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Objective@#To investigate the antagonistic effect of diallyl sulfide (DAS) against peripheral nerve injury induced by n-hexane in rats.@*Methods@#A total of 68 adult male Wistar rats were selected, among which 50 were randomly selected and divided into blank control group, DAS control group (100 mg/kg·bw) , n-hexane model group, low-dose DAS intervention group (50 mg/kg·bw) , and high-dose DAS intervention group (100 mg/kg·bw) . A rat model of peripheral nerve injury was established by n-hexane exposure, and the rats were treated with DAS at different doses. The changes in pyrrole adducts and behavior were observed, a metabolic analysis was performed for serum pyrrole adducts, and the intervention effect was evaluated. The remaining 18 rats were randomly assigned to the n-hexane model group, the low-dose DAS intervention group, and the high-dose DAS intervention group, with 6 rats in each group, as satellite groups used for the toxicokinetic analysis of serum pyrrole adducts.@*Results@#Compared with the blank control group, the n-hexane model group and low-and high-dose DAS intervention groups had a significant reduction in body weight since week 2 (P<0.01) . Compared with the n-hexane model group at the end of the experiment at week 7, the high-dose DAS intervention group had a significantly higher body weight (P<0.05) , while there was no significant difference in body weight between the n-hexane model group and the low-dose DAS intervention group (P>0.05) . The n-hexane model group developed gait abnormality at week 2 of poisoning, while the low-and high-dose DAS intervention groups developed gait abnormality at weeks 3 and 5 of poisoning, respectively. At the end of the experiment, the n-hexane model group and the low-and high-dose DAS intervention groups had a significantly higher gait score than the blank control group (P<0.01) . At the end of the experiment, the n-hexane model group and the low-dose DAS intervention group had significantly shorter latency in rotarod test than the blank control group (P<0.01) , while there was no significant difference in latency between the DAS control group and the high-dose DAS intervention group (P>0.05) . Compared with the n-hexane model group, the low-and high-dose DAS intervention groups had a significant increase in latency in rotarod test (P<0.01) . Compared with blank control group, the n-hexane model group and the low-dose DAS intervention group had a significant increase in mean nerve conduction velocity (P<0.01) , while there was no significant difference between the blank control group and the DAS control group or high-dose DAS intervention group (P>0.05) , and compared with the n-hexane model group, the low-and high-dose DAS intervention groups had a significant increase in nerve conduction velocity (P<0.01) . Compared with the blank control group at the end of the experiment at week 7, the n-hexane model group and the low-and high-dose DAS intervention groups had significant increases in the concentration of pyrrole adducts in serum, urine, and hair (P<0.01) , while there was no significant difference between the blank control group and the DAS control group (P>0.05) , and the high-dose DAS intervention group had a significantly lower concentration of pyrrole adducts in serum, urine, and hair than the low-dose DAS intervention group (P<0.05) . Serum pyrrole adducts reached the peak level at 9-12 hours and then started to decrease. Compared with the n-hexane model group, the high-and low-dose DAS intervention groups had a significantly shorter half-life period of serum pyrrole adducts (P<0.01) . Compared with the n-hexane model group, the high-and low-dose DAS intervention groups had a significant reduction in the area under the curve of serum pyrrole adducts (P<0.05) .@*Conclusion@#DAS can antagonize peripheral nerve injury induced by n-hexane.
