Effect of redox potential on the growth of Yarrowia lipolytica and the biosynthesis and activity of heterologous hydroperoxide lyase

The aim of this study was to investigate the effect of redox potential (Eh) on the growth of the yeast Yarrowia lipolytica in both oxidizing (Eh = +350 mV) and reducing (Eh = −150 mV) media and its effect on the expression and activity of hydroperoxide lyase (HPL). HPL activity was assayed in media with Eh values ranging from −250 to +720 mV. In order to change the Eh value of the media, reducing agents including dithiotreitol (1 g/L) and hydrogen (4%) as well as oxidants such as potassium ferricyanide (1 g/L) and oxygen (100%), were used. The experimental findings showed that oxidizing conditions, with Eh of +350 mV, were favorable for the growth of the yeast, whereas reducing conditions, with Eh values of −150 mV, resulted in a higher expression of HPL. In addition, the results showed that the enzymatic activity of the purified HPL was enhanced in the presence of 0.5 mM dithiotreitol but decreased with 1 mM potassium ferricyanide and bubbling O₂. However, HPL activity increased 1.5 times in the presence of 4% hydrogen with an Eh value of −170 mV.     

Effect of the reducing environment on the accumulation of elastin and collagen in cultured smooth-muscle cells.

We show here that cultured neonatal-rabbit aortic smooth-muscle cells produce and accumulate significant amounts of insoluble elastin. When grown in the presence of ascorbic acid, the amount of insoluble elastin in these cultures decreases, whereas the accumulation of collagen increases. These changes have been attributed to increased hydroxylation of proline in elastin. The function of ascorbic acid in proline hydroxylation is thought to be that of a reductive cofactor that maintains the proper oxidation state of molecular iron in the enzyme complex. This study shows that both ascorbic and isoascorbic acids act similarly to modify the accumulation of elastin and collagen in culture. On the other hand, cultures grown in the presence of dithiothreitol, a reducing agent previously shown to act as a cofactor for prolyl hydroxylase, do not demonstrate altered elastin accumulation. These studies are consistent with the suggestion that there is a specific role for ascorbic acid in this cellular system that cannot be replaced by other reducing cofactors.     

Changes in autorhythmic heart frequency elicited by redox agents

In isolated frog heart it was established that methylene-blue (MB, an oxidizing agent) decreased, while ascorbate (ASC, a reducing agent) increased the frequency of autorhythmic heart contractions. After MB treatment, in parallel with this phenomenon, the extracellular K+ concentration [K+]o showed a slow increase, but following ASC application a slow decrease occurred. Since these correlations are in good accordance with the idea that the pacemaking ability of heart, among other properties, depends on the voltage and time-dependent decrease in potassium conductance following the spike, changes in [K+]o might be one mechanism by which oxidizing and reducing agents modulate heart frequencies. On the basis of the effect of insulin (INS) and K-strophantoside (STR) on these modulatory influences, it is presumed that the changes in slow delta [K+]o transients might result, at least partly, from the effect of redox agents on the active transport system. In light of the increase in passive K+ fluxes after oxidant treatment and the decrease in this parameter following reductant treatment an effect of redox agents on the characteristics of the K+-channel is also postulated.     

Salt effects on the denaturation of DNA. IV. A calorimetric study of the helix-coil conversion of the alternating copolymer poly[d(A-T)].

