Effects of phenylhydrazine on the electrophoretic and isoelectric focusing behaviour of malate dehydrogenase isozymes in Ictalurus species (Ictaluridae,Teleostei)

Significant changes in MDH isozymes were noted in Ictalurus sp. after treatment with phenylhydrazine and these changes varied at different stages and in the various tissues. The alterations observed were related to the substance injected, exposure time and the fish's physiological state and ability to react. Thirteen days after exposure, most tissues were able to achieve full recovery of MDH isozyme activity, the sole exceptions being serum and white muscle, where recovery was only slight or non-existent. The results are correlated with MDH biological function and possible biotransformation of phenylhydrazine.     

Differential effect of phenylhydrazine on the catecholase and cresolase activities of Vitis catechol oxidase

The simultaneous addition of phenylhydrazine and p-cresol to grape catechol oxidase resulted in enhanced oxidation of p-cresol. Carbonyl reagents such as hydrazine, borohydride and semicarbazide also enhanced cresolase activity but had no effect on catecholase activity. Pretreatment of the enzyme with periodate abolished cresolase activity. The effects of periodate and ascorbate or semicarbazide on cresolase activity were mutually reversible. The simultaneous addition of phenylhydrazine and 4-methylcatechol to the enzyme did not result in inhibition of the initial rate of oxidation of the phenolic substrate. It is concluded that phenylhydrazine does not react with a carbonyl group on the enzyme. The possible involvement of conformational changes in the enzyme, determining phenylhydrazine inhibition is discussed.     

Hemolytic effect of phenylhydrazine during amphibian metamorphosis

The correlation between the spectral changes in hemoglobin and the severity of anemia induced by phenylhydrazine treatment was studied for the differential sensitivity of amphibians to the drug. Froglets were the most sensitive to phenylhydrazine, followed by prometamorphic tadpoles, adult frogs, metamorphic climax tadpoles, and triiodothyronine-treated tadpoles. The different sensitivities to the hemolytic action of the drug in these animals was rationalized in terms of accessibility, uptake, and detoxication of phenylhydrazine, and a different rate of removal of damaged cells. Postmetamorphic responses were noted for the low uptake of phenylhydrazine by erythrocytes and the loss of facilitated diffusion of 3-O-methylglucose by the erythrocytes of the adult frog.     

Effect of phenylhydrazine on the multiple hemoglobins of Rana catesbeiana tadpoles

Tadpoles of Rana catesbeiana immersed in or injected with phenylhydrazine show a preferential loss from the circulation of the electrophoretically fastest hemoglobin (Hb) and retention of the electrophoretically slower Hb's on polyacrylamide disk-gels.The electrophoretically slowest Hb has previously been found to be synthesized in the kidney while the other Hb's are synthesized in the liver. We postulate that the differential response of the tadpole hemoglobins to the action of phenylhydrazine results from the different Hb's being found in different red blood cell lines that originate in different erythropoietic tissues.     

Effects of oxidative stress on the Dolichol content of isolated rat liver cells

Dolichol, a long-chain polyisoprenoid broadly distributed in all tissues and cellular membranes with unknown function(s), might have a role in free radical metabolism [it accumulates in older tissues and decreases after CCl₄ (in liver) or phenylhydrazine (in spleen and liver) administration]. The effects of the NADPH-ADP-Fe system on Dolichol levels in isolated hepatocytes were explored and the time-course of changes was compared with the release of MDA in the incubation medium and the decrease in CoQ 9 and 10 and Vitamin E levels. Results showed that the system increased lipid peroxidation and decreased Dolichol and CoQ levels in_parallel fashions and lowered Vitamin E levels with shorter latency. Meanwhile, no increase in dead cells and no Dolichol release in the medium were detected. In conclusion, an increase in oxidative stress possibly caused a rapid degradation of dolichol by the same (unknown) mechanism responsible for the breakdown of_Ubiquinone isoprenoid chains.     

