Role of ascorbate in lung cellular toxicity mediated by light-exposed parenteral nutrition solution

Neonatal lung injury has been induced experimentally by infusion of multivitamin-containing light-exposed parenteral nutrition (PN) solutions. The objective was to explore the role of ascorbate in toxic effects of light-exposed PN on primary cultured foetal rat lung epithelial cells. Hydroperoxides were measured in 3% amino acid solutions at baseline, immediately after addition of either multivitamins or ascorbate alone (400 μg/mL) and again after a 24-h period of exposure to (or protection from) ambient light. Cellular toxicity was assessed by [C(14)]adenine release. Multivitamins or ascorbate alone increased hydroperoxides in PN, which was attenuated by light protection. Light-exposed PN containing multivitamins was more toxic to cells than baseline or light-protected PN. Exposure to ascorbate at concentrations both lower (< 5 μg/mL) and higher (> 1000 μg/mL) than normally contained in PN-induced oxidant-mediated cell death, as indicated by protective effects of hydroperoxide and hydroxyl radical scavengers. This study concludes that ascorbate generates toxic amounts of peroxide in PN solutions. The types and physiological importance of hydroperoxides induced by pro-oxidant effects of ascorbate require further evaluation in vivo.     

Inhibitory effect of ebselen on the oxidation of low density lipoprotein

The inhibitory effect of a synthesized glutathione peroxidase (GSHPX) mimic- ebselen, and its cofactor glutathione (GSH), on the oxidation of low density lipoprotein (LDL) induced by Cu²⁺ was studied by determination of hydroperoxides and thiobarbituric acid reactive substances (TBARS). Ebselen alone had a strong inhibitory effect on the oxidation of LDL. The lag time of LDL oxidation was prolonged with an increase in the concentration of ebselen. The inhibitory effect of 5 μM ebselen was equivalent to that of 50 μM α-tocopherol. When GSH was present, ebselen exhibited stronger inhibitory effect than when present alone. With 50 μM GSH, ebselen at a concentration as low as 5 μM could inhibit oxidation of LDL induced by 5 μM Cu²⁺ completely for at least 24 h. Ebselen at high concentrations (100 μM) decomposed hydroperoxides in pre-oxidized LDL and effectively prevented its further oxidation, but not in the present of EDTA. Low concentration of ebselen (5 μM) plus GSH (50 μM) decomposed hydroperoxides in pre-oxidized LDL whether EDTA was added or not.     

Plasma Adiponectin Increases Postprandially in Obese,but not in Lean,Subjects

Objective: We investigated the acute responses of plasma adiponectin levels to a test meal in lean and obese subjects. Research Methods and Procedures: We studied 13 lean and 11 obese subjects after a 10‐hour overnight fast. Glucose, insulin, and adiponectin concentrations were measured at baseline and 15, 30, 60, 120, and 180 minutes after a fixed breakfast. Results: At baseline, fasting adiponectin concentrations were lower in the obese group vs. the lean group [mean (95% confidence interval): 2.9 (2.1 to 4.1) μg/mL vs. 8.6 (6.5 to 11.3) μg/mL], but rose 4‐fold postprandially in the obese group, reaching a peak at 60 minutes [baseline: 2.9 (2.1 to 4.1) μg/mL vs. 60 minutes: 12.1 (8.5 to 17.4) μg/mL; p< 0.0001] and remaining elevated for the remainder of the study. There were no postprandial changes in plasma adiponectin concentrations in lean subjects. Discussion: This increase of adiponectin concentrations in obese individuals might have important beneficial effects on postprandial glucose and lipid metabolism and might be viewed as a mechanism for maintaining normal glucose tolerance in those who are obese and insulin resistant.     

Chromium and chronic ascorbic acid depletion effects on tissue ascorbate,manganese, and14C retention from14C-ascorbate in guinea pigs