The enthalpy deltaH, entropy deltaS, and the temperature Tm of the conformational transition of poly[d (A-T)] from the ordered to the randomly oriented state have been determined at pH 6.8 with the help of an adiabatic differential scanning calorimeter in Na2SO4 solutions of increasing ionic strength. Spectrophotometric denaturation experiments supplemented the calorimetric measurements. All thermodynamic parameters were found to vary strongly with salt concentration: both deltaH and Tm increase linearly with the logarithm of the mean molal activity alpha plus or minus of Na2SO4. However, whereas the dependence of Tm on salt activity remains linear over the entire salt concentration range employed deltaH decreases abruptly in the most concentrated Na2SO4 solutions. The entropy of melting changes with salt concentration in a pattern similar to that displayed by deltaH. The data on deltaH as well as data derived from the maximum slopes of the calorimetric heat denaturation curves were used to calculate the cooperative length Lh, the stacking free energy epsilon, and the cooperativity parameter sigma of poly[d(A-T)] as a function of ionic strength. Lh decreases with increasing salt concentration whereas sigma increases. Epsilon assumes more positive values with increasing salt molality. These changes then are in agreement with the generally held belief that an increase in salt concentration leads to an increase in the "loop" content of the copolymer.     

Redox modulation of long-term potentiation in the hippocampus via regulation of the glycogen synthase kinase-3beta pathway

Alzheimer disease (AD) is an age-related neurodegenerative disorder. Many observations indicate that impaired redox regulation is implicated in AD with synaptic failure. The aim of the current investigation was to characterize the role of redox-active agents on long-term potentiation (LTP) in the CA1 region of rat hippocampal slices and to elucidate the molecular sequence of events leading to these changes. The results presented here indicate that the membrane-permeable oxidizing agent chloramine-T (CH-T) inhibits the induction of LTP, whereas the membrane-permeable reducing agent dithiothreitol (DTT) enhances the induction of LTP. In contrast, neither the membrane-impermeable oxidizing agent 5,5'-dithio-bis-(2-nitrobenzoic acid) (DTNB) nor the membrane-impermeable reducing agent tris-(2-carboxyethyl) phosphine (TCEP) can affect the induction of LTP. The inhibition of LTP by CH-T can be restored by pretreatment with DTT but not with TCEP, whereas the enhancement of LTP by DTT can be reversed by pretreatment with CH-T but not with DTNB. We also provide evidence that the CH-T-evoked inhibition of LTP is mediated via activation of glycogen synthase kinase-3beta (GSK-3beta), whereas the DTT-evoked enhancement of LTP is mediated via inactivation of GSK-3beta. These findings will benefit the understanding of the redox contribution to the mechanisms underlying synaptic plasticity and AD pathogenesis.     

Stimulation of the active transport of serotonin into mouse platelets by the sulfhydryl oxidizing agent diamide

The purpose of this study was to determine the effects of diamide, a reversible sulfhydryl oxidizing agent, on the transport of serotonin (5-HT) by mouse platelets. Diamide produced a concentration-dependent (10–200 μM) stimulation of 5-HT transport that was rapid and sustained over 0–10 minutes of incubation. When platelets were incubated with diamide (10–200 μM) in the presence of glucose, the content of reduced glutathione was significantly decreased only at a final concentration of 200 μM, while washed platelets incubated with diamide (10–200 μM), in the absence of glucose, had a significant concentration-dependent decrease in their content of reduced glutathione. Fluoxetine, an inhibitor of the platelet 5-HT transporter, blocked diamide-induced stimulation of 5-HT transport. The kinetics of 5-HT transport showed that diamide caused a marked increase in the maximal rate of transport (V_max control = 28.4 ± 1.4 vs. V_max diamide = 60.9 ± 4.1 pM/10⁸ platelets/4 min) but did not significantly alter the K_m values. Ouabain, an inhibitor of platelet Na⁺-K⁺ ATPase, blocked the stimulation by diamide in a concentration-dependent manner. Dithiothreitol, a disulfide reducing agent, was able to partially reverse the stimulation of platelet 5-HT transport caused by diamide. This study has shown that diamide can stimulate the active transport of 5-HT by mouse platelets and suggests a possible role for free sulfhydryl groups in the regulation of this process.     

