Effects of administration of Embelin and Curcumin on lipid peroxidation, hepatic glutathione antioxidant defense and hematopoietic system during N-nitrosodiethylamine/Phenobarbital-induced hepatocarcinogenesis in Wistar rats

The effects of administration of Embelin (EMB) and Curcumin (CUR) on lipid peroxidation, hepatic glutathione antioxidant defense and hematopoietic cells were examined during N-nitrosodiethylamine (DENA-200 mg kg⁻¹body wt, single I.P injection) initiated and Phenobarbital (PB-0.05% in drinking water orally for 13 weeks) promoted hepatocarcinogenesis in Wistar strain male albino rats. DENA/PB-induced hepatic damage was manifested by a significant drop in the hepatic glutathione antioxidant defense, increased lipid peroxidation and histological alterations like dysplasia, and atypical cells with abnormal chromatin pattern. Treatment with Curcumin (100 mg kg⁻¹body wt) and Embelin (50 mg kg⁻¹body wt) prevented the drop in hepatic glutathione antioxidant defense, decreased lipid peroxidation, minimized the histological alterations induced by DENA/PB, but showed toxic effects on the hematopoietic cells. Results indicate the beneficial effects of Embelin and Curcumin against oxidative tissue damage during chemically-induced hepatocarinogenesis in rats.     

番茄红素联合CIK 治疗的抗肿瘤作用的实验研究

目的:探讨番茄红素联合细胞因子诱导的杀伤细胞(CIK)治疗的抗肿瘤作用及相应机制。方法:建立荷B16-F10黑色素瘤小鼠模型,观察联合治疗对肿瘤体积、宿主生存时间、淋巴细胞增殖活力及淋巴细胞杀伤能力的影响。结果:CIK及番茄红素治疗均可以抑制肿瘤的生长,延长荷瘤鼠的生存时间。与CIK治疗组相比较,中高剂量的番茄红素联合CIK治疗可以显著增强抗肿瘤疗效,延长荷瘤鼠的生存时间,并且可以通过刺激荷瘤鼠淋巴细胞增殖、增强淋巴细胞对肿瘤的杀伤能力提高CIK治疗的抗肿瘤疗效。结论:番茄红素能够通过提高宿主免疫水平而显著增强CIK治疗的抗肿瘤效果。     

高产番茄红素链霉菌选育及摇瓶发酵研究

番茄红素的抗氧化能力目前在类胡萝卜素中最强,是近年来国际上功能食品成分研究的热点。在国内首次利用龟裂链霉菌（Streptomyces rimosus）发酵生产番茄红素,建立了分光光度计法和HPLC法等番茄红素测定方法;以一株龟裂链霉菌Fc作为出发菌株,进行紫外诱变,筛选到一株突变高产菌株Fc’,其番茄红素产量较出发菌株提高2.5倍;通过摇瓶发酵实验优化培养条件,使菌株Fc’的番茄红素产量达到230 mg/L,并且在不添加任何阻断剂的情况下,利用链霉菌发酵可获得纯度较高的番茄红素。该结果为今后利用链霉菌工业化生产番茄红素奠定了良好基础。     

Ellagic acid modulates cisplatin toxicity in DMH induced colorectal cancer: Studies on membrane alterations

Systemic toxicity due to chemotherapy contributes to poor prognosis in patients receiving chemotherapy. The present study, therefore, explores the role of Ellagic acid, a phytochemical, in modulating cisplatin (CP) toxicity in dimethylhydrazine-induced colorectal cancer. Colons excised from DMH administered animals showed abnormal crypts and bulges over the mucosal surface. SEM revealed significant alterations and dysplastic lesions in DMH administered mice. Animals receiving combined treatment showed improvement in colonic epithelium with lesser irregularities. DMH and CP administration disturbed the membrane dynamics and integrity as observed with the fluorescent probes DPH and pyrene. However, EA co-supplementation with CP proved to be beneficial in normalizing the altered membrane. Ellagic acid co-supplementation along with CP; therefore, showed great promise and helped restore the membrane alterations in the colon caused due to CP-induced toxicity and DMH insult. These observations could pave way towards developing a combination therapy targeting colon carcinogenesis in future.     