Modulation of hepatic lipidome by rhodioloside in high-fat diet fed apolipoprotein E knockout mice

BackgroundRhodioloside is a glucoside of tyrosol isolated from Rhodiola rosea. However, its regulating effect on hepatic dyslipidemia of atherogenic mice has rarely been studied.PurposeThe specific aims of current study included to clarify lipidomic perturbation in liver tissues of apolipoprotein E deficient (apoE^−/−) mice fed with high-fat diet, and to examine the effects of rhodioloside against atherosclerosis and dyslipidemia.Study DesignThe comparisons of hepatic lipidome were executed between wide type (WT) mice fed with normal diet (NDC) and apoE^−/− mice fed with high-fat diet (Model), WT mice fed with high-fat diet (HFDC) versus the model mice, as well as the model mice versus rhodioloside-treated atherosclerotic mice.MethodsUltra high performance liquid chromatography coupled with a Q exactive hybrid quadrupole-orbitrap mass spectrometry (UPLC-MS/MS) was employed to provide an unbiased and simultaneous measurement of individual lipid species in liver tissues.ResultsMultivariate statistical analysis derived from LC-MS spectra revealed that high-fat diet and apoE deficiency caused a series of disturbances on glyerolipid metabolism, glycerophospholipid metabolism and sphingolipid metabolism. Rhodioloside administration showed atheroprotective effects on the apoE^−/− mice with regulating the levels of 1 phosphatidylcholine, 2 phosphatidylserines, 5 alkyldiacylglycerols and 3 alkenyldiacylglycerols back to normal. In particular, PC (4:0/15:0) was positively associated with high-density lipoprotein cholesterol in blood, both of which could be ameliorated by rhodioloside.ConclusionOur results identified the abnormal hepatic lipids in atherosclerosis progression that could efficiently improved by rhodioloside. These lipids contributed to biological understanding of atherogenic dyslipidemia in liver and could also served as sensitive indicators for drug target screening.     

Autoanalytical procedure for the determination of allantoin and allantoic Acid in soybean tissue

Ureide analyses of soybean (Glycine max L.) tissues were accomplished with a modified and simplified automated analysis used to determine allantoin concentration in rat urine. The length of the circuit and flow rates of the solutions were reduced, and NaOH was used for color development at room temperature. Keto-acids did not significantly interfere with the determinations of ureides except for glyoxylic acid in extracts of fresh soybean tissue. The interference caused by glyoxylic acid was avoided by adding phenylhydrazine HCl to the solution of NaOH used for alkaline hydrolysis of allantoin.     

Effects of oxidative stress on the Dolichol content of isolated rat liver cells

Dolichol, a long-chain polyisoprenoid broadly distributed in all tissues and cellular membranes with unknown function(s), might have a role in free radical metabolism [it accumulates in older tissues and decreases after CCl₄ (in liver) or phenylhydrazine (in spleen and liver) administration]. The effects of the NADPH-ADP-Fe system on Dolichol levels in isolated hepatocytes were explored and the time-course of changes was compared with the release of MDA in the incubation medium and the decrease in CoQ 9 and 10 and Vitamin E levels. Results showed that the system increased lipid peroxidation and decreased Dolichol and CoQ levels in_parallel fashions and lowered Vitamin E levels with shorter latency. Meanwhile, no increase in dead cells and no Dolichol release in the medium were detected. In conclusion, an increase in oxidative stress possibly caused a rapid degradation of dolichol by the same (unknown) mechanism responsible for the breakdown of_Ubiquinone isoprenoid chains.     

Effect of S-allylcysteine,a sulphur containing amino acid on iron metabolism in streptozotocin induced diabetic rats

It is suggested that iron may play a role in the pathogenesis of diabetes. Iron is not only chaperoned through its essential functional pathways, but it also causes damage to biological systems by catalyzing the production of reactive oxygen species. So, the parenchymal tissues of several organs are subject to cell injury and functional insufficiency due to excess deposition of iron. The present study investigated the effects of S-allylcysteine (SAC), a sulphur containing amino acid derived from garlic on the changes in iron metabolism induced by oxidative stress in tissues, as well as on serum biochemical parameters of streptozotocin (STZ)-induced diabetic rats. SAC was administered orally for 45 days to control and experimental diabetic rats. The effects of SAC on glucose, insulin, serum iron, ferritin, transferrin, serum bilirubin, heart heme oxygenase activity (HO) and δ-aminolevulinicacid dehydratase activity (δ-ALA-D) in liver and kidneys were studied. The levels of glucose, iron, ferritin, bilirubin and HO in liver were increased significantly (p < 0.05) whereas the levels of insulin, transferrin and δ-ALA-D in tissues were decreased in diabetic rats. Administration of SAC to diabetic rats showed a decrease in blood glucose, iron, ferritin, bilirubin and HO. In addition, the levels of insulin, transferrin and δ-ALA-D activity in tissues were increased in SAC treated diabetic rats. These findings suggest that S-allylcysteine could have a protective effect against alterations in oxidative stress induced iron metabolism in the diabetic state which was evidenced by the capacity of this natural antioxidant to modulate parameters of iron metabolism.     