Effects of streptozotocin-induced diabetes on neuronal sigma receptors in the rat brain

To study the effect of diabetes mellitus on the density of sigma receptors, in vitro binding experiments were conducted in whole brain homogenate membranes of 5-week and 10-week control rats and streptozotocin (STZ)-induced diabetic rats. sigma-1 Receptors were labelled with [3H](+)-pentazocine while sigma-2 receptors were labelled with [3H] 1,3-di-o-tolylguanidine (DTG) in the presence of 0.5 microM (+)-pentazocine to mask sigma-1 sites. Non-specific binding was determined in the presence of 20 microM haloperidol. Scatchard analysis revealed a 27% (p<0.01) decreased in sigma-1 receptor density and a 33% (p<0.01) decreased in sigma-2 receptor density in whole brain of 10-week STZ-diabetic rats. No statistically significant difference was found in the sigma receptor content of 5-week STZ-diabetic rats. These results provide evidence that neuronal sigma receptors are reduced in 10-week STZ-diabetic rats and suggest that changes in sigma receptors may play a role in diabetes related abnormalities. Further evaluation is required to determine whether changes observed in the brain are homogeneous for either or both sigma receptor subtypes as well as potential links between other CNS receptor changes previously observed in STZ-induced diabetic rats.     

Steady-state kinetic analysis for the reaction of ammonium and alkylammonium ions with methylamine dehydrogenase from bacterium W3A1

The steady-state kinetic mechanism for the reaction of n-alkylamines and phenazine ethosulfate (PES) or phenazine methosulfate (PMS) with methylamine dehydrogenase from bacterium W3A1 is found to be of the ping-pong type. This conclusion is based on the observations that 1/v versus 1/[methylamine] or 1/[butylamine] plots, at various constant concentrations of an oxidizing substrate, and 1/v versus 1/[PES] or 1/[PMS] plots, at various constant concentrations of a reducing substrate, are parallel. Additionally, the values of kcat/Km for four n-alkylamines are identical when PES is the oxidizing substrate, as were the kcat/Km values for four reoxidizing substrates when methylamine was the reducing substrate. Last, analysis of steady-state kinetic data obtained when methylamine and propylamine are presented to the enzyme simultaneously and PES and PMS are used simultaneously also supports the involvement of a ping-pong mechanism. The enzymic reaction with either methylamine or PES is dependent on the ionic strength, and the data indicate that each interacts with an anionic site on methylamine dehydrogenase. The presence of ammonium ion at low concentration activates the enzyme, but at high concentration this ion is a competitive inhibitor in the reaction involving methylamine and the enzyme. A complete steady-state mechanism describing these ammonia effects is presented and is discussed in light of the nature of the pyrroloquinoline quinone cofactor covalently bound to the enzyme.     

The conserved active site proline determines the reducing power of Staphylococcus aureus thioredoxin

Nature uses thioredoxin-like folds in several disulfide bond oxidoreductases. Each of them has a typical active site Cys-X-X-Cys sequence motif, the hallmark of thioredoxin being Trp-Cys-Gly-Pro-Cys. The intriguing role of the highly conserved proline in the ubiquitous reducing agent thioredoxin was studied by site-specific mutagenesis of Staphylococcus aureus thioredoxin (Sa_Trx). We present X-ray structures, redox potential, pK(a), steady-state kinetic parameters, and thermodynamic stabilities. By replacing the central proline to a threonine/serine, no extra hydrogen bonds with the sulphur of the nucleophilic cysteine are introduced. The only structural difference is that the immediate chemical surrounding of the nucleophilic cysteine becomes more hydrophilic. The pK(a) value of the nucleophilic cysteine decreases with approximately one pH unit and its redox potential increases with 30 mV. Thioredoxin becomes more oxidizing and the efficiency to catalyse substrate reduction (k(cat)/K(M)) decreases sevenfold relative to wild-type Sa_Trx. The oxidized form of wild-type Sa_Trx is far more stable than the reduced form over the whole temperature range. The driving force to reduce substrate proteins is the relative stability of the oxidized versus the reduced form Delta(T(1/2))(ox/red). This driving force is decreased in the Sa_Trx P31T mutant. Delta(T(1/2))(ox/red) drops from 15.5 degrees C (wild-type) to 5.8 degrees C (P31T mutant). In conclusion, the active site proline in thioredoxin determines the driving potential for substrate reduction.     