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Objective@#To investigate the antioxidant mechanism of diallyl sulfide (DAS) in antagonizing the reduction in peripheral blood white blood cells (WBC) induced by benzene in rats.@*Methods@#A total of 60 specific pathogen-free adult male Sprague-Dawley rats, with a body weight of 180-220 g, were selected, and after 5 days of adaptive feeding, they were randomly divided into blank control group, DAS control group, benzene model group, benzene+low-dose DAS group, benzene+middle-dose DAS group, and benzene+high-dose DAS group, with 10 rats in each group. The rats in the benzene+low-dose DAS group, the benzene+middle-dose DAS group, the benzene+high-dose DAS group, and the DAS control group were given DAS by gavage at a dose of 40, 80, 160, and 160 mg/kg·bw, respectively, and those in the blank control group and the benzene model group were given an equal volume of corn oil; 2 hours later, the rats in the benzene model group, the benzene+low-dose DAS group, the benzene+middle-dose DAS group, and the benzene+high-dose DAS group were given a mixture of benzene (1.3 g/kg·bw) and corn oil (with a volume fraction of 50%), and those in the blank control group and the DAS control group were given an equal volume of corn oil. The above treatment was given once a day for 4 consecutive weeks. At 1 day before treatment, anticoagulated blood was collected from the jugular vein for peripheral blood cell counting. After anesthesia with intraperitoneally injected pentobarbital (50 mg/kg·bw), blood samples were collected from the abdominal aorta, serum was isolated, and the thymus, the spleen, and the femur were freed at a low temperature to measure oxidative and antioxidant indices. The femur at one side was freed for WBC counting in bone marrow.@*Results@#Compared with the blank control group, the benzene model group had significant reductions in the volume, weight, and organ coefficient of the spleen and the thymus (P<0.05) ; compared with the benzene model group, the benzene+low-dose DAS group, the benzene+middle-dose DAS group, and the benzene+high-dose DAS group had significant increases in the volume of the spleen and the thymus and the weight and organ coefficient of the spleen (P<0.05), and the benzene+middle-dose DAS group and the benzene+high-dose DAS group had significant increases in the weight and organ coefficient of the thymus (P<0.05). Compared with the blank control group, the benzene model group had a significant reduction in WBC count in peripheral blood and bone marrow (P<0.05), and compared with the benzene model group, the benzene+middle-dose DAS group and the benzene+high-dose DAS group had a significant increase in WBC count in peripheral blood and bone marrow (P<0.05). Compared with the blank control group, the benzene model group had a significant increase in the serum level of malondialdehyde (MDA) (P<0.05) and significant reductions in total superoxide dismutase (T-SOD) activity, reduced glutathione (GSH) level, GSH/oxidized glutathione (GSSG) ratio, total antioxidant capacity (T-AOC) (P<0.05) ; compared with the benzene model group, the benzene+high-dose DAS group had a significant reduction in the serum level of MDA and significant increases in T-SOD activity, GSH level, GSH/GSSG ratio, and T-AOC (P<0.05). Compared with the blank control group, the benzene model group had a significant increase in the level of MDA (P<0.05) and significant reductions in GSH level, GSH/GSSG ratio, and T-AOC (P<0.05) in the spleen; compared with the benzene model group, the benzene+low-dose DAS group, the benzene+middle-dose DAS group, and the benzene+high-dose DAS group had a significant reduction in MDA level (P<0.05) and significant increases in GSH level and T-AOC (P<0.05), and the benzene+high-dose DAS group had significant increases in T-SOD activity and GSH/GSSG ratio (P<0.05). Compared with the blank control group, the benzene model group had a significant increase in the level of MDA in bone marrow cells (BMCs) and peripheral blood mononucleated cells (PBMCs) (P<0.05) and a significant reduction in T-AOC in PBMCs (P<0.05) ; compared with the benzene model group, the benzene+low-dose DAS group, the benzene+middle-dose DAS group, and the benzene+high-dose DAS group had a significant reduction in the level of MDA in BMCs and PBMCs (P<0.05), and the benzene+high-dose DAS group had significant increases in GSH level and GSH/GSSG ratio (P<0.05) .@*Conclusion@#DAS can antagonize the benzene-induced reduction in peripheral blood WBC, possibly by exerting an anti-oxidative stress effect.