Chromium (Cr) potentiates the effects of insulin and a role for insulin in ascorbic acid transport has been reported. Therefore, the effects of Cr and ascorbate depletion on tissue ascorbic acid and¹⁴C distribution and excretion after a¹⁴C ascorbate dose were investigated in guinea pigs. As utilization of dietary Cr is affected by interaction with other minerals, tissue manganese (Mn), zinc (Zn), copper (Cu), and iron (Fe) were examined. For 20 wk, 40 weanling animals were fed either a Cr-deficient (<0.06 μg Cr/g diet, ?Cr) or a Cr-adequate (2 μg Cr from CrCl₃/g diet, +Cr) casein-based diet and were given 1 mg ascorbate/d (?C) or 10 mg ascorbate/d (+C) for 20 wk. Animals fed the Cr-depleted diet had decreased weight at 20 wk (p<0.01). Six hours before necropsy, animals were dosed by micropipette with 1.8 μCi ofl-[carboxyl-¹⁴C] ascorbic acid and placed in metabolic cages. Ascorbate supplementation increased Fe concentrations in most analyzed tissues, hepatic¹⁴C, tissue ascorbate and Mn concentration in the adrenal and testes, but decreased the concentrations of Cu in the kidney and Mn in the spleen. Liver Mn concentration was higher and kidney Mn concentration was lower in +Cr animals. Interactions between Cr and ascorbic acid affected Mn concentrations in bone and brain. These results indicate that ascorbate and Cr may affect Mn distribution. Chromium supplementation decreased plasma cortisol, brain¹⁴C and the amount of¹⁴C expired as carbon dioxide. These findings suggest that dietary Cr may affect ascorbic acid metabolism and the metabolic response to stress.     

In vitro effects of peroxynitrite treatment on fish liver catalase activity

The effect of peroxynitrite (PN), a highly toxic agent, on catalase (CAT) activity in fish liver microsomal homogenates was determined. PN was synthesized by mixing acidic hydrogen peroxide solution with sodium nitrite solution and then adding sodium hydroxide solution into the mixture in order to stabilize the highly labile compound peroxynitrous acid (ONOOH) in peroxynitrite anion form (ONOO^? ). The effect of PN and decomposed peroxynitrite (DPN), prepared by preincubation with HCl, was monitored by using a constant amount of homogenate containing the CAT enzyme. Significant losses were observed in the CAT activity of fish liver enzyme after treatment with PN and also with DPN products, the inhibitory effect of PN being slightly more pronounced than that of DPN. IC₅₀ values were 5.5 and 8.5 μM for PN and DPN, respectively. The PN inhibition of CAT activity is due to both the effects of the secondary and decomposition products of PN and its nitration and oxidation effects on the amino acid residues of the enzyme.     

Actinidia arguta Pulp: Phytochemical Composition,Radical Scavenging Activity,and in Vitro Cells Effects

Hardy kiwifruit (Actinidia arguta) is a highly appreciated exotic fruit endowed with outstanding bioactive compounds. The present work proposes to characterize the pulp from A. arguta organic fruits, emphasizing its radicals scavenging capacity and effects on intestinal cells (Caco-2 and HT29-MTX). The physicochemical properties and phenolic profile were also screened. The total phenolic and flavonoid contents (TPC and TFC, respectively) of pulp were 12.21 mg GAE/g on dry weight (DW) and 5.92 mg CE/g DW, respectively. A high antioxidant activity was observed (FRAP: 151.41 μmol FSE/g DW; DPPH: 12.17 mg TE/g DW). Furthermore, the pulp did not induce a toxic effect on Caco-2 and HT29-MTX cells viability up to 1000 μg/mL. Regarding in vitro scavenging capacity, the pulp revealed the highest scavenging power against NO^. (IC₅₀=3.45 μg/mL) and HOCl (IC₅₀=12.77 μg/mL). These results emphasize the richness of A. arguta fruit pulp to be used in different food products.     

Interstitial Ascorbate in Turtle Brain Is Modulated by Release and Extracellular Volume Change

Abstract: The isolated turtle cerebellum was used as a model system to study effects of depolarizing conditions on interstitial ascorbic acid concentration. The depolarizing stimulus was Leão's spreading depression, which is characterized by transient negative extracellular potentials, high potassium levels (20–60 μM), and local depression of neuronal activity. Interstitial concentrations of ascorbate (200–400 μM) and other electroactive species were monitored voltammetrically, using graphite fiber microelectrodes. Total tissue ascorbate (1,810 nmol/g tissue wet weight) was similar to mammalian levels and was several orders of magnitude higher than catecholamine and indoleamine content. During spreading depression, a large (up to 200 μM) increase in concentration of interstitial electroactive species was monitored. Use of Nafion-and ascorbate oxidase-coated electrodes and uricase confirmed that ascorbate was the only substance detected. Simultaneous monitoring of ascorbate, extracellular potential, and extracellular volume (using tetramethylammonium and ion-selective microelectrodes) indicated that (a) the ascorbate increase began with the decrease in extracellular volume during spreading depression, and (b) much of the increase was the result of extracellular volume decrease. In sucrose-substituted medium, in which volume changes are eliminated, a 50 μM increase in interstitial ascorbate, caused by release from intracellular stores, was also seen. The ascorbate concentration increase was prolonged in sucrose medium, suggesting that an uptake process involving sodium may further regulate interstitial ascorbate concentration.     