Piperine modulates permeability characteristics of intestine by inducing alterations in membrane dynamics: Influence on brush border membrane fluidity, ultrastructure and enzyme kinetics

Piperine (1-Piperoyl piperidine) is a major alkaloid of Piper nigrum Linn. and Piper longum Linn. It is shown to possess bioavailability-enhancing activity with various structurally and therapeutically diverse drugs. The mechanism of enhancing the bioavailability, is, however, not understood. We hypothesize that piperine's bioavailability-enhancing property may be attributed to increased absorption, which may be due to alteration in membrane lipid dynamics and change in the conformation of enzymes in the intestine. Results of membrane fluidity studies using an apolar fluorescent probe, pyrene (which measures the fluid properties of hydrocarbon core), showed an increase in intestinal brush border membrane (BBM) fluidity. Piperine also stimulated Leucine amino peptidase and Glycyl-glycine dipeptidase activity, due to the alteration in enzyme kinetics. This suggests that piperine could modulate the membrane dynamics due to its apolar nature by interacting with surrounding lipids and hydrophobic portions in the protein vicinity, which may decrease the tendency of membrane lipids to act as stearic constrains to enzyme proteins and thus modify enzyme conformation. Ultra structural studies with piperine showed an increase in microvilli length with a prominent increase in free ribosomes and ribosomes on the endoplasmic reticulum in enterocytes, suggesting that synthesis or turnover of cytoskeletal components or membrane proteins may be involved in the observed effect. In conclusion, it is suggested that piperine may be inducing alterations in membrane dynamics and permeation characteristics, along with induction in the synthesis of proteins associated with cytoskeletal function, resulting in an increase in the small intestine absorptive surface, thus assisting efficient permeation through the epithelial barrier.     

Lead induced antioxidant defense system in pigeon pea and its impact on yield and quality of seeds

Toxic effects of lead (>0.2 mM Pb) were measured in pigeon pea (Cajanus cajan Mill) cv. UPAS grown in sand culture as reduction in growth, yield, and quality of seeds. Leaves containing >38 μg g⁻¹ Pb showed oxidative damage as decrease in chlorophyll content and induction of antioxidants such as carotenoids, proline, and non-protein thiol contents with enhanced activities of SOD and peroxidase. At excess (>0.2 mM) Pb, accumulation of >1,000 μg Pb g⁻¹ root tissue was associated with increase in non-protein thiol content. It is concluded that inhibition in root-to-shoot translocation of Pb and induction in the level of proline, chloroplast pigments, and non-protein thiols and activities of antioxidant enzymes SOD and peroxidase at <0.2 mM Pb could have protected the pigeon pea plants from the deleterious effects of Pb. However, excess Pb at >0.2 mM showed a decline in yield, boldness, and quality of seeds despite the expression of an additional band each of Cu–Zn SOD and peroxidase isoform. The threshold of toxicity and toxicity values in pigeon pea leaves of plants exhibiting 10 and 33% yield depression at 27 days after metal supply were 27 and 56 μg Pb g⁻¹, respectively.     

Effects of isoquinoline alkaloid berberine on lipid peroxidation,antioxidant defense system,and liver damage induced by lead acetate in rats

Objectives: Liver is considered a target organ affected by lead toxicity. Oxidative stress is among the mechanisms involved in liver damage. Here we investigated the effects of the natural alkaloid berberine on oxidative stress and hepatotoxicity induced by lead in rats.

Methods: Animals received an aqueous solution of lead acetate (500?mg Pb/l in the drinking water) and/or daily oral gavage of berberine (50?mg/kg) for 8 weeks. Rats were then weighed and used for the biochemical, molecular, and histological evaluations.

