of rice blast fungus, Magnaporthe grisea, was determined. EC₅₀ values ranged from 0.06 to 1.12 mg/L with an average value of 0.46 ± 0.09 mg/L according to the detached leaf segment tests. No significant difference of sensitivity was observed between isolates from Guangdong and Jiangsu where decreased efficacy was reported, and from two other provinces where tricyclazole provided excellent disease control. In seedling tests, tricyclazole could control the most tolerant isolate GY-6 successfully with a efficacy of 81.5% at the concentration of 40 mg/L. Sensitivities of GY-6 and DY-2, the most sensitive isolate, to tricyclazole were both unstable in sub-cultured single-conidial offspring isolates, with respective mean EC₅₀ values of 5.40 ± 0.97 and 4.50 ± 0.88 mg/L calculated from seedling tests. There was no amino acid difference between them in the coding sequences of 1,3,6,8-tetrahydroxynaphthalene reductase and 1,3,8-trihydroxynaphthalene reductase. These results suggested that the decreased control reported in Guangdong and Jiangsu could not be attributed to the occurrence of resistance. When continuously “inoculated-reisolated-reinoculated” under the selection of tricyclazole in vivo, sensitivity of DY-2 decreased 10-fold after 20 generations, although the sensitivity of GY-6 did not shift significantly.     

Inhibition of Na-K-ATPase in different tissues of freshwater fish Channa punctatus (Bloch) exposed to monocrotophos

Freshwater fish, Channa punctatus, commonly known as the snakehead fish, was exposed to two sublethal concentrations (0.96 and 1.86 mg/L) (selected on the basis of 1/20 and 1/10 of 96 h LC₅₀ value) of monocrotophos for two exposure periods (15 and 60 days). Effects of monocrotophos on Na⁺, K⁺-ATPase in liver, kidney, muscle, intestine, brain, heart and gills were determined. Results indicate that Na⁺, K⁺-ATPase activity in tissues decreased as concentration of monocrotophos and exposure period increased. Monocrotophos induced significant inhibitory effects on the Na⁺, K⁺-ATPase activity of C. punctatus, ranging from gills (70%) > Kidney (63%) > brain (57%) > intestine (52%) > liver (50%) > muscle (47%) > heart (44%) inhibition at a sublethal concentration of 0.96 mg/L. Significant inhibition was detected in Na⁺, K⁺-ATPase activity, ranging from gills (90%) > heart (78%) > kidney (78%) > muscle (74%) > intestine (71%) > brain (67%) > liver (63%) at sublethal concentration of 1.86 mg/L. After subacute exposure (15 days) only gills and brain showed significant inhibition after higher concentration (1.86 mg/L). However, it is evident that exposure duration is more important than dose in the inhibition of the activity of enzyme. At lower concentration initial stimulation of the activity of Na⁺, K⁺-ATPase activity was also noticed. It is suggested that the inhibition of the ATPase by monocrotophos blocked the active transport system of the gill epithelial as well as chloride cells, glomerular and epithelial cells of the tubules and thus altered the osmoregulatory mechanism of the fish. In fact, the impairment of the activity of enzymes which carry out key physiological roles could cause alterations of the physiology of the whole organism.     

Acute toxicity and histopathological effects of sublethal fenitrothion on Nile tilapia, Oreochromis niloticus

Organophosphothionate insecticide fenitrothion is known as potential toxic pollutant contaminating aquatic ecosystems. The effects of fenitrothion were studied to determine the 96 h LC₅₀ value on Nile tilapia (Oreochromis niloticus) and investigate histopathological responses of fish exposed to sublethal fenitrothion concentrations. Data obtained from the fenitrothion acute toxicity tests were evaluated using the Probit Analysis Statistical Method. The 96 h LC₅₀ value and 95% confidence limit for Nile tilapia (58.70 ± 6.97 g) was estimated as 0.84 (0.68-1.15) mg/L. Behavioral changes were observed closely during the acute toxicity test. The bioassay experiments were repeated three times and static test method was used. Some fish exposed to 96 h 0.1, 0.5 mg/L fenitrothion concentrations showed histopathological alterations in the gills, liver, kidney, brain and testes. Severely deformations were observed at 0.5 mg/L fenitrothion on the gills lamella such as hyperemia, epithelial hyperplasia, fusion and telangiectasis, in the liver tissue such as cloudy swelling, hydropic degenerations and lipid infiltration. In addition hyperemia and hemorrhage observed in kidney tissue and hyperemia was determined in brain tissue.     