Inactivation of Tyrosine Hydroxylase Activity by Ascorbate In Vitro and in Rat PC12 Cells

Abstract: Tyrosine hydroxylase activity is reversibly modulated by the actions of a number of protein kinases and phosphoprotein phosphatases. A previous report from this laboratory showed that low-molecular-weight substances present in striatal extracts lead to an irreversible loss of tyrosine hydroxylase activity under cyclic AMP-dependent phosphorylation conditions. We report here that ascorbate is one agent that inactivates striatal tyrosine hydroxylase activity with an EC₅₀ of 5.9 μM under phosphorylating conditions. Much higher concentrations (100 mM) fail to inactivate the enzyme under nonphosphorylating conditions. Isoascorbate (EC₅₀, 11 μM) and dehydroascorbate (EC₅₀, 970 μM) also inactivated tyrosine hydroxylase under phosphorylating but not under nonphosphorylating conditions. In contrast, ascorbate sulfate was inactive under phosphorylating conditions at concentrations up to 100 mM. Since the reduced compounds generate several reactive species in the presence of oxygen, the possible protecting effects of catalase, peroxidase, and superoxide dismutase were examined. None of these three enzymes, however, afforded any protection against inactivation. We also examined the effects of ascorbate and its congeners on the activity of tyrosine hydroxylase purified to near homogeneity from a rat pheochromocytoma. This purified enzyme was also inactivated by the same agents that inactivated the impure corpus striatal enzyme. Under conditions in which ascorbate almost completely abolished enzyme activity, we found no indication for significant prote-olysis of the purified enzyme as determined by sodium do-decyl sulfate-polyacrylamide gel electrophoresis. We also found that pretreatment of PC12 cells in culture for 4 h with 1 mM ascorbate, dehydroascorbate, or isoascorbate (but not ascorbate sulfate) also decreased tyrosine hydroxylase activity 25–50%. The inactivation seen under in vitro conditions appears to have a counterpart under more physiological conditions.     

Cytosolic factors which affect microsomal lipid peroxidation in lung and liver

Studies were carried out to determine the effects of lung and liver cytosol on pulmonary and hepatic mierosomal lipid peroxidation, to determine the cytosolic concentrations of various substances which affect lipid peroxidation, and to determine which of these substances is responsible for the effects of the cytosol on lipid peroxidation. Lung cytosol inhibits both enzymatic (NADPH-induced) and nonenzymatic (Fe²⁺-induced) lung microsomal lipid peroxidation. In contrast, liver cytosol stimulates lipid peroxidation in hepatic microsomes during incubation alone, enhances Fe²⁺-stimulated lipid peroxidation, and has no effect on the NADPH-induced response. Substances which are known to be involved in inhibition of lipid peroxidation, including glutathione, glutathione reductase, glutathione peroxidase, and superoxide dismutase, are found in greater concentrations in liver cytosol than in lung cytosol. However, ascorbate is found in approximately equal concentrations in pulmonary and hepatic cytosol. Most of the effects of the cytosol on lipid peroxidation seem to be due to ascorbate and glutathione. For example, ascorbate, in concentrations found in lung cytosol, inhibits lung microsomal lipid peroxidation to about the same extent as the cytosol. The effects of liver cytosol on hepatic microsomal lipid peroxidation can be duplicated by concentrations of ascorbate and glutathione normally found in the cytosol; i.e., ascorbate stimulates and glutathione inhibits lipid peroxidation with the net effect being similar to that of liver cytosol. The results indicate that ascorbate has opposite effects on pulmonary and hepatic microsomal lipid peroxidation and suggest that ascorbate plays a major role in protecting pulmonary tissue against the harmful effects of lipid peroxidation.     