口服苯肼致小鼠慢性贫血模型的建立

目的:应用苯肼建立小鼠急性溶血性贫血的方法已经成熟,但用苯肼建立慢性溶血性贫血模型尚未见报道。本研究试图应用苯肼口服法建立慢性溶血性贫血动物模型并探索最适建模的苯肼浓度。方法:42只C57BL/6小鼠随机分为6组通过口服不同浓度的苯肼溶液,于口服后的第0,1,2,3,4,5,6周目内眦采集小鼠外周血检测,记录相关指标变化比较各组之间的差异,筛选出最佳慢性溶血效果的给药浓度。结果:口服苯肼溶液浓度在250 mg/L以下时C57BL/6小鼠没有出现明显的贫血状态,当浓度调至250mg/L-350mg/L时可使C57BL/6小鼠在5-7周内出现溶血性贫血症状,各组小鼠的皮肤和粘膜颜色苍白,外周血红细胞数量、血红蛋白含量、红细胞压积降低网织红细胞比例增高。但是当浓度达到350 mg/L时小鼠贫血情况过重且达不到慢性贫血的要求。当浓度为300 mg/L时小鼠各项血液指标平稳下降。结论:本实验建立了一种新的小鼠慢性贫血模型,且通过实验发现小鼠口服苯肼致慢性贫血的最佳浓度为300mg/L。据我们所知,这是首次使用苯肼建立慢性贫血的动物模型,此模型对研究人类慢性贫血具有重要价值。     

Purification and Properties of Glutamate-phenylpyruvate Aminotransferase from the Ruminal Bacterium,Prevotella bryantii B14

Prevotella species are important in catabolic protein metabolism by the mixed ruminal microbial population. This study was conducted to purify and investigate properties of one of the enzymes involved in amino acid metabolism by Prevotella bryantii B₁4, glutamate-phenylpyruvate aminotransferase (GPA; EC 2.6.1.64). GPA was purified 51-fold from a cell-free extract by ammonium sulfate precipitation and column chromatography with Phenyl-superose, DEAE-Toyopearl 650 M, Sephacryl S-100 HR and Sephadex G-100. The molecular mass of GPA was estimated to be 28.0 kDa by SDS-PAGE. The optimum pH was 6.5 and the activity declined above pH 9.0. GPA was reactive over a wide range of pH from 5.0 to 10.5. Maximum activity of GPA occurred at 45°C and the activity declined at temperatures over 55°C. GPA was stable below 60°C. Aminooxyacetate and phenylhydrazine were highly inhibitory, while SDS, EDTA and some heavy metal ions also inhibited activity. The purification and characterization of enzyme will help to isolate the gene and ultimately to understand the role of GPA in both anabolic and catabolic amino acid metabolism by P. bryantii B₁4.     

Changes in levels of cyclic AMP and cyclic GMP in various tissues of the rat induced by cold acclimation

In the rat, the effects of cold acclimation on the content of cyclic AMP and cyclic GMP were studied in various tissues concerned with increased heat production: brown and white adipose tissue, liver, heart, diaphragm, lungs, adrenals, thyroid. Significant cold-induced variations were observed only in those tissues in which the lipid metabolism is enhanced by cold (adipose tissues and liver). In these tissues, decrease in the cAMP/cGMP ratio indicates a role of cGMP in the regulation of the increased lipid metabolism.     