Redox modulation of homomeric rho1 GABA receptors

The activity of many receptors and ion channels in the nervous system can be regulated by redox-dependent mechanisms. Native and recombinant GABA_A receptors are modulated by endogenous and pharmacological redox agents. However, the sensitivity of GABA_C receptors to redox modulation has not been demonstrated. We studied the actions of different reducing and oxidizing agents on human homomeric GABAρ₁ receptors expressed in Xenopus laevis oocytes. The reducing agents dithiothreitol (2 mM) and N -acetyl- l -cysteine (1 mM) potentiated GABA-evoked Cl⁻ currents recorded by two-electrode voltage-clamp, while the oxidants 5-5'-dithiobis-2-nitrobenzoic acid (500 μM) and oxidized dithiothreitol (2 mM) caused inhibition. The endogenous antioxidant glutathione (5 mM) also enhanced GABAρ₁ receptor-mediated currents while its oxidized form GSSG (3 mM) had inhibitory effects. All the effects were rapid and easily reversible. Redox modulation of GABAρ₁ receptors was strongly dependent on the GABA concentration; dose–response curves for GABA were shifted to the left in the presence of reducing agents, whereas oxidizing agents produced the opposite effect, without changes in the maximal response to GABA and in the Hill coefficient. Our results demonstrate that, similarly to GABA_A receptors and other members of the cys-loop receptor superfamily, GABA_C receptors are subjected to redox modulation.     

Studies on the oxidation–reduction systems of the erythrocyte

1. Starvation for 3 days produces a decrease in methaemoglobin-reductase and glutathione-reductase activities, but it does not alter the glucose 6-phosphate-dehydrogenase activity of the rat erythrocyte. 2. The feeding of a protein-free diet for 11 days causes greater changes in the first two enzymes and also a diminution of the third. Under this experimental condition slight decreases in protein and haemoglobin contents were noted. 3. The experimental animals did not show methaemoglobinaemia, probably because the activity of methaemoglobin diaphorase is preserved. 4. The GSH content was not affected but the stability of the tripeptide in the presence of an oxidizing agent was diminished.     

Consequences of the presence of 24-epibrassinolide, on cultures of a diatom, Asterionella formosa

Addition of the plant hormone 24-epibrassinolide to culture media stimulated the growth of a freshwater diatom, Asterionella formosa. The hormone stimulated activity of glyceraldehyde-3-phosphate dehydrogenase (GAPDH), a key enzyme from Calvin cycle, by 6-fold. Other key metabolic enzymes, phosphofructokinase and malate dehydrogenase were also stimulated but to a lesser extent. The activity of glucose-6-phosphate dehydrogenase, involved in the oxidative pentose phosphate pathway, also increased in the presence of the hormone but only under non reducing conditions. In cells stimulated by epibrassinolide, activated enzymes were sensitive to oxidized-DTT. GAPDH purified from cells grown in the presence of the hormone was not associated with a small protein of 8.5 kDa shown to be similar to CP12. Consequently the activity of GAPDH was no longer regulated by either oxidizing or reducing conditions. Among enzymes that, like GAPDH, responded positively to reducing agent were fructose-1,6-bisphosphatase (FBPase) and glucose-6-phosphate dehydrogenase (G6PDH). These enzymes were also sensitive to, and were negatively regulated by, oxidized-DTT. The activities in extracts from illuminated cells differed from those from darkened cells: FBPase, G6PDH and GAPDH, that were activated by DTT in darkened cells were no more activated in illuminated cells, but were oxidized by oxidized-DTT. Thus, oxidizing or reducing conditions mimic the conditions in dark and light, respectively. Unlike the other enzymes, phosphofructokinase (PFK) was inhibited by DTT but oxidized-DTT reversed this effect. The enzymes shown to be redox regulated in vitro by reduction/oxidation are very likely candidates for regulation in vivo by thioredoxins.     