Results: Lead-induced oxidative stress, shown by increasing lipid peroxidation along with a concomitant decrease in hepatic levels of thiol groups, total antioxidant capacity, the activities of superoxide dismutase, catalase, glutathione peroxidase, and glutathione-S-transferase, and reduced versus oxidized glutathione ratio. Berberine corrected all the disturbances in oxidative stress markers induced by lead administration. Berberine also prevented the elevated levels of enzymes (alanine aminotransferase, aspartate aminotransferase, and alkaline phosphatase) and the decrease in body weight and albumin. The protective effects of berberine were comparable with silymarin. Furthermore, berberine attenuated liver damage, shown by decreased necrosis and inflammatory cell infiltration.

Discussion: Berberine represents a potential therapeutic option against lead-induced hepatotoxicity through inhibiting lipid peroxidation and enhancing antioxidant defenses.

Conclusion: Berberine exerted protective effects on lead-induced oxidative stress and hepatotoxicity in rats.     

Chemopreventive effect of vanadium in a rodent model of chemical hepatocarcinogenesis: reflections in oxidative DNA damage, energy-dispersive X-ray fluorescence profile and metallothionein expression

In the present study, we investigated the antitumour efficacy of vanadium in a defined rodent model of experimental hepatocarcinogenesis. Hepatic preneoplasia was induced in male Sprague-Dawley rats with a single, necrogenic, intraperitoneal injection of diethylnitrosamine (DEN) (200 mg/kg body weight) followed by promotion with phenobarbital (PB). The levels of modified DNA bases 8-hydroxy-2′-deoxyguanosine (8-OHdG), a potential marker involved in the initiation of carcinogenesis, were measured by high-performance liquid chromatography, whereas tissue trace element status and expression of metallothionein (MT), a Cu–Zn metalloprotein associated with neoplastic cell growth and subsequent development of premalignant phenotype of the cell, were studied by energy-dispersive X-ray fluorescence spectrometry and enzyme-coupled immunohistochemistry, respectively. There was a significant and steady elevation of modified bases (8-OHdG) along with substantial increase in MT immunoexpression and disturbance in trace element homeostasis following DEN exposure. Supplementation of vanadium at a dose of 0.5 ppm for four consecutive weeks strictly abated the formation of 8-OHdG (P < 0.0001; 81.28%) in preneoplastic rat liver. In a long-term DEN plus PB regimen, vanadium was able to limit in situ MT expression with a concomitant decrease in MT immunoreactivity (P < 0.05). Furthermore, vanadium treatment throughout the study restored hepatic levels of essential trace elements and decreased nodular incidence (58.34%) and nodule multiplicity (P < 0.001; 66.89%) in rats treated with DEN plus PB. Taken together, the study provides evidence in support of the chemopreventive potential of vanadium in limiting neoplastic transformation during the preneoplastic stages of hepatocarcinogenesis in rats.     

Effects of lycopene supplementation on antioxidant status,oxidative stress,performance and carcass characteristics in heat-stressed Japanese quail

Lycopene, a carotenoid present predominantly in tomatoes, is one of the most efficient antioxidants. This experiment was conducted to evaluate the effects of dietary lycopene supplementation on performance, carcass characteristics, biomarkers of oxidative stress (malondialdehyde (MDA) and homocysteine), and concentrations of vitamins C, E, A, cholesterol, triglyceride, and glucose in Japanese quails (Coturnix coturnix Japonica) exposed to high-ambient temperature of 34 °C. Two hundred and forty Japanese quails (10 day-old) were randomly assigned to eight treatment groups consisting of 10 replicates of three birds. The birds were kept at a temperature-controlled room at 22 °C (Thermoneutral, TN groups) or 34 °C (for 12 h/day; 09.00 am–05.00 pm; Heat stress, HS groups). Birds were fed either a basal (control) diet (TN and HS) or the basal diet supplemented with 50, 100 or 200 mg of lycopene/kg of diet. Lycopene supplementation linearly increased feed intake (P=0.05$P=0.05$), live weight gain (P=0.01$P=0.01$), feed efficiency (P=0.01$P=0.01$) and cold carcass weight (P=0.01$P=0.01$) and yield (P=0.05$P=0.05$) under heat stress conditions but did not show the same effect at thermoneutral conditions (P>0.05$P>0.05$). The interaction Serum vitamin C, E, and A (P=0.01$P=0.01$) concentrations increased linearly in birds reared at high temperature while non-significant changes occurred at TN groups. Homocysteine level in serum and malondialdehyde (MDA) levels in serum, liver, and heart (P=0.001$P=0.001$) linearly decreased in all birds of both TN and HS groups as dietary lycopene supplementation increased. Heat stress-induced increase in serum cholesterol (P=0.01$P=0.01$), triglycerides (P=0.05$P=0.05$) and glucose (P=0.01$P=0.01$) concentrations were linearly reversed by lycopene supplementation. Supplementation of lycopene increased the HDL concentration whereas, the VLDL and LDL concentrations reduced with lycopene supplementation (P=0.01$P=0.01$, linear), particularly at a dietary concentration of 200 mg/kg. Lycopene could not be detected in control birds while a linear increase was observed in the sera of lycopene supplemented birds The results of the study indicate that lycopene supplementation attenuated the increase in oxidative stress and depletion in antioxidants caused by heat stress in Japanese quails.     