Effects of dietary pyridoxine on growth and biochemical responses of Labeo rohita fingerlings exposed to endosulfan

A sixty-day experiment was carried out to study the effect of dietary pyridoxine (PN) on growth performance, RNA/DNA ratio and some biochemical parameters of Labeo rohita fingerlings exposed to sub-lethal dose of endosulfan (1/10th of 96 h static non-renewal LC₅₀ = 0.2 ppb) to assess the role of pyridoxine in ameliorating the negative effects of endosulfan. Two hundred seventy fingerlings (6.5 ± 0.26 g) were randomly distributed into six treatments in triplicates (15 fish/tank). Five iso-nitrogenous (35.45-35.75% crude protein) purified diets were prepared with graded levels of pyridoxine. Six treatment groups were T₀ (10 mg PN + without endosulfan), T₁ (0 mg PN + endosulfan), T₂ (10 mg PN + endosulfan), T₃ (50 mg PN + endosulfan), T₄ (100 mg PN + endosulfan) and T₅ (200 mg PN + endosulfan). Weight gain (%), specific growth rate (SGR), tissue glycogen, and protease activity were significantly (P < 0.05) higher in pyridoxine fed groups compared to their non-pyridoxine fed counterpart. Protease activity was positively correlated (R² = 0.931) with (%) weight gain. Glucose-6-phosphate dehydrogenase (G6PDH) activity was significantly (P < 0.05) higher in non-pyridoxine fed group and decreased in pyridoxine fed counterparts. There were no significant (P > 0.05) effect of dietary pyridoxine on feed conversion ratio (FCR), protein efficiency ratio (PER), survival, gastro-somatic index (GSI), hepato-somatic index (HSI) and liver and muscle DNA levels of L. rohita fingerlings. RNA levels, both in liver and muscle, increased significantly (P < 0.05) in pyridoxine fed groups. A positive correlation was observed between growth and RNA levels, both in liver (R² = 0.91) and muscle (R² = 0.88). RNA/DNA ratio showed a third order polynomial relationship with dietary pyridoxine, both in liver (Y = −0.014x³ + 0.1613x² − 0.5333x + 0.7933, R² = 0.987) and muscle (Y = −0.0407x³ + 0.4763x² − 1.6358x + 2.4667, R² = 0.9345). The overall results obtained in present study indicated that dietary pyridoxine supplementation at 100 or 200 mg PN/kg diet ameliorates the negative effects of endosulfan and restores optimal growth of L. rohita fingerlings.     

Prophylactic effect of green tea polyphenols against liver and kidney injury induced by fenitrothion insecticide

The ameliorative effect of daily administrated dose of green tea extract (60 mg polyphenols/animal/day) was investigated on albino rats Rattus norvegicus (150-180 gm) intoxicated with 1/30 and 1/60 LD₅₀ fenitrothion organophosphate insecticide for 28 days. Blood samples were taken at 14 and 28 days for further biochemical parameters. Histopathological studies were carried out in the liver and kidney at the end of the experiment. Significant inhibition in plasma cholinesterase (ChE), a biomarker of Ops, was recorded. Damage in the liver and kidney tissues was observed and confirmed with elevation of plasma alanine aminotransferase (ALT), aspartate aminotaransferase (AST), albumin, urea and creatinine, as well as an elevation in the oxidative stress (OS) marker malondialdehyde (MDA). Decrease in total glutathione (GSH) content in erythrocytes and fluctuation in glutathione S-transferase (GST) activity in plasma was also observed. Green tea supplementation (60 mg/animal/day) partially counteracts the toxic effect of fenitrothion on oxidative stress parameters and repairs tissue damage in the liver and kidney, especially when supplemented to 1/60 LD₅₀ intoxicated animals depending on the duration. It seems that enzyme and metabolite markers of these organs need more time to be restored to the control level.     