Human trophoblastic β1-glycoprotein as a differentiation factor of minor regulatory T-lymphocyte subsets (Treg,Th17). The involvement of CD9

Human trophoblastic β1-glycoprotein (PSG) was studied in vitro as a differentiation factor of T-regulatory lymphocytes (Treg) and IL-17-producing lymphocytes. The role of CD9 molecules in realization of PSG effects was evaluated using anti-CD9 monoclonal antibodies. A human heterogeneous PSG was produced according to the original authors’ technique. It was revealed that PSG (10 or 100 μg/mL) increased the number of Treg (CD4⁺FOXP3⁺) and promoted the expression of CTLA-4 and GITR in these cells. It was found that PSG (10 and 100 μg/mL) impeded differentiation of the CD4⁺ cells into Th-17 lymphocytes (ROR-γt⁺IL-17A⁺). Some of the effects exerted by PSG (100 μg/mL) on the Treg/Th-17 differentiation was abolished upon the blockade of CD9 by antibodies; this concerned, in particular, the expression of FOXP3, CTLA-4, GITR, and ROR-γt. However, the depressing effects of PSG (100 μg/mL) on the expression and production of IL-17A did not depend on CD9. Thus, PSG favors the differentiation of CD4⁺ cells into Treg and suppresses the induction of Th17; some of the effects require the involvement of CD9.     

Enantiospecific Analysis of 8‐Prenylnaringenin in Biological Fluids by Liquid‐Chromatography‐Electrospray Ionization Mass Spectrometry: Application to Preclinical Pharmacokinetic Investigations

8‐Prenylnaringenin (8PN) is a naturally occurring bioactive chiral prenylflavonoid found most commonly in the female flowers of hops (Humulus lupulus L.). A stereospecific method of analysis for 8PN in biological fluids is necessary to study the pharmacokinetic disposition of each enantiomer. A novel and simple liquid chromatographic‐electrospray ionization‐mass spectrometry (LC‐ESI‐MS) method was developed for the simultaneous determination of R‐ and S‐8PN in rat serum and urine. Carbamazepine was used as the internal standard (IS). Enantiomeric resolution of 8PN was achieved on a Chiralpak^® AD‐RH column with an isocratic mobile phase consisting of 2‐propanol and 10 mM ammonium formate (pH 8.5) (40:60, v/v) and a flow rate of 0.7 mL/min. Detection was achieved using negative selective ion monitoring (SIM) of 8PN at m/z 339.15 for both enantiomers and positive SIM m/z at 237.15 for the IS. The calibration curves for urine were linear over a range of 0.01–75 µg/mL and 0.05–75 µg/mL for serum with a limit of quantification of 0.05 µg/mL in serum and 0.01 µg/mL in urine. The method was successfully validated showing that it was sensitive, reproducible, and accurate for enantiospecific quantification of 8PN in biological matrices. The assay was successfully applied to a preliminary study of 8PN enantiomers in rat. Chirality 26:419–426, 2014. © 2014 Wiley Periodicals, Inc.     

Enhancement of hydroperoxide-dependent lipid peroxidation in rat liver microsomes by ascorbic acid

Simultaneous addition of ascorbic acid and organic hydroperoxides to rat liver microsomes resulted in enhanced lipid peroxidation (approximately threefold) relative to incubation of organic hydroperoxides with microsomes alone. No lipid peroxidation was evident in incubations of ascorbate alone with microsomes. The stimulatory effect of ascorbate on linoleic acid hydroperoxide (LAHP)-dependent peroxidation was evident at all times whereas stimulation of cumene hydroperoxide (CHP)-dependent peroxidation occurred after a lag phase of up to 20 min. EDTA did not inhibit CHP-dependent lipid peroxidation but completely abolished ascorbate enhancement of lipid peroxidation. Likewise, EDTA did not significantly inhibit peroxidation by LAHP but dramatically reduced ascorbate enhancement of lipid peroxidation. The results reveal a synergistic prooxidant effect of ascorbic acid on hydroperoxide-dependent lipid peroxidation. The inhibitory effect of EDTA on enhanced peroxidation suggests a possible role for endogenous metals mobilized by hydroperoxide-dependent oxidations of microsomal components.     