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Objective@#To study the protective effects of diallyl sulfide (DAS) on leukopenia induced by benzene.@*Methods@#90 Healthy male ICR mice, adaptive feeding 5 days later, 15 were randomly divided into blank control group、model group、low、middle、high dose DAS intervention groups and DAS control group. Mice in intervention groups and DAS control group were orally given DAS at 40, 80, 160, 160 mg/kg·bw, while mice in the other two groups received an equal volume of corn oil. After 2 hours, model group and the other three intervention groups were given benzene, corn oil suspension (1.3 g/kg·bw) , the two control groups treated with the same volume of corn oil, Benzene and DAS are dissolved in corn oil. one time for each day. 4 weeks later, Anesthesia at 14/29, make blood routine examination and count organ index and observe pathological examinations of spleen and thymus.@*Results@#On day 14, the counts of peripheral blood white blood cells (WBC) , lymphocytes, monocytes in the model group decreased to 68.99%, 71.72%, 53.19% (P<0.05) ; On day 29, the counts of peripheral blood lymphocytes, monocytes, neutrophils in the model group decreased to 83.00%, 81.03%, 89.37%, 20.84%, 19.25% (P<0.05) ; spleen weight, spleen index, white pulp area ratio of spleen, thymus weight, thymus index, thymic cortex area ratio of mice in the model group decreased (P<0.05) . On day 14, the counts of peripheral blood monocytes and lymphocytes in the DAS high dose intervention group increased by 136.36%, 260.00% (P<0.05) ; On day 29, the counts of White blood cells, lymphocytes, red blood cells, platelets, hemoglobin in the DAS low, middle and high dose intervention groups increased (P<0.05) ; spleen weight, spleen index, white pulp area ratio of spleen, thymus weight, thymus index, thymic cortex area ratio of mice in the DAS high dose intervention groups increased (P<0.05) .@*Conclusion@#DAS can effectively suppress benzene-induced leucopenia in mice.
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Objective To investigate the expression of nuclear factor-κB in alveolar macrophages of paraquat-induced rats and the effect of diallyl sulfide on it.Methods Forty five male wistar rats were randomly divided into three groups,namely control group,model group,and DAS treatment group (n =15 in each).The model of paraquat poisoning was reproduced by single does of 70 mg/kg given by intra-gastric administration,while the equal volume of normal saline (NS) was given to the rats in control group instead.The dose of 100 mg/kg of DAS was given to rats by intra-peritoneal injection in DAS treatment group.The equal volume of NS was given to the rats by intra-peritoneal injection in model group and control group instead.The rats of model group and DSA treatment group were exposed to paraquat once a day for 14 days.Five rats in each group were sacrificed at 3,7,14 days.Alveolar maerophages were harvested by bronchalveolar lavage (BAL).The protein content of BAL fluid were examined.The exprossion of NF-κB was measured with immunocytochemistry technique.Results Alveolar macrophage cultures were carried out by using differential adherence of isolated and purified alveolar macrophages,and after 30 minutes culture,more adherent macrophages can be seen.Compared with model group,the protein content of BAL fluid at dfferent intervals in the control group were obviously lower,especially on the 3 rd day (261.6 ± 17.16) μg/mL vs.(673.4 ± 151.9) μg/mL;7 d (265.6 ± 18.37) μg/mL vs.(581.3 ± 134.58) μg/mL;14 d (253.8 ± 11.43) μg/mL vs.(589.07 ± 33.85) μg/mL,P < 0.05.Comparisons of protein content in BLA fluid between PQ group and DAS treatment group were on the 3 rd day (673.4 ± 151.9) μg/mL vs.(342.9 ±39.03) μg/mL;on the 7 th day (581.3 ± 134.58) μg/mL vs.(383.7 ±7.37) μg/mL,P<0.05;on the 14 th day (589.07±33.85) μg/mL vs.(282.9±15.59) μg/mL,P<0.05.The immunocytochemistry analysis revealed minimal NF-κBp65 expression in the cell cytoplasm in the control group,while high NF-κBp65 expression was found in nuclear in the model group.Minimal NF-κBp65 expression was found in the cell cytoplasm in the DAS treatment group,and integral A value was significantly lower in the DAS treatment groups than that in the model group (P < 0.05).Conclusions Treatment with an intra-peritoneal injection of DAS is capable of attenuating the extent of PQ-induced ALI in rats by lowering BLA fluid protein content,inhibiting the expression of NF-κB in alveolar maerophages.