Nephrotoxicity in rats induced by organophosphate insecticide methidathion and ameliorating effects of vitamins E and C

The effects of organophosphate insecticide methidathion (MD) on kidney tissue and the ameliorating effects of a combination of vitamins E and C against subchronic MD toxicity were evaluated in rats. Experimental groups were: control group (group I), 5 mg/kg body weight MD-treated group (group II), and 5 mg/kg body weight MD plus vitamin E plus vitamin C treated group (group III). The groups II and III were treated orally with MD on five days a week for four weeks. Vitamins E and C were injected at doses of 50 mg/kg body weight, i.m. and 20 mg/kg body weight, i.p., respectively, 30 min after the treatment of MD in the group III. Rats were anaesthesized and venous blood samples were collected by direct right ventricle heart puncture, in addition, the right kidney was removed for histopathological examinations and malondialdehyde (MDA) analyses after four weeks. The serum activity of cholinesterase (ChE) and the kidney level of malondialdehyde, and kidney histopathology were studied in rats. MD caused decreased ChE activity (group I: 2114 ± 63 U/L, group II: 1455 ± 100 U/L) and increased MDA level (group I: 147 ± 20.2 nmol/mg protein, group II: 236 ± 25.6 nmol/mg protein), and kidney damage in rats. Furthermore, a combination of vitamins E and C restored partially (ChE activity: 1670 ± 111 U/L, MDA level: 159 19.4 nmol/mg protein) this changes in MD-treated rats.     

A cell-based reporter assay for screening for EcR agonist/antagonist activity of natural ecdysteroids in Lepidoptera (Bm5) and Diptera (S2) cell cultures,followed by modeling of ecdysteroid-EcR interactions and normal mode analysis

Ecdysteroid signal transduction is a key process in insect development and therefore an important target for insecticide development. We employed an in vitro cell-based reporter bioassay for the screening of potential ecdysone receptor (EcR) agonistic and antagonistic compounds. Natural ecdysteroids were assayed with ecdysteroid-responsive cell line cultures that were transiently transfected with the reporter plasmid ERE-b.act.luc. We used the dipteran Schneider S2 cells of Drosophila melanogaster and the lepidopteran Bm5 cells of Bombyx mori, representing important pest insects in medicine and agriculture. Measurements showed an EcR agonistic activity only for cyasterone both in S2 (EC₅₀ = 3.3 μM) and Bm5 cells (EC₅₀ = 5.3 μM), which was low compared to that of the commercial dibenzoylhydrazine-based insecticide tebufenozide (EC₅₀ = 0.71 μM and 0.00089 μM, respectively). Interestingly, a strong antagonistic activity was found for castasterone in S2 cells with an IC₅₀ of 0.039 μM; in Bm5 cells this effect only became visible at much higher concentrations (IC₅₀ = 18 μM). To gain more insight in the EcR interaction, three-dimensional modeling of dipteran and lepidopteran EcR-LBD was performed. In conclusion, we showed that the EcR cell-based reporter bioassay tested here is a useful and practical tool for the screening of candidate EcR agonists and antagonists. The docking experiments as well as the normal mode analysis provided evidence that the antagonist activity of castasterone may be through direct binding with the receptor with specific changes in protein flexibility. The search for new ecdysteroid-like compounds may be particularly relevant for dipterans because the activity of dibenzoylhydrazines appears to be correlated with an extension of the EcR-LBD binding pocket that is prominent in lepidopteran receptors but less so in the modeled dipteran structure.     

Phosphamidon induced effects on estrous cycle, ovarian, and uterine biochemical parameters in Swiss albino mice

Phosphamidon is chemically known as phosphoric acid, 2-chloro-2-diethyl carboryl-methylvenyl-0-0-dimethyl phosphate. It is a systemic and contact insecticide with broad spectrum of activity. The present investigation was carried out to evaluate its effects on estrous cycle, ovarian, and uterine biochemical contents in albino mice. Normal virgin female Swiss albino mice of 90 days old and weighing about 20-30 g were divided into five groups. Phosphamidon was orally administered at doses 1.3, 2.6, 3.9, and 5.2 mg/kg body weight/day for 30 days consecutively. The vaginal smear and body weight were recorded daily and mice were sacrificed on 31st day. Estrous cycle was affected by showing a significant decrease in the number of estrous cycle and duration of proestrus, estrus, and metestrus in all the groups except in 1.3 mg/kg body weight/day phosphamidon treated group, and with concomitant increase in the duration of diestrus in all the treated groups. However there is a significant decrease in the body weight in all the groups except 1.3 mg/kg body weight/ day phosphamidon treated group. The deleterious effects were also reflected in the loss of weights of ovary and uterus: In mice treated with 2.6, 3.9, and 5.2 mg/kg phosphamidon showed a significant decrease in total protein and glycogen in the ovary and uterus. The response of the ovary and uterus for nucleic acid (DNA) content was significantly decreased in higher doses. The observed effects of phosphamidon may be due to imbalance in the hormone or toxic effects.     