The expression of genes encoding zona pellucida glycoproteins in canine cumulus-oocyte complexes cultured in vitro in media supplemented with progesterone and estradiol

The role of progesterone (P4) and estradiol-17beta (E2) on the efficiency of canine oocyte maturation in vitro is recognized, but little is known about the influence of both steroids on the expression of zona pellucida (ZP) glycoproteins. It has been shown that E2 and P4 used in the IVC significantly influenced canine oocytes meiotic competence, although the effect is specifically related to the combination of hormones used in the experiment. Because both of these steroids may stimulate or inhibit maturation competence of oocytes in a dose-dependent manner, there is a high possibility that they also influence the fertilization ability of canine oocytes. Our study was aimed to analyze whether genes, encoding ZP glycoproteins, are regulated by P4 or E2. Canine cumulus oocyte complexes (COCs) were recovered from anestrous mongrel bitches after ovariohysterectomy and cultured in serum-free tissue culture medium 199. The expression pattern of ZP glycoproteins 2 and 3 (ZP2 and ZP3) mRNAs, using quantitative real-time polymerase chain reaction (RQ-PCR), and of ZP3 and ZP4 proteins, using Western blot analyses, was examined in oocytes after the supplementation of the culture medium with (1) 0.5 μg/mL, 1.0 μg/mL, and 2.0 μg/mL of P4 (experiment 1), or with (2) 2.0 μg/mL E2, and with (3) a combination of E2 (2.0 μg/mL) and P4 (0.5, 1.0, or 2.0 μg/mL, respectively; experiment 2). The analysis revealed an inhibited expression of ZP2 mRNA in oocytes after in vitro maturation (IVM) with different P4 supplementations as compared with oocytes before IVM. The expression of ZP3 mRNA was stimulated (P < 0.01) by the supplementation of 1.0 μg/mL P4. The expression of both ZP3 and ZP4 proteins was also stimulated after the treatment with 1.0 μg/mL P4. On the other hand, the level of ZP2 mRNA was inhibited (P < 0.01) after the supplementation with E2 or with combinations of E2 and P4 as compared with control oocytes. The expression of ZP3 mRNA was significantly higher after the supplementation with E2 and 0.5 μg/mL P4. Similarly, ZP3 and ZP4 proteins were highly expressed (P < 0.01) after such hormone supplementation. The results clearly show that in vitro, P4 regulates the expression of ZP glycoproteins in a dose-dependent manner. We demonstrated that E2 used alone and in combination with P4 upregulates the expression of ZP3 mRNA as well as ZP3 and ZP4 protein in canine oocytes. ZP2 mRNA is downregulated by E2 alone and in combination with E2 and P4. Furthermore, ZP glycoproteins expression is regulated by E2 alone or in combination with P4, and such synergistic or adverse effect is P4 concentration-dependent.     

The presence of ascorbate induces expression of brain derived neurotrophic factor in SH-SY5Y neuroblastoma cells after peroxide insult, which is associated with increased survival

Oxidative stress and free radical production have been implicated in Alzheimer's disease, where low levels of the antioxidant vitamin C (ascorbate) have been shown to be associated with the disease. In this study, neuroblastoma SH-SY5Y cells were treated with hydrogen peroxide in the presence of ascorbate in order to elucidate the mechanism(s) of protection against oxidative stress afforded by ascorbate. Protein oxidation, glutathione levels, cell viability and the effects on the proteome and its oxidized counterpart were monitored. SH-SY5Y cells treated with ascorbate prior to co-incubation with peroxide showed increased viability in comparison to cells treated with peroxide alone. This dual treatment also caused an increase in protein carbonyl content and a decrease in glutathione levels within the cells. Proteins, extracted from SH-SY5Y cells that were treated with either ascorbate or peroxide alone or with ascorbate prior to peroxide, were separated by two-dimensional gel electrophoresis and analyzed for oxidation. Co-incubation for 24 hours decreased the number of oxidised proteins (e.g. acyl CoA oxidase 3) and induced brain derived neurotrophic factor (BDNF) expression. Enhanced expression of BDNF may contribute to the protective effects of ascorbate against oxidative stress in neuronal cells.     

Synthesis of biocompatible chitosan decorated silver nanoparticles biocomposites for enhanced antimicrobial and anticancer property

Numerous studies investigated the biosynthesis of silver nanoparticles (AgNPs); however, there is a large gap for the ideal time-consuming process and their cytotoxicity. Herein, for the first time, rapid AgNPs was synthesized in a short time span, using Piper betle leaf (PBL) extract by applying microwave exposure. PB-AgNPs antibacterial activity and cell compatibility were enhanced by capping with chitosan (CS@PB-AgNPs). The synthesized nanoparticles were characterized by bioanalytical techniques. PB-AgNPs expressed significant antibacterial activity against Gram-positive and Gram-negative bacterial pathogens, while hybrid CS@PB-AgNPs presented the enhanced bactericidal activity. In addition, PB-AgNPs exhibited IC₅₀ value of 140 μg/mL against RAW 264.7 macrophages and 100 μg/mL against lung cancer cells while, CS capping reduced its toxicity at IC₅₀ values of 400 μg/mL and 180 μg/mL respectively were affirmed by MTT, apoptosis and DNA damage detection. Overall it was demonstrated that CS capping could be a phenomenal finding to improve the biomedical potential of AgNPs.     

