Glutathione Reductase and Thioredoxin Reductase: Novel Antioxidant Enzymes from Plasmodium berghei

Malaria parasites adapt to the oxidative stress during their erythrocytic stages with the help of vital thioredoxin redox system and glutathione redox system. Glutathione reductase and thioredoxin reductase are important enzymes of these redox systems that help parasites to maintain an adequate intracellular redox environment. In the present study, activities of glutathione reductase and thioredoxin reductase were investigated in normal and Plasmodium berghei-infected mice red blood cells and their fractions. Activities of glutathione reductase and thioredoxin reductase in P. berghei-infected host erythrocytes were found to be higher than those in normal host cells. These enzymes were mainly confined to the cytosolic part of cell-free P. berghei. Full characterization and understanding of these enzymes may promise advances in chemotherapy of malaria.

Cytosolic sulfotransferases.

Sulfoconjugation (Sulfation or Sulfonation) is an important reaction in the phase II biotransformation of a wide number of endogenous and foreign chemicals, including: drugs, toxic chemicals, hormones, and neurotransmitters. The reaction is catalyzed by the members of the cytosolic sulfotransferase (SULT) superfamily, consisting of ten functional genes in humans. Sulfation reaction in living cells is reversed by sulfatase, which hydrolyses the sulfonated conjugates. It has a major role in regulating the endocrine status of an individual by modulating the activity of steroid hormones, their biosynthesis, and the metabolism of catecholamines. Sulfonation is a key reaction in the body's 'chemical' defense against xenobiotics. Although the primary function of sulfoconjugation is to permit detoxification of the compound, it also results in the activation of chemical procarcinogens, such as certain dietary and environmental agents into carcinogens. In this review, we summarize our current understanding of the structure of mammalian cytosolic sulfotransferases and their role in human steroid associated cancers and in the bioactivation of chemical carcinogens.

Nitric oxide: a common antipathogenic factor of plants.

In the present study, nitric oxide synthase/nitric oxide (NOS/NO) status was tested in the host plants infected with fungi, bacteria and virus. In each case cytosolic nitric oxide synthase (Cyt-NOS) of diseased plants was inhibited and inhibition was competitive in nature in respect to l-arginine, the substrate for the enzymic activity. Elevation of host nitric oxide (NO) level before infection using nitric oxide (NO) donor protected disease initiation significantly. The nature of enzyme kinetics and the manner of disease protection by nitric oxide donor (NO-donor) was similar in all the three cases of infection. It was concluded that nitric oxide was a common antipathogenic factor of plants.

Age-dependent variations in mitochondrial and cytosolic antioxidant enzymes and lipid peroxidation in different regions of central nervous system of guinea pigs.

The age-related changes in the activities of antioxidant enzymes of mitochondrial and cytosolic fractions were measured in different regions of the central nervous system (CNS) in 10 and 32 months old guinea pigs. In old animals, the activities of superoxide dismutase (SOD) and glutathione peroxidase (GPx) were reduced (p < 0.05) in all the regions of CNS studied but catalase (CAT) declined significantly only in the cerebral cortex, hypothalamus and cerebellum. Glutathione reductase (GRd) activity declined in cerebral cortex and hypothalamus in the cytosolic fractions and only in cerebellum in the mitochondrial fraction. It is concluded that age-related decline in the activities of antioxidant enzymes is both region and enzyme specific. The endogenous lipid peroxide was found to be significantly higher (p < 0.05) in the 32 month old animals whereas, lipid peroxidation after incubating the tissue homogenate in air was found to be lower (p < 0.05). The in vitro mitochondrial lipid peroxidation decreased with age. The results indicate that accumulation of lipid peroxides takes place with ageing but the susceptibility of lipid peroxidation decreases in the older animals.

Hydrocortisone and triiodothyronine regulation of malate-aspartate shuttle enzymes during postnatal development of chicken.