The effects of metribuzin on early life stages of common carp (Cyprinus carpio)

Metribuzin belongs to the triazine group of herbicides, which are frequently used in agriculture. The aim of this study was to assess the impact of metribuzin on growth and development of early life stages of fish. Subchronic toxic effects of metribuzin at concentrations of 0.9, 4, 14, and 32 mg/L on embryos and larvae of common carp (Cyprinus carpio) were investigated during a 30 day toxicity test under experimental conditions. Exposure to metribuzin at 32 mg/L was associated with increased mortality. Negative effects on total body length, weight, and inhibition of specific growth rate were induced by all experimental concentrations. Length and weight parameters were the most sensitive. The negative impact of metribuzin was observed in the highest tested concentration beginning on day 6 of exposure. Retardation of early ontogeny was associated with concentrations ?4 mg/L. Histological examination revealed changes in liver and caudal kidney after 30 days exposure to 32 mg/L. Based on growth parameters, development, and histological examination, the Lowest Observed Effect Concentration (LOEC) value was 0.9 mg/L.     

Assessment of cytoskeletal damage in Paramecium caudatum: An early warning system for apoptotic studies

The freshwater protozoan ciliate, Paramecium caudatum was used in order to assess the potential cytotoxic effects of fenthion, an organophosphorus insecticide (OPI). It was found that fenthion at concentrations of 76 mg L⁻¹ (LC₅₀ for 2 h) effected cellular morphology of P. caudatum and inhibited its locomotion, as well as degradation of cytoskeleton leading to cell destruction. Cytoskeleton morphology, cytoplasmic components and locomotor behaviour tests were performed by combined conventional light microscopy and a computerized video-tracking system. After short reparation periods from 10 min to 2 h, there was an increase in the number of apoptotic cells with typical features like plasma membrane blebbing, blackening of cytoplasm (due to mixing of the vacuolar contents) and outflow of cytoplasmic contents into blebs leading to cell lysis. The present findings on blackening of cytoplasm, multiple blebs and macronuclear changes indicate a possible apoptotic effect of fenthion on P. caudatum. Development of such simple apoptotic model systems like paramecium with simplicity in handling, low cost, ease in maintenance, rapid performance and high reproducibility provides an ‘early warning system’ for risk assessment in forecasting long-term hazards of pesticides on non-target organisms including humans.     

Monocrotophos augments the early alterations in lipid profile and organ toxicity associated with experimental diabetes in rats

The present study was undertaken to investigate the potential of monocrotophos (MCP), a widely used organophosphorus insecticide, to induce hyperglycemia and its interactive ability to accentuate the early diabetic outcomes and associated complications in experimentally rendered diabetic rats. Rats were rendered diabetic with an acute dose (60 mg/kg b.w, i.p) of streptozotocin. MCP was orally administered at a sublethal dose (1/20 LD_50, 0.9 mg /kg b.w./d, 5 days) to both normal and diabetic rats. While MCP per se moderately increased (by 25%) the blood glucose levels in normal rats, it significantly aggravated the hyperglycemic outcome in diabetic rats (56% above diabetic rats). Further, experimentally-induced diabetes was associated with only a marginal increase in total and HDL-cholesterol levels, while serum triglyceride levels were significantly enhanced. Although MCP per se did not affect these parameters, it caused a marked increase in triglyceride levels in serum of diabetic rats (54% above diabetic control). Furthermore, MCP-induced higher activity levels of serum transaminases viz., ALT and AST (51% and 71% higher as compared to diabetic control) suggestive of enhanced hepatic damage. Collectively, our findings provide evidence that MCP on repeated exposure has the propensity to augment the secondary complications associated with diabetes in a rat model.     