人脐带间充质干细胞对脂多糖活化的小胶质细胞BV-2表型的影响

目的探讨人脐带间充质干细胞（hUCMSCs）对脂多糖（LPS）活化的小胶质细胞功能表型的影响。 方法实验设未诱导对照组（加入PBS无LPS诱导的BV-2细胞），LPS诱导组（加入1.0 μg/mL的LPS诱导BV-2细胞向M1型分化），按比例加入不同浓度hUCMSCs进行干预（LPS+低、中、高浓度hUCMSCs干预组hUCMSCs与BV-2细胞比例分别为：1:100、1:10、1:1），分别于24、48、72 h观察BV-2形态变化，Griess法检测细胞培养上清中M1表型产物一氧化氮（NO）的浓度；将hUCMSCs与BV-2细胞在不同条件下（LPS+/LPS-）共培养，qRT-PCR检测BV-2细胞M2表型标记物精氨酸酶1表达变化。数据分析采用重复测量资料的方差分析，组间比较采用Tukey分析。 结果BV-2细胞经LPS诱导后活化，细胞变大，呈"煎饼状"、"阿米巴状"变化，呈经典的M1表型分化；与未诱导对照组相比，LPS诱导组48、72 h BV-2细胞NO含量升高[48 h：（0.507±0.012）μg/mL比（5.183±0.171）μg/ mL；72 h：（0.934±0.024）μg/ mL比（12.498±0.168） μg/mL，P均< 0.01]，与LPS诱导组比较，LPS+低、中、高浓度hUCMSCs干预组72 h [（12.498±0.168）μg/mL比（11.852±0.149）μg/ mL、（9.796±0.048）μg/mL、（1.876±0.063） μg/mL]及LPS+中、高浓度hUCMSCs干预组48 h NO含量[（5.183±0.171） μg/ mL比（3.921±0.066）μg/mL、（1.202±0.012）μg/ mL]降低，且呈干预浓度依赖性NO含量下降，差异均有统计学意义（P均< 0.01）。精氨酸酶1 qRT-PCR结果显示：与未诱导组比较，单纯高浓度hUCMSCs干预组3个时间点精氨酸酶1的相对表达量均升高（1.046±0.057比19.266±0.641，1.114±0.093比16.977±0.749，1.139±0.118比16.959±0.625），与LPS诱导对照组（0.000）比较，未诱导对照组（1.046±0.057，1.114±0.093，1.139±0.118）及LPS+高浓度hUCMSCs干预组精氨酸酶1表达（0.879±0.077，1.023±0.081，1.121±0.078）升高，差异具有统计学意义（P均< 0.01）。 结论LPS可诱导小胶质细胞BV-2炎症反应，而hUCMSCs可抑制活化小胶质细胞的炎症反应，抵消LPS对BV-2的诱导效应，促进小胶质细胞由促炎的M1型向抗炎的M2型转变。     

Enhancement of anaphylactic mediator release from guinea-pig perfused lungs by fatty acid hydroperoxides

Fragments of chopped lung from indomethacin treated guinea-pigs had an anti-aggregating effect when added to human platelet rich plasma (PRP), probably due to the production of prostacyclin (PGI₂) since the effect was inhibited by 15-hydroperoxy arachidonic acid (15-HPAA, 10 μg ml^?1). Both 15-HPAA (1–20 μg ml^?1 min^?1) and 13-hydroperoxy linoleic acid (13-HPLA, 20 μg ml^?1 min^?1) caused a marked enhancement of the anaphylactic release of histamine, slow-reacting substance of anaphylaxis (SRS-A) and rabbit aorta contracting substance (RCS) from guinea-pig isolated perfused lungs. This enhancement was not reversed by the concomitant infusion of either PGI₂ (5 μg ml^?1 min^?1) or 6-oxo-prostaglandin F_1α (6-oxo-PGF_1α, 5 μg ml^?1 min^?1). Anaphylactic release of histamine and SRS-A from guinea-pig perfused lungs was not inhibited by PGI₂ (10 ng - 10 μg ml^?1 min^?1) but was inhibited by PGE₂ (5 and 10 μg ml^?1 min^?1). Antiserum raised to 5,6-dihydro prostacyclin (PGI₁) in rabbits, which also binds PGI₂, had no effect on the release of anaphylactic mediators. The fatty acid hydroperoxides may enhance mediator release either indirectly by augmenting thromboxane production or by a direct effect on sensitized cells. Further experiments to distinguish between these alternatives are described in the accompanying paper (27).     