Effects of reducing and oxidizing agents on the action of bleomycin.

The effects of reducing agents, such as 2-mercaptoethanol, dithiothreitol, L-ascorbic acid, or sodium borohydride, and oxidizing agents, such as hydrogen peroxide or dehydroascorbic acid, on the in vitro action of bleomycin were investigated. After the incubation of DNA with a low concentration of bleomycin and a reducing or oxidizing agent, single strand breaks were mainly caused in the DNA molecules. The degradation of DNA was largely prevented by the removal of oxygen, or by the addition of divalent cations or of S-(2-aminoethyl)isothiuronium bromide hydrobromide, a radical scavenger, to the incubation mixture. Preincubation of bleomycin with these reducing or oxidizing agents reduced the DNA-degrading activity of the antibiotic. However, this reduction in activity was observed even in the absence of oxygen, or in preincubation mixture supplemented with radical scavenger.     

土壤干旱条件下保水剂对多年生黑麦草光合特性的影响

以多年生黑麦草（Lolium perenne Linn．）为研究对象,对土壤干旱条件下（土壤含水量12．6％、10．5％、8．4％和6．3％）使用保水剂后叶片光合特性的动态变化进行了分析。结果显示：随土壤含水量的降低和胁迫时间（12d）的延长,多年生黑麦草叶片的净光合速率（Pn）、气孔导度（Gs）、蒸腾速率（Tr）和光能利用效率（LUE）呈逐渐下降的趋势;随土壤含水量的降低,胞间CO2浓度（Ci）逐渐升高、瞬时水分利用效率（WUE）逐渐降低,但随胁迫时间的延长Ci和WUE则呈现不同的变化趋势;总体上,在土壤含水量不同的条件下及不同的胁迫时间各指标均有显著差异（P〈0．05）。与未添加保水剂的各处理组相比,添加质量分数2％保水剂后多年生黑麦草叶片的Pn、Gs、WUE和LUE值均增大,而Ci和Tr值则降低,差异达显著水平（P〈0．05）。研究结果表明：合理使用保水剂能提高多年生黑麦草叶片的光合能力以及土壤的保水能力,增强多年生黑麦草对干旱环境的适应性。     

Evidence that the redox state has a role in muscular contraction and relaxation

The present work reports that simple oxidizing agents are capable of inducing isotonic contraction of rat aorta in vitro, and that the concentration of agent required depends on its oxidizing potential. Conversely a reducing agent will reverse a muscular contraction induced by oxidizing agents.     

Quantitative profile of cardiolipin and group treponemal IgD antibodies in syphilis estimated by single radial immunodiffusion technique (SRID)