Comet assay in gill cells of Prochilodus lineatus exposed in vivo to cypermethrin

Agricultural chemicals can induce genetic alterations on aquatic organisms that have been associated with effects on growth, reproduction and population dynamics. The evaluation of DNA damage in fish using the comet assay (CA) frequently involves the utilization of erythrocytes. However, epithelial gill cells (EGC) can be more sensitive, as they are constantly dividing and in direct contact with potentially stressing compounds from the aquatic environment. The aim of the present study was to evaluate (1) the sensitivity and suitability of epithelial gill cells of Prochilodus lineatus in response to different genotoxic agents through the application of the CA, (2) the induction of DNA damage in this cell population after in vivo exposure to cypermethrin. Baseline value of the CA damage index (DI) for EGC of juvenile P. lineatus was 144.68 ± 5.69. Damage increased in a dose-dependent manner after in vitro exposure of EGC to methyl methanesulfonate (MMS) and H₂O₂, two known genotoxic agents. In vivo exposure of fish to cypermethrin induced a significant increase in DNA DI of EGC at 0.150 μg/l (DI: 239.62 ± 6.21) and 0.300 μg/l (270.63 ± 2.09) compared to control (150.25 ± 4.38) but no effect was observed at 0.075 μg/l (168.50 ± 10.77). This study shows that EGC of this species are sensitive for the application of the CA, demonstrating DNA damage in response to alkylation (MMS), oxidative damage (H₂O₂), and to the insecticide cypermethryn. These data, together with our previous study on DNA damage induction on erythrocytes of this species, provides useful information for future work involving biomonitoring in regions where P. lineatus is naturally exposed to pesticides and other genotoxic agents.     

Chronic chlorpyrifos-induced oxidative changes in the testes and pituitary gland of Wistar rats: Ameliorative effects of vitamin C

Chlorpyrifos (CPF), a chlorinated organophosphate insecticide that is widely used in agriculture and public health, has been implicated in male reproductive toxicity. Apart from acetylcholinesterase inhibition, CPF has been shown to induce changes characteristic of oxidative stress. Therefore, the aim of the present study was to evaluate the effects of vitamin C on oxidative changes in the testes and pituitary gland of rats chronically exposed to CPF. Twenty adult male Wistar rats were divided into four groups of five animals each: Group I (S/oil) received soya oil (2 ml/kg); Group II (VC) was administered with vitamin C (100 mg/kg); Group III (CPF) was given CPF (10.6 mg/kg; ∼1/8th LD₅₀); Group IV (VC + CPF) was pretreated with vitamin C (100 mg/kg) and then given CPF (10.6 mg/kg), 30 min later. The regimens were administered orally by gavage once daily for 15 weeks. Thereafter, the rats were sacrificed and the testes and pituitary glands were evaluated for the concentration of malonaldehyde (MDA) and activities of superoxide dismutase (SOD) and catalase (CAT). The result shows that CPF increased MDA concentration and reduced activities of SOD and CAT, which were ameliorated by pretreatment with vitamin C.     

One-tenth dose of LC50 of 4-tert-butylphenol causes endocrine disruption and metabolic changes in Cyprinus carpio

Of the huge annual worldwide production (500,000 MT in 1997) of alkylphenol polyethoxylates (APEs) that are widely used as nonionic surfactants and anti-oxidants in variety of products, 60% ends up in water bodies. They undergo biodegradation to form octyl-, butyl-, and nonyl-phenols. This experiment evaluated effects of 4-tert-butyl phenol (4-TBP) in Cyprinus carpio, a projected candidate species in sewage fed fisheries. The 96th h LC₅₀ of 4-TBP was found to be 6.9 mg/L. Fishes were treated with 1/10th (0.69 mg/L), 1/5th (1.38 mg/L), and 1/3rd (2.3 mg/L) dose of LC₅₀. Whereas there was significant (P < 0.01) decrease in alkaline phosphatase [EC 3.1.3.1] and aspartate aminotransferase [EC 2.6.1.1] activity; alanine aminotranferase [EC 2.6.1.2] and acid phosphatase [3.1.3.2] (except decrease at 1/10th dose of LC₅₀) activity, vitellogenin production in muscle and hepatic- and reno-somatic indices were increased compared to control. With all the dose levels tested, testicular-somatic index (testis size) was reduced (P < 0.01) and histo-architectural changes in testicular and liver tissue were found even in group given 1/3rd dose of LC₅₀.     