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OBJECTIVE To investigate the effect of diallyl sulfide (DAS) in protection against acute lung injury in rats induced by paraquat(PQ). METHODS A total of 100 male Wistar rats were randomly divided into normal control group,PQ 70 mg·kg-1 model group,and DAS 25,50 and 100 mg·kg-1 treatment groups,with 20 rats in each group. A poisoning model was estalolished after administration ig at a single dose of PQ 70 mg·kg-1,while the normal control group was ip given the same volume of normal saline. DAS 25,50 and 100 mg · kg-1 was intraperitoneally injected 30 min before and after PQ exposure. Five rats in each group were sacrificed at 1,3,6 and 12 h,respectively. The inferior lobe of the right lung was observed by HE staining under an optical microscope. Tissue of the upper lobe of the right lung was used to detect the content of nitric oxide (NO). Alveolar macrophages (AMs) were collected and cultured for 24 h,and the content of nitric oxide synthase(iNOS)in the supernatant was detected. AMs were cultured for 72 h and the expression of iNOS protein in AMs was detected by immunocytochemistry method. RESULTS Compared with normal control group,the alveolar structure of PQ group was severely damaged and the pathological score was significantly increased(P<0.01). The NO content of PQ group was significantly higher than in normal control group(P<0.01). The content and protein expression of iNOS were significantly increased in PQ group(P<0.01). Compared with PQ group,the lung injury score of rats in DAS 50 mg·kg-1 group at 3,6 and 12 h and in the DAS 100 mg·kg-1 group at each time point was decreased(P<0.05). Compared with PQ group,the NO content of DAS 25 and 50 mg · kg-1 group was decreased(P<0.05),and the NO content of DAS 100 mg · kg-1 group was significantly reduced(P<0.01). The content of iNOS was reduced in DAS 100 mg · kg-1 group(P<0.05). Compared with PQ group,the expression of iNOS protein in DAS groups was decreased(P<0.05). CONCLUSION DAS can inhibit the oxidative damage in rats induced by PQ.
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ObjectiveTo investigate the mechanism of anti-inflammatory effect of diallyl sulfide (DAS) in protection against acute lung injury (ALI) in rats with paraquat poisoning.Methods Eighty male Wistar rats were randomly divided into four groups, namely: control group, model group, dexamethasone (DXM) treatment group, and DAS treatment group, with 20 rats in each group. The model of paraquat poisoning was reproduced by single does of 70 mg/kg given by gavage, while the same volume of normal saline (NS) was given in same manner in control group. 100 mg/kg of DAS, the same volume of NS, or 1 mg/kg DXM injection were given respectively in DAS treatment group, model group, or DXM treatment group intraperitoneally after exposure to paraquat, once a day for 14 days. Five rats in each group were sacrificed at 1, 3, 7, 14 days, respectively. The inferior lobe of right lung was harvested, and the degree of lung injury was observed with hematoxylin and eosin (HE) staining under optical microscope; the upper lobe of right lung was used to determine the lung wet/dry weight (W/D) ratio and for evaluation of the degree of pulmonary edema. The expression of nuclear factor -κB (NF-κB) in the middle lobe of right lung was assessed with immunohistochemistry. The expression of tumor necrosis factor -α (TNF-α) mRNA in the left lung was determined with the reverse transcription-polymerase chain reaction (RT-PCR).Results① The pulmonary structure in control group was found to be intact. However, in the model group there were progressive pathological changes in lung, including marked edema and thickening of alveolar walls, collapse of alveoli, infiltration of inflammatory cells, alveolar wall, and obvious bleeding in the local lung tissue, and formation of transparent membrane in alveolar space. Less infiltration of inflammatory cells and no obvious destruction were found in alveolar structure in the DAS and DXM treatment groups.② Lung W/D ratio: lung W/D ratio of model group was apparently higher than that in control group at every time point, and peaking on the 3rd day (6.15±0.54 vs. 4.15±2.10,P< 0.05), and the ratio of lung W/D of DAS and DXM treatment groups was obviously lower than that in model group at every time point, especially on the 3rd day (3.99±1.26, 4.30±0.70 vs. 6.15±0.54, bothP< 0.05), but there was no significant difference between DAS and DXM treatment groups in this regard.③ The immunocytochemistry analysis revealed minimal NF-κBp65 expression in the cell nuclei of the control group, while extensive NF-κBp65 expression was found in model group. Minimal NF-κBp65 positive expression in the cytoplasm and even less positive expression in the nucleus was found in the DAS and DXM treatment groups, and integralA value was significantly lower in the DAS and DXM treatment groups than that of the model group, especially on the 3rd day [(17.98±0.06)×107, (18.53±0.04)×107 vs. (28.85±0.61)×107, bothP< 0.01], but there was no significant difference between DAS and DXM treatment groups.④ It was shown by RT-PCR that the expression of TNF-α mRNA in lung tissue of the model group was significantly higher than that in the control group on the 3rd day (gray value: 3.63±0.62 vs. 0.51±0.13, P< 0.05). The expression of TNF-α mRNA in lung tissue was significantly decreased in DAS and DXM treatment groups compared with model group (gray value: 2.49±0.57, 2.02±0.26 vs. 3.63±0.62, bothP< 0.05), but there was no significant difference between DAS and DXM treated groups.ConclusionTreatment with an intraperitoneally injection of DAS is capable of attenuate the extent of PQ-induced ALI in rats by alleviating pulmonary edema, inhibiting the expression of NF-κB and TNF-α in lung tissue, and ameliorating pathological changes in lung tissue.