Effect of oxalomalate on lipid metabolism and antioxidant defense system in rats

The metabolic functions of NADP(+)-specific isocitrate dehydrogenase (ID2), which may participate in the production of NADPH and biosynthesis of fatty acids, are not yet clearly understood. Accordingly, the current study investigated the effect of oxalomalate, known as a competitive inhibitor of ID2 in vitro, on lipid metabolism and the cellular defense system in vivo. Male Sprague Dawley rats (3 weeks old) were divided into two groups, fed a pelletized AIN-76 semisynthetic diet for 8 weeks, and injected intraperioneally with either saline or oxalomalate (25 mg/kg BW) dissolved in saline every 2 days. Oxalomalate did not lower the body weight and adipose tissue weight significantly; however, it significantly lower the plasma leptin concentration (p < 0.000), plasma and hepatic triglyceride levels (p < 0.01, p < 0.05), and adipocyte lipoprotein lipase activity (p < 0.01) compared to the control group. Meanwhile, hepatic antioxidant enzyme activities, except for superoxide dismutase activity (p < 0.01), glutathione content, and thiobarbituric acid reactive substances levels were not significantly different between the groups. Therefore, the current data suggests that oxalomalate produces a triglyceride-lowering activity and play a possible inhibitory role in fat accumulation. Furthermore, it was not found to affect the most antioxidative enzyme activities, glutathione content, and thiobarbituric acid reactive substances levels in rats fed normal diet.     

Interaction of exercise and adenosine receptor agonist and antagonist on rat heart antioxidant defense system

This study investigated the interactive effects of acute exercise and adenosine receptor agonist and antagonist on antioxidant enzyme activities, glutathione and lipid peroxidation in the heart of the rat. Male Fisher-344 rats were divided into six groups and treated as follows: (1) saline control; (2) acute exercise (100% VO_2max); (3) R-Phenyl isopropyl adenosine (R-PIA) (3.46 mol/kg, i.p.); (4) theophylline (1.70 mol/kg, i.p.) plus acute exercise; (5) theophylline plus R-PIA; and (6) theophylline. Animals were sacrificed 1 h after treatments; hearts were isolated and analyzed. The results show that acute exercise as well as adenosine receptor agonist R-PIA significantly enhanced cardiac superoxide dismutase (SOD), catalase (CAT), glutathione peroxidase (GSH-Px), and glutathione reductase (GR) activity by 36–135% and 16–51%, respectively. Adenosine receptor agonist R-PIA significantly decreased cardiac GSSG concentration and enhanced GSH/GSSG ratio by 22 and 30%, respectively. Whereas theophylline treatment blocked the activation of antioxidant enzyme activities enhanced by acute exercise and R-PIA. Theophylline treatment significantly increased lipid peroxidation by 43% in the heart of exercised rats. The study concluded that the adenosine receptors are involved in the upregulation of cardiac antioxidant defense system and attenuation of lipid peroxidation due to acute exercise in rats. (Mol Cell Biochem 270: 209–214, 2005)     