Protective effects of caffeic acid phenethyl ester on rotenone-induced myocardial oxidative injury

Rotenone, an insecticide, causes toxicity through inhibition of mitochondrial electron transport chain at complex I and oxidative injury to the tissues. The aim of the present study was to determine in vivo effects of rotenone on myocardium and cardio-protective effects of caffeic acid phenethyl ester (CAPE), an antioxidant agent, against rotenone toxicity in rats. The rats were divided into three groups: untreated control, rotenone (2.5 mg/kg/day for 60 days, i.p.) and rotenone + CAPE groups. CAPE was administrated i.p. 10 μmol/kg/day for 62 days started two days before first dose rotenone injection. The malondialdehyde, nitric oxide levels and xanthine oxidase activity of rotenone group was significantly higher than control and rotenone + CAPE groups (p < 0.05). However, catalase activity in the rotenone group was decreased in comparison with the other groups (p < 0.05). The superoxide dismutase activity of rotenone group was insignificantly decreased compared to the others. In conclusion, rotenone caused lipid peroxidation in myocardial tissue and CAPE treatment prevented this rotenone-induced lipid peroxidation in rats. CAPE might be a cardio-protective agent against myocardial toxicities.     

Studies on glutathione transferase from grasshopper (Zonocerus variegatus)

Glutathione transferase (GST) was purified from the hindgut of grasshopper (Zonocerus variegatus) a polyphagous insect. The purified enzyme had a native molecular weight of 40 kDa and a subunit molecular weight of 19 kDa. The purified enzyme could conjugate glutathione (GSH) with 1-chloro-2,4-dinitrobenzene (CDNB), paranitrobenzylchloride, paranitrophenylacetate, 7-chloro-4-nitrobenzo-2-oxa-1,3-diazole (NBDCl), and 1,2-dichloro-4-nitrobenzene (DCNB) with specific activities of 3.3 ± 0.3, 0.49 ± 0.10, 0.10 ± 0.002, 1.2 ± 0.2, and 1.7 ± 0.4 μmol/min/mg protein, respectively. CDNB appears to be the best substrate with a specificity constant, k_cat/K_m, of 1.8 ± 0.1 × 10⁻⁴ M⁻¹ S⁻¹. The kinetic mechanism of Z. variegatus GST (zvGST) in the conjugation of GSH with some electrophilic substrates appears complex. Conjugation of GSH with DCNB was inhibited by high DCNB concentration, while with NBDCl, as the electrophilic substrates, different values of K_m were obtained at high and low concentrations of the substrates. Cibacron blue, hematin, S-hexylglutathione, and oxidized glutathione inhibited the enzyme with I₅₀ values of 0.057 ± 0.004, 0.80 ± 0.2, 33 ± 2 μM, and 5.2 ± 0.3 mM, respectively. The nature of inhibition by each of these inhibitors is either competitive or non-competitive at varying GSH or CDNB as substrates. NADH and NAD⁺ inhibited the enzyme with an I₅₀ value of 0.4 ± 0.01 and 11 ± 1 mM, respectively. NADH at a concentration of 0.54 mM completely abolished the activity. As part of its adaptation, the flexible kinetic pathway of detoxication by zvGST may assist the organism in coping with various xenobiotics encountered in its preferred food plants.     

Protective effect of vitamin C against chlorpyrifos oxidative stress in male mice

Pesticides may induce oxidative stress leading to generate free radicals and alternate antioxidant or oxygen free radical scavenging enzyme system. This study was conducted to investigate the acute toxicity of chlorpyrifos toward male mice and the oxidative stress of the sub-lethal dose (1/10 LD₅₀) on the lipid peroxidation level (LPO), reduced glutathione content (GSH) and antioxidant enzymes; catalase (CAT), superoxide dismutase (SOD), glutathione peroxidase (GPx), glucose-6-phosphate dehydrogenase (G6PD), and glutathione-S-transferase (GST) activities. Also, the protective effects of vitamin C (200 mg/kg body weight, bw) 30 min before or after administration of chlorpyrifos were investigated. The results demonstrated that the LD₅₀ value of chlorpyrifos was 134.95 mg/kg bw. The oral administration of 13.495 mg/kg chlorpyrifos significantly caused elevation in LPO level and the activities of antioxidant enzymes including CAT, SOD and GST. However, GPx activity remained unchanged, while the level of GSH and G6PD activity were decreased. Vitamin C treatment to chlorpyrifos intoxicated mice decreased LPO level and GST activity, normalized CAT, SOD and G6PD activities, while GSH content was increased. We conclude that vitamin C significantly reduces chlorpyrifos-induced oxidative stress in mice liver and the protective effect of the pre-treatment with vitamin C is better than the post-treatment.