Photosynthetic responses of lettuce to downy mildew infection and cytokinin treatment

Changes in primary metabolism of lettuce, Lactuca sativa L. (cv. Cobham Green), induced by compatible interaction with the biotrophic oomycete pathogen Bremia lactucae Regel (race BL 16), under two intensities of illumination in the presence and absence of exogenous cytokinins were studied by chlorophyll fluorescence imaging. Thirteen days post-inoculation leaf discs infected by B. lactucae exhibited impairments of photosynthesis associated with biotrophic infections, including: reductions in photosynthetic pigment contents and the maximum quantum yield of photosystem II photochemistry (F_V/F_M), inhibition of electron transport (Φ_PSII) and increased non-photochemical chlorophyll fluorescence quenching (NPQ). Detected changes in photosynthetic parameters correlated with the leaf area colonized by the pathogen’s intercellular hyphae. Applications of two cytokinins, benzylaminopurine and meta-topolin, previously shown to suppress B. lactucae sporulation if applied 24 h prior to inoculation at a concentration of 200 μM, retarded the pathogen’s asexual reproduction with no apparent negative effects on the host’s photosynthetic apparatus. However, long-lasting treatment of healthy tissues with this high concentration of exogenous cytokinin led to effects parallel to pathogenesis: reductions in photosynthetic pigment contents accompanied by inhibition of photosystem II photochemistry and electron transport. These effects of both prolonged exposure to cytokinins and the pathogenesis were weaker in discs exposed to the lower photosynthetic photon flux density. The role of cytokinins in plant-biotrophic pathogen interactions and their potential as disease control agents are discussed.     

Alterations in Bone and Erythropoiesis in Hemolytic Anemia: Comparative Study in Bled,Phenylhydrazine-Treated and Plasmodium-Infected Mice

Sustained erythropoiesis and concurrent bone marrow hyperplasia are proposed to be responsible for low bone mass density (BMD) in chronic hemolytic pathologies. As impaired erythropoiesis is also frequent in these conditions, we hypothesized that free heme may alter marrow and bone physiology in these disorders. Bone status and bone marrow erythropoiesis were studied in mice with hemolytic anemia (HA) induced by phenylhydrazine (PHZ) or Plasmodium infection and in bled mice. All treatments resulted in lower hemoglobin concentrations, enhanced erythropoiesis in the spleen and reticulocytosis. The anemia was severe in mice with acute hemolysis, which also had elevated levels of free heme and ROS. No major changes in cellularity and erythroid cell numbers occurred in the bone marrow of bled mice, which generated higher numbers of erythroid blast forming units (BFU-E) in response to erythropoietin. In contrast, low numbers of bone marrow erythroid precursors and BFU-E and low concentrations of bone remodelling markers were measured in mice with HA, which also had blunted osteoclastogenesis, in opposition to its enhancement in bled mice. The alterations in bone metabolism were accompanied by reduced trabecular bone volume, enhanced trabecular spacing and lower trabecular numbers in mice with HA. Taken together our data suggests that hemolysis exerts distinct effects to bleeding in the marrow and bone and may contribute to osteoporosis through a mechanism independent of the erythropoietic stress.     

Metabonomic studies on potential plasma biomarkers in rats exposed to ionizing radiation and the protective effects of Hong Shan Capsule

An ultra performance liquid chromatography coupled to mass spectrometry-based metabonomic approach, combined with pattern recognition methods including PCA, PLS-DA, RF and heatmap, has been developed to characterize the global serum metabolic profile associated with ionizing radiation (IR). As the VIP-value threshold cutoff of the metabolites was set to 2, metabolites above this threshold were filtered out as potential target biomarkers. Nineteen distinct potential biomarkers in rat plasma were identified. To further elucidate the pathophysiology of IR, related metabolic pathways have been studied. It was found that IR was closely related to disturbed fatty acid metabolism, taurine and hypotaurine metabolism, sphingolipid metabolism, purine metabolism, pyrimidine metabolism, phospholipid catabolism, tryptophan metabolism, phenylalanine metabolism, and bile acid metabolism. With the presented metabonomic method, we systematically analyzed the protective effects of Traditional Chinese Medicine Hong Shan Capsule (HSC). The results demonstrated that HSC administration could provide satisfactory effects on IR through partially regulating the perturbed metabolic pathways.     