The normal endogenous level of malate-aspartate shuttle enzymes and its regulation by hydrocortisone and triiodothyronine were studied in the liver and kidney of 0-, 30- and 60-day old male Rhode Island Red (RIR) chicken. The endogenous activity of cytosolic malate dehydrogenase (c-MDH) was significantly higher in the liver of day 30 as compared to day 0 and 60. In contrast, mitochondrial malate dehydrogenase (m-MDH) activity decreased at day 60 in the liver. However, both c- and m-MDH had significantly lower activities at day 0, which increased sharply at day 30 and 60 in the kidney. On the other hand, activity of both cytosolic and mitochondrial aspartate aminotransferase (c- and m-AsAT) showed peak value at day 30 in both liver and kidney. Hydrocortisone administration induced c-MDH in the liver at all the ages studied, but did not influence the activity of the isoenzymes in the kidney whereas, it induced m-MDH in the liver at day 0 and in kidney at day 30. Administration of hydrocortisone, however, did not influence AsAT isoenzymes (c- and m-AsAT) in either of the tissues at any of the postnatal ages. Triiodothyronine induced c-MDH in the liver at all the ages whereas kidney isoenzyme was induced only at day 60. In contrast, m-MDH was induced by triiodothyronine in both liver and kidney at day 30 and 60. Administration of triiodothyronine did not influence c-AsAT of liver and kidney at either of the ages, whereas it induced m-AsAT of only liver at day 0 and 60. These findings indicated a tissue- and age-specific expression of the malate-aspartate shuttle enzymes in chicken and difference in the regulation exerted by hydrocortisone and triiodothyronine during postnatal development of chicken.

Effect of serum and hydrogen peroxide on the Ca2+/calmodulin-dependent phosphorylation of eukaryotic elongation factor 2(eEF-2) in Chinese hamster ovary cells

Eukaryotic elongation factor eEF-2 mediates regulatory steps important for the overall regulation of mRNA translation in mammalian cells and is activated by variety of cellular conditions and factors. In this study, eEF-2 specific, Ca2+/CaM-dependent protein kinase III (CaM PK III), also called eEF-2 kinase, was examined under oxidative stress and cell proliferation state using CHO cells. The eEF-2 kinase activity was determined in the kinase buffer containing Ca2+ and CaM in the presence of eEF-2 and [gamma-32P] ATP. The eEF-2 kinase activity in cell lysates was completely dependent upon Ca2+ and CaM. Phosphorylation of eEF-2 was clearly identified in proliferating cells, but not detectable in CHO cells arrested in their growth by serum deprivation. The content of the eEF-2 protein, however, was equivalent in both cells. Using a phosphorylation state-specific antibody, we show that oxidant such as H2O2, which triggers a large influx of Ca2+, dramatically enhances the phosphorylation of eEF-2. In addition, H2O2-induced eEF-2 phosphorylation is dependent on Ca2+ and CaM, but independent of protein kinase C. In addition, okadaic acid inhibits phosphoprotein phosphatase 2A(PP2A)-mediated eEF-2 dephosphorylation. These results may provide a possible link between the elevation of intracellular Ca2+ and cell division and suggest that phosphorylation of eEF-2 is sensitive cellular reflex on stimuli that induces intracellular Ca2+ flux.

Purification and characterization of cytosolic pyruvate kinase from developing seeds of Brassica campestris L.

Cytosolic pyruvate kinase (ATP: Pyruvate phosphotransferase, EC 2.7.1.40; PKc) was purified to apparent homogeneity with about 22% recovery from developing seeds of Brassica campestris using (NH4)2SO4 fractionation, DEAE-cellulose chromatography, gel filtration through Sepharose-CL-6B and affinity chromatography through reactive Blue Sepharose-CL-6B. The purified enzyme with molecular mass of about 214 kDa was a heterotetramer with subunit molecular mass of 55 and 57 kDa. The enzyme showed maximum activity at pH 6.8 and absolute requirement for a divalent (Mg2+) and a monovalent (K+) cation for activity. Typical Michaelis-Menten kinetics was obtained for both the substrates with Km values of 0.10 and 0.11 mM for PEP and ADP, respectively. The enzyme could also use UDP or GDP as alternative nucleotides, but with lower Vmax and lesser affinities. The enzyme was inhibited by glutamate, glutamine, fumarate, citrate, isocitrate, oxalate, 2-PGA, ATP, UTP and GTP and activated by glucose-6-phosphate, fructose-1,6-bisphosphate and Pi, suggesting its regulation mainly by TCA cycle intermediates and the cellular need for carbon skeletons for amino acid biosynthesis. ATP inhibition was of competitive type with respect to PEP and non-competitive with respect to ADP. Similarly, oxalate inhibition was also of competitive type with respect to PEP and non-competitive with respect to ADP. Initial velocity and product inhibition studies except for pyruvate inhibition were consistent for a compulsory-ordered tri-bi mechanism.