Changes in plasma membrane fluidity of immortal rodent cells induced by anticancer drugs doxorubicin, aclarubicin and mitoxantrone

The aim of this study was to examine the effect of three structurally different anticancer drugs-the pro-oxidative anthracyclines doxorubicin (DOX) and aclarubicin (ACL), and antioxidative anthraquinone mitoxantrone (MTX) on the fluidity of plasma membrane of immortalized rodent fibroblasts using fluorescence spectroscopy and electron spin resonance (ESR) techniques. Two kinds of fluorescent probes (TMA-DPH and 12-AS) and spin labels (5-DS and methyl-12-DS) were used to monitor fluidity in the hydrophobic core and in the polar headgroup region of the lipid bilayer. Immortalized hamster B14 and NIH 3T3 mouse fibroblasts were exposed to DOX, ACL and MTX. We demonstrate that these drugs influence predominantly the hydrophobic core of the lipid bilayer, inducing significant decrease in its fluidity at low concentrations (2-5 microM). A decreased membrane fluidity at the surface of the lipid bilayer was observed only at a higher concentration (20 microM) of the drugs, which indicates that DOX, ACL and MTX intercalate mainly into the hydrophobic core of the membrane, thereby perturbing its structure.     

The macrolide antibiotic azithromycin interacts with lipids and affects membrane organization and fluidity: Studies on langmuir-blodgett monolayers,liposomes and J774 macrophages

The macrolide antibiotic azithromycin was shown to markedly inhibit endocytosis. Here we investigate the interaction of azithromycin with biomembranes and its effects on membrane biophysics in relation to endocytosis. Equilibrium dialysis and 31P NMR revealed that azithromycin binds to lipidic model membranes and decreases the mobility of phospholipid phosphate heads. In contrast, azithromycin had no effect deeper in the bilayer, based on fluorescence polarization of TMA-DPH and DPH, compounds that, respectively, explore the interfacial and hydrophobic domains of bilayers, and it did not induce membrane fusion, a key event of vesicular trafficking. Atomic force microscopy showed that azithromycin perturbed lateral phase separation in Langmuir-Blodgett monolayers, indicating a perturbation of membrane organization in lateral domains. The consequence of azithromycin/ phospholipid interaction on membrane endocytosis was next evaluated in J774 macrophages by using three tracers with different insertion preferences inside the biological membranes and intracellular trafficking: C6-NBD-SM, TMA-DPH and N-Rh-PE. Azithromycin differentially altered their insertion into the plasma membrane, slowed down membrane trafficking towards lysosomes, as evaluated by the rate of N-Rh-PE self-quenching relief, but did not affect bulk membrane internalization of C6-NBD-SM and TMA-DPH. Azithromycin also decreased plasma membrane fluidity, as shown by TMA-DPH fluorescence polarization and confocal microscopy after labeling by fluorescent concanavalin A. We conclude that azithromycin directly interacts with phospholipids, modifies biophysical properties of membrane and affects membrane dynamics in living cells. This antibiotic may therefore help to elucidate the physico-chemical properties underlying endocytosis.     

Vitamin E and selenium administration as a modulator of antioxidant defense system: biochemical assessment and modification

Exposure of cells to ionizing radiation leads to the formation of reactive oxygen species (ROS) that are associated with radiation-induced cytotoxicity. Because of the serious damaging potential of ROS, cells depend on the elaboration of the antioxidant defense system (AODS), both enzymatic and nonenzymatic oxidant defense mechanisms. The deficiency in important components of the endogenous AODS leads to the accumulation of oxidative stress inducing oxidative damage. The antioxidant enzymes superoxide dismutase and glutathione peroxidase are key intracellular antioxidants in the metabolism of ROS. In the current study, we investigated the potential role of these antioxidant enzymes in radioresistance during the evaluation of the compensatory role of some exogenous micronutrients against oxidative stress Animals were categorized into eight groups, receiving vitamin E (α-tocopherol) and/or selenium (Se) with or without whole-body γ-irradiation (6.5 Gy). The results indicate that antioxidant pretreatments before irradiation may have some beneficial effects against irradiation-induced injury. The results also indicate that selenium and vitamin E act alone and in an additive fashion as radioprotecting agents. The results further suggest that selenium confers protection in part by inducing or activating cellular free-radical scavenging systems and by enhancing peroxide breakdown, whereas vitamin E appears to confer its protection by an alternate complementary mechanism.     