Consequences of Warming and Resource Quality on the Stoichiometry and Nutrient Cycling of a Stream Shredder

As a result of climate change, streams are warming and their runoff has been decreasing in most temperate areas. These changes can affect consumers directly by increasing their metabolic rates and modifying their physiology and indirectly by changing the quality of the resources on which organisms depend. In this study, a common stream detritivore (Echinogammarus berilloni Catta) was reared at two temperatures (15 and 20°C) and fed Populus nigra L. leaves that had been conditioned either in an intermittent or permanent reach to evaluate the effects of resource quality and increased temperatures on detritivore performance, stoichiometry and nutrient cycling. The lower quality (i.e., lower protein, soluble carbohydrates and higher C:P and N:P ratios) of leaves conditioned in pools resulted in compensatory feeding and lower nutrient retention capacity by E. berilloni. This effect was especially marked for phosphorus, which was unexpected based on predictions of ecological stoichiometry. When individuals were fed pool-conditioned leaves at warmer temperatures, their growth rates were higher, but consumers exhibited less efficient assimilation and higher mortality. Furthermore, the shifts to lower C:P ratios and higher lipid concentrations in shredder body tissues suggest that structural molecules such as phospholipids are preserved over other energetic C-rich macromolecules such as carbohydrates. These effects on consumer physiology and metabolism were further translated into feces and excreta nutrient ratios. Overall, our results show that the effects of reduced leaf quality on detritivore nutrient retention were more severe at higher temperatures because the shredders were not able to offset their increased metabolism with increased consumption or more efficient digestion when fed pool-conditioned leaves. Consequently, the synergistic effects of impaired food quality and increased temperatures might not only affect the physiology and survival of detritivores but also extend to other trophic compartments through detritivore-mediated nutrient cycling.     

Enzymatic activation of hydrazine derivatives. A spin-trapping study

The oxidative metabolism of hydralazine, isoniazid, iproniazid, and phenylhydrazine has been studied using spin-trapping techniques. The oxidation of these hydrazine derivatives, catalyzed by horseradish peroxidase and prostaglandin synthetase, produces reactive free radical intermediates. Enzymatic activation of hydralazine produce the nitrogen-centered hydralazyl radical (RNHNH); phenylhydrazine formed only the phenyl radical. Iproniazid, on the other hand, formed both the isopropyl radical and a hydroperoxy radical. The formation of the hydroperoxy radical was not inhibited by superoxide dismutase. The horseradish peroxidase-catalyzed oxidation of isoniazid produced two different carbon-centered radicals. The identity of these radicals is not clear; however, they may arise from an acyl (RCO) radical and an alkyl (R) radical.     

The intake of a high-fat diet and grape seed procyanidins induces gene expression changes in peripheral blood mononuclear cells of hamsters: capturing alterations in lipid and cholesterol metabolisms

We previously demonstrated that hamsters that were fed either a standard diet (STD) or a high-fat diet (HFD) and treated with a grape seed procyanidin extract (GSPE) showed decreased adiposity and circulating levels of free fatty acids compared with hamsters treated with a vehicle (Caimari et al. in Int J Obes 37:576–83, 2013, doi:10.1038/ijo.2012.75). Here, we tested whether the gene expression changes in peripheral blood mononuclear cells (PBMCs) can reflect these metabolic effects and the dyslipidaemia produced by the HFD feeding in the same cohort of animals. The mRNA levels of a subset of genes were also studied in the liver in order to evaluate the capacity of PBMCs to reflect the metabolic adaptations that occur in this organ. In PBMCs, we reported a simultaneous up-regulation of the lipid-related genes involved in both the anabolic (pparγ, acc1 and gpat) and the catabolic (pparα, ucp2, atgl and hsl) pathways in response to the GSPE treatment, similar but no identical to previous observations in retroperitoneal white adipose tissues of these animals. Furthermore, the key cholesterol metabolism genes srebp2 and ldlr were significantly down-regulated in PBMCs of both HFD-fed groups compared with the STD groups. Although the expression of srebp2 in the liver followed a similar pattern to that obtained in PBMCs, no comparable changes were found between the liver and PBMCs in the expression of most of the studied genes. In conclusion, our results highlight the potential of PBMCs as a high accessible tissue for the indirect study of cholesterol and adipose tissue metabolism dynamics.

Electronic supplementary material

The online version of this article (doi:10.1007/s12263-014-0438-y) contains supplementary material, which is available to authorized users.     

Metabolic changes in diseased insects. IV. Radioautographic studies on protein changes in nuclear polyhedrosis, densonucleosis, and Tipula iridescent virus infections

Changes in glutamic acid, leucine, arginine, and tyrosine in Lepidoptera and Hymenoptera tissues infected with nuclear polyhedrosis (NPV), densonucleosis (DNV), or Tipula iridescent (TIV) viruses were studied by radioautography with a view to determining the effect of the viruses on protein metabolism.