Highly sensitive electrochemical detection of potential cytotoxicity of CdSe/ZnS quantum dots using neural cell chip

Cell chip was recently developed as a simple and highly sensitive tool for the toxicity assessment of various kinds of chemicals or nano-materials. Here, we report newly discovered potential cytotoxic effects of CdSe/ZnS quantum dots (QDs) on intracellular redox environment of neural cancer cells at very low concentrations which can be only detected by cell chip technology. Green (2.1 nm in diameter) and red (6.3 nm in diameter) QDs capped with cysteamine (CA) or thioglycolic acid (TA) were found to be toxic at 100 μg/mL when assessed by trypan blue and differential pulse voltammetry (DPV). However, in case of concentration-dependent cytotoxicity, toxic effects of TA-capped QDs on human neural cells were only measured by DPV method when conventional MTT assay did not show toxicity of TA-capped QDs at low concentrations (1-10 μg/mL). Red-TA QDs and Green-TA QDs were found to decrease electrochemical signals from cells at 10 μg/mL and 5 μg/mL, respectively, while cell viability decreased at 100 μg/mL and 50 μg/mL when assessed by MTT assay, respectively. The relative decreases of cell viability determined by MTT assay were 15% and 11.9% when cells were treated with 5-50 μg/mL of Red-TA QDs and 5-30 μg/mL of Green-TA QDs, respectively. However, DPV signals decreased 37.5% and 39.2% at the same concentration range, respectively. This means that redox environment of cells is more sensitive than other components and can be easily affected by CdSe/ZnS QDs even at low concentrations. Thus, our proposed neural cell chip can be applied to detect potential cytotoxicity of various kinds of molecular imaging agents simply and accurately.     

Effect of increasing zinc sulphate concentration during in vitro maturation of bovine oocytes

The objective was to investigate the effects of supplementary zinc (Zn) during in vitro maturation (IVM) of bovine oocytes. The DNA damage in cumulus cells was low with supplemental Zn concentrations of 1.1 and 1.5 μg/mL in the IVM medium (mean ± SEM index of DNA damage was 67.52 ± 9.32, 68.52 ±13.34, 33.80 ± 4.89, and 34.65 ± 7.92 for supplementation with 0, 0.7, 1.1, and 1.5 μg/mL Zn, respectively; P < 0.01). Total glutathione concentrations did not differ following Zn supplementation of 1.1 and 1.5 μg/mL (3.7 ± 0.4 vs. 4.0 ± 0.5 pmol, respectively, in oocytes; and in cumulus cells, 0.5 ± 0.04 nmol/10⁶ cells, combined for both treatments), but were greater (P < 0.01) than supplementation with 0.7 μg/mL (1.8 ± 0.5 pmol in oocytes and 0.2 ± 0.02 nmol/10⁶ cumulus cells). Cleavage rate increased (P < 0.05) when Zn was added to the IVM medium at any concentration (67.16 ± 1.17, 73.15 ± 1.15, 74.05 ± 1.23, and 72.76 ± 0.74 for 0, 0.7, 1.1, and 1.5 μg/mL Zn). For these concentrations, subsequent embryo development to the blastocyst stage was 17.83 ± 2.15, 21.95 ± 0.95, 27.65 ± 1.61, and 30.33 ± 2.78%, highest (P < 0.01) in oocytes matured with 1.5 μg/mL Zn. There was an increase (P < 0.05) in mean cell number per blastocyst obtained from oocytes matured with 1.1 and 1.5 μg/mL Zn relative to 0 Zn (IVM alone) and 0.7 μg/mL Zn. In conclusion, Zn during oocytes maturation significantly affected intracellular GSH content and DNA integrity of cumulus cells, and improved preimplantational embryo development. We inferred that optimal embryo development to the blastocyst stage was partially dependent on the presence of adequate Zn concentrations.