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Effects of diallyl sulfide (DAS) on thioacetamide-induced hepatotoxicity and immunotoxicity were investigated. When male Sprague-Dawley rats were treated orally with 100, 200 and 400 mg/kg of DAS in corn oil for three consecutive days, the activity of cytochrome P450 (CYP) 2E1-selective p-nitrophenol hydroxylase was dose-dependently suppressed. In addition, the activities of CYP 2B-selective benzyloxyresorufin O-debenzylase and pentoxyresorufin O-depentylase were significantly induced by the treatment with DAS. Western immunoblotting analyses also indicated the suppression of CYP 2E1 protein and/or the induction of CYP 2B protein by DAS. To investigate a possible role of metabolic activation by CYP enzymes in thioacetamide-induced hepatotoxicity, rats were pre-treated with 400 mg/kg of DAS for 3 days, followed by a single intraperitoneal treatment with 100 and 200 mg/kg of thioacetamide in saline for 24 hr. The activities of serum alanine aminotransferase and aspartate aminotransferase significantly elevated by thioacetamide were protected in DAS-pretreated animals. Likewise, the suppressed antibody response to sheep erythrocytes by thioacetamide was protected by DAS pretreatment in female BALB/c mice. Taken together, our present results indicated that thioacetamide might be activated to its toxic metabolite(s) by CYP 2E1, not by CYP 2B, in rats and mice.
Subject(s)
Animals , Female , Humans , Male , Mice , Rats , Alanine Transaminase , Antibody Formation , Aspartate Aminotransferases , Biotransformation , Blotting, Western , Corn Oil , Cytochrome P-450 CYP2E1 , Cytochrome P-450 Enzyme System , Erythrocytes , Rats, Sprague-Dawley , Sheep , ThioacetamideABSTRACT
Oxygen is necessary to sustain life, yet cellular oxygen metabolism creates destructive elements called free radicals. Free radicals are chemically unbalanced and carrying free electrons that can damage molecules, potentially damaging the cell itself. For this reason, many antioxidant products, including supplements and functional foods, are being developed. In particular, natural products are rich sources of pharmacologically active compounds. The purpose of this study was to investigate the antioxidant effects of target biomaterials in Korean traditional spices such as diallyl sulfide (DAS), capsaicin (CAP), and gingerol (GGR), and to investigate the response of the antioxidant defense system to oxidative stress by hydrogen peroxide (H2O2) compared to sulforaphane (SFN) in HepG2 cells. After the analysis of the cell viability using Cell Counting kit-8 (CCK-8) assay, we determined that the optimum levels were 200 microM DAS, 25 microM CAP, 50 microM GGR, and 12.5 microM SFN. Antioxidant enzymes were measured and protein expression was detected by Western blotting. All treatments showed a significant decrease in antioxidant enzyme activity such as superoxide dismutase, catalse, and glutathione peroxidase in HepG2 cells. Additionally, DAS, CAP, GGR and SFN increased the antioxidant system-related transcription factor Nrf2 which was found to be regulated by the activation of MAPK-JNK in this study. In conclusion, these results indicate the protective effects of DAS CAP, GGR, and SFN against H2O2-induced oxidative stress.