150 serum samples (reactive in VDRL, Reiter-ELISA, FTA-Abs tests), from male patients 25-45 years old, in various stages of syphilis whether treated or untreated, were tested for IgD by SRID. On 154 sera from healthy males 25-45 years old, the reference normal values for IgD levels were established, as: 0-131.2 IU/ml with a mean of 29.92 +/- 29.61 IU/ml. Cardiolipin and group treponemal fraction values for IgD class were obtained by assessing the difference between the immunodiffusion diameter values produced by sera before and after complete absorption with VDRL antigen or delipidated T. reiteri suspension. The individual, mean +/- SD values (expressed in IU/ml) and the percentage of cardiolipin and treponemal IgD of the total IgD class were calculated for each stage. The mean value of the total IgD class, excepting secondary syphilis (sigma 2) 52.53 +/- 26.66 IU/ml), did not overstep the normal levels but all minimal individual values from syphilitic patients (7.09-14.89 IU/ml) surpassed significantly the normal minimal values which were less than or equal to 3.54 IU/ml. The total lack of cardiolipin (IgD and the presence of group treponemal IgD in all sera of the syphilis stages studied were manifest. The group treponemal IgD mean values ranged between 7-9 IU/ml, with a maximum of 19.32 +/- 10.58 IU/ml in sigma 2 followed by latent syphilis (sigma lat) with a mean value of 9.37 +/- 4.9 IU/ml. A significant percentage of treponemal IgD vs total IgD was recorded: primary syphilis (sigma 1) 32.01%, primary-secondary syphilis (sigma 1-2) 28.76%, sigma 2 36.77%, sigma lat and treated persistent seroreactive syphilis (sigma t+) 29.61%. The high proportion of treponemal IgD in latent and treated persistent reactive syphilis suggests a steady activation of B lymphocytes by treponemal antigens and presumably is an expression of an active infectious process. The absence of cardiolipin IgD and the presence of only the treponemal IgD, in all sera from all stages, might confer to their detection an extremely specific diagnostic value in syphilis.     

Reversal by dithiothreitol treatment of the block in murine leukemia virus maturation induced by disulfide cross-linking

We previously reported that if murine leukemia virus particles are produced in the presence of the mild oxidizing agent disulfide-substituted benzamide-2, they fail to undergo the normal process of virus maturation. We now show that treatment of these immature particles with a reducing agent (dithiothreitol) induces their maturation in vitro, as evidenced by proteolytic cleavage of Gag, Gag-Pol, and Env proteins and by their morphology. The identification of partial cleavage products in these particles suggests the sequence with which the cleavages occur under these conditions. This may be a useful experimental system for further analysis of retroviral maturation under controlled conditions in vitro.     

Dynamics of the redox potential and rh of the rumen fluid of goats

The redox potential (Eh) of the rumen fluid of goats varied from -145 to -190 mV and the corresponding rH values from 6.3 to 8.6. The redox potential values of the rumen fluid were influenced by changes in pH. The most oxidizing Eh values --and at the same time the lowest rH and pH values--were observed after a feeding ration containing readily available carbohydrates. No relationship was found between the fermentation rate and the redox potential. The association between the oxidation reduction state and the metabolic activity is best expressed by the rH values. In in vitro experiments, a higher pH or the addition of cysteine or sodium sulphide moved the redox potential of the rumen fluid towards more reducing values. A shift towards more oxidizing values occurred after acidification of the medium, or after the action of heavy metal ions or atmospheric O2. Various other compounds, including bubbling of the rumen fluid with hydrogen, had little or no effect. SH-groups probably play an important role in the formation of the negative redox potential in rumen fluid.     

Engineered interdomain disulfide in the periplasmic receptor for sulfate transport reduces flexibility. Site-directed mutagenesis and ligand-binding studies

Using recombinant DNA techniques, an Escherichia coli periplasmic sulfate receptor or sulfate-binding protein involved in active transport has been overexpressed and characterized. This protein is essentially identical in size, sequence, antigenicity, and ligand affinity and specificity to the sulfate receptor from Salmonella typhimurium whose crystal structure has been refined at 2 A resolution. The dehydrated sulfate is bound in the deep cleft between the two lobes of the bilobate protein. Using the structure of the S. typhimurium as a guide, three site-directed mutants (Ser129Cys, Gly46Cys, and Ser129Cys/Gly46Cys) have been made. In the Cys129/Cys46 mutant the disulfide has been successfully introduced across the opening of the ligand-binding site cleft of the E. coli sulfate-binding protein. The dissociation of sulfate from the double mutant protein is very slow under oxidizing conditions and increases more than 200-fold when reducing agent is added. This effect is attributed to a loss of interdomain structural flexibility in the presence of the disulfide, and underscores the importance of protein conformational change in binding protein function.