Role of antioxidant defense system and biochemical adaptation on stress tolerance of high mountain and steppe plants

Plants growing in small fragmented populations under stressful environmental conditions may have reduced sexual reproduction. This can cause low gene flow between populations and eventually extinction. Here we report on a pollination experiment with Sorbus torminalis, a rare fleshy-fruited tree with a submediterranean distribution in Europe. At the northern limit of its range in SE-Denmark two relatively small and isolated populations were studied for effects of seven pollination treatments on fruit production and on the timing of fruit abortion. There was evidence that lack of pollination and spontaneous self-pollination caused particularly high fruit abortion, which indicates that apomixis is unlikely and spontaneous self-pollination not efficient. Fruit abortion was delayed after hand pollination, which suggests limitation by pollen quantity. Self-pollination caused earlier abortion than experimental cross-pollination within or between populations indicating inbreeding depression. There was no evidence for outbreeding depression as measured by fruit abortion. We conclude that generative reproduction of S. torminalis is reduced on its northern distribution limit and that it might be negatively affected by pollen limitation and inbreeding effects, which have not been compensated for by increased self-compatibility or apomixis.     

Spin label studies on rat liver and heart plasma membranes: Effects of temperature,calcium, and lanthanum on membrane fluidity

The structures of rat liver and heart plasma membranes were studied with the 5-nitroxide stearic acid spin probe, I(1 2,3). The polarity-corrected order parameters (S) of liver and heart plasma membranes were independent of probe concentration only if experimentally determined low I(1 2,3)/lipid ratios were employed. At higher probe/lipid ratios, the order parameters of both membrane systems decreased with increasing probe concentration, and these effects were attributed to enhanced nitroxide radical interactions. Examination of the temperature dependence of approximate and polarity-corrected order parameters indicated that lipid phase separations occur in liver (between 19° and 28°C) and heart (between 21° and 32°C) plasma membranes. The possibility that a wide variety of membrane-associated functions may be influenced by these thermotropic phase separations is considered. Addition of 3.9 mM CaCl₂ to I(1 2,3)-labeled liver plasma membrane decreased the fluidity as indicated by a 5% increase in S at 37°C. Similarly, titrating I(1 2,3)-labeled heart plasma membranes with either CaCl₂ or LaCl₃ decreased the lipid fluidity at 37°C, although the magnitude of the La³⁺ effect was larger and occurred at lower concentrations than that induced by Ca²⁺; addition of 0.2 mM La³⁺ or 3.2 mM Ca²⁺ increased S by approximately 7% and 5%, respectively. The above cation effects reflected only alterations in the membrane fluidity and were not due to changes in probe–probe interactions. Ca²⁺ and La³⁺ at these concentrations decrease the activities of such plasma membrane enzymes as Na⁺, K⁺-ATPase and adenylyl cyclase, and it is suggested that the inhibition of these enzymes may be due in part to cation-mediated decreases in the lipid fluidity.     

Studies on Tetrahymena membranes:: Temperature-induced alterations in fatty acid composition of various membrane fractions in Tetrahymena pyriformis and its effect on membrane fluidity as inferred by spin-label study

The fatty acid distribution pattern of lipids extracted from different subcellular components of Tetrahymena pyriformis was found to be significantly different from one type of membrane to another.The growth-temperature shift caused alterations in fatty acid composition. The ratio of palmitoleic to palmitic acid, especially, showed a sharp linear decline with increase of temperature in all of the membrane fractions.The spin labels were rapidly incorporated into Tetrahymena membranes. The order parameter of 5-nitroxide stearate spin label incorporated into various membrane fractions was found to be different for the different membrane fractions, suggesting the following order of the fluidity; microsomes > pellicles > cilia.The fluidity of the surface membranes, cilia and pellicles isolated from Tetrahymena cells grown at 15°C was noticeably higher than that of the membranes from cells grown at 34°C but was not so different with microsomal fractions.The motion of the spin label in the pellicular membrane was more restricted than in its extracted lipids, thus indicating the assumption that in Tetrahymena membranes the proteins influence the fluidity.It was also suggested that a sterol-like triterpenoid compound, tetrahymanol, which is principally localized in the surface membranes, would be involved in the membrane fluidity.     

Effects of heat stress on antioxidant defense system,inflammatory injury,and heat shock proteins of Muscovy and Pekin ducks: evidence for differential thermal sensitivities

Rising temperatures are severely affecting the mortality, laying performance, and meat quality of duck. Our aim was to investigate the effect of acute heat stress on the expression of heat shock proteins (HSPs: HSP90, 70, 60, 40, and 10) and inflammatory factors (nitric oxide synthase (iNOS), cyclooxygenase-2 (COX-2)) and antioxidant enzyme activity (superoxide dismutase (SOD), malondialdehybe (MDA), catalase (CAT), total antioxidant capacity (T-AOC)) in livers of ducks and to compare the thermal tolerance of Pekin and Muscovy ducks exposed to acute heat stress. Ducks were exposed to heat at 39 ± 0.5 °C for 1 h and then returned to 20 °C for 1 h followed by a 3-h recovery period. The liver and other tissues were collected from each individual for analysis. The mRNA levels of HSPs (70, 60, and 40) increased in both species, except for HSP10, which was upregulated in Muscovy ducks and had no difference in Pekin ducks after heat stress. Simultaneously, the mRNA level of HSP90 decreased in the stress group in both species. Morphological analysis indicated that heat stress induced tissue injury in both species, and the liver of Pekin ducks was severely damaged. The activities of several antioxidant enzymes increased in Muscovy duck liver, but decreased in Pekin duck. The mRNA levels of inflammatory factors were increased after heat stress in both duck species. These results suggested that heat stress could influence HSPs, inflammatory factors expression, and the activities of antioxidant enzymes. Moreover, the differential response to heat stress indicated that the Muscovy duck has a better thermal tolerance than does the Pekin duck.     

水温对中华鲟血清活性氧含量及抗氧化防御系统的影响

本文通过对12℃、21℃、26℃、31℃水温环境中的中华鲟的血清活性氧(ROS)含量、谷胱甘肽(GSH)含量、丙二醛(MDA)含量、过氧化氢酶(CAT)和超氧化物歧化酶(SOD)活力的测定,表明水温对中华鲟体内自由基水平及其抗氧化防御体系有着显著的影响.在鲟鱼存活的水温范围内,中华鲟依靠自身的抗氧化防御系统,可以抵御活性氧含量的变化可能产生的损害,但这种抵御作用因水温的不同而表现出不同的特点.结果表明,随着水温的升高,血清ROS和MDA含量显著升高,ROS和MDA均与水温有显著的正相关性;GSH含量随水温先升高后降低,21℃时含量最高;26℃和31℃中的SOD活力要显著高于其他温度组;GSH和SOD与水温(T)具有显著的相关性:SOD=-7.7972 17 228 T-0.2821 T2(r=0.8923,p<0.01),GSH=-146.58 32.3951 T-0.7427 T2(r=0.8661,p<0.01).在试验期间,各温度组的中华鲟的血清CAT活性并没有发生显著变化.血清MDA含量和血清ROS含量之间具有显著的正相关关系,高温(26℃和31℃)状态下ROS产生增加而造成脂质过氧化反应增加,其增加程度要显著高于其他温度组,产生一定程度的氧化应激;而低温和适温环境虽然存在ROS随水温升高而升高的规律,但血清SOD活性和血清ROS含量之间存在显著的正相关关系.试验结果表明,在一定的温度范围内,中华鲟体内的抗氧化剂和抗氧化酶系统维持着体内自由基的"自稳态",使机体的脂质过氧化反应处于较低的状态.