Acción de las hormonas tiroideas sobre la modulación de la expresión genética de la enzima málica citosólica hepática, en ratas intoxicadas con hexaclorobenceno / Action of the thyroid hormone on modulation of the gene expression of the liver cytosolic malic enzyme, in intoxicated rats with hexachlorobenzene

El hexaclorobenceno (HCB) es un tóxico ampliamente distribuído en la biosfera. La exposición crónica de animales de laboratorio al HCB provoca disfunciones tiroideas. Previamente hemos demostrado que el HCB incrementa la actividad de enzimas hepáticas reguladas por hormonas tiroideas (HT) tales como: enzima málica (EM) y glucosa-6fosfato de dehidrogenasa (G6PD) sin alterar la actividad de la alpha-glicerol fosfato deshidrogenasa mitocondrial (alpha-GPD). En éste estudio hemos investigado si el HCB afectaba: a) la concentración del receptor de hormonas tiroideas (RT3) y su afinidad por el ligando, b) la expresión del gen de EM y de otras enzimas HT-dependientes, c) los complejos proteína/DNA formados sobre el elemento de respuesta a hormonas tiroideas (TRE). Se utilizaron hígados de ratas hembras Wistar intoxicadas con HCB (100 mg/100 g P.C.), por 9 y 15 días. El análisis de Scatchard mostró que ni la afinidad ni el número de sitios RT3 estaban alterados luego de 9 y 15 días de tratamiento con HCB (Control, Ka: 1,9 nM, Bmáx:3.9 fmol/100mug DNA; HCB9díasKa2.1nM, Bmáx4.5 fmol/100mug DNA; HCB15 días Ka 1.9nM, Bmáx5.1 fmol/100mug DNA). Tampoco los niveles de RNAm de TRbeta1 medidos por ensayos de protección a RNasa fueron afectados por HCB. Ensayos de Northern Blot han demostrado que los niveles de RNAm de EM se incrementaban 4 veces y 2 veces con respecto al control después de 9 y 15 días de intoxicación respectivamente, sin observarse alteraciones en los niveles de RNAm de otras enzimas cuya expresión es regulada por HT como gliceraldehído - 3 - fosfato deshidrogenasa (GAPDH) y fosfoenolpiruvatocarboxiquinasa (PEPCK) ni tampoco en la alpha-GPD mitocondrial. Ensayos de retardo en gel mostraron que el HCB no modificó la afinidad de las proteínas presentes en extractos nucleares por el TRE presente en el promotor de EM. Nuestros resultados sugieren que el RT3 no está involucrado en forma directa en la inducción de la expresión del gen de EM por HCB, sin embargo podría interaccionar con otros factores de transcripción en la sobreexpresión del gen de EM.

Rapid increase of cytosolic content of acetyl-CoA carboxylase isoforms in H9c2 cells by short-term treatment with insulin and okadaic acid

Mammalian acetyl-CoA carboxylase (ACC) is present in two isoforms, alpha and beta, both of which catalyze formation of malonyl-CoA by fixing CO2 into acetyl-CoA. ACC-alpha is highly expressed in lipogenic tissues whereas ACC-beta is a predominant form in heart and skeletal muscle tissues. Even though the tissue-specific expression pattern of two ACC isoforms suggests that each form may have a distinct function, existence of two isoforms catalyzing the identical reaction in a same cell has been a puzzling question. As a first step to answer this question and to identify the possible role of ACC isoforms in myogenic differentiation, we have investigated in the present study whether the expression and the subcellular distribution of ACC isoforms in H9c2 cardiac myocyte change so that malonyl-CoA produced by each form may modulate fatty acid oxidation. We have observed that the expression levels of both ACC forms were correlated to the extent of myogenic differentiation and that they were present not only in cytoplasm but also in other subcellular compartment. Among the various tested compounds, short-term treatment of H9c2 myotubes with insulin or okadaic acid rapidly increased the cytosolic content of both ACC isoforms up to 2 folds without affecting the total cellular ACC content. Taken together, these observations suggest that both ACC isoforms may play a pivotal role in muscle differentiation and that they may translocate between cytoplasm and other subcellular compartment to achieve its specific goal under the various physiological conditions.

Regulatory properties and active site groups of cytosolic mung bean pyruvate kinase.

Properties of mung bean pyruvate kinase were studied and the active site groups were derived. Metabolites like AMP, glucose, glucose-6-phosphate, fructose-6-phosphate, fructose-1, 6-bisphosphate, 3-phospho-glycerate, isocitrate, malate and alpha-ketoglutarate had practically no effect on pyruvate kinase activity. Alanine, serine, glutamine, methionine and GMP had a weak activating effect on the enzyme. Some metabolites such as ATP, GTP, and UMP were found to be weakly inhibitory. Moderate to strong inhibition was observed with citrate, succinate, glutamate and oxalate. Inhibition brought about by ATP and citrate when present together showed synergistic effect. Inhibition by citrate was non-competitive with respect to both PEP and ADP suggesting the presence of a regulatory site. Mung bean pyruvate kinase showed half optimal activity at pH 6.6 and 8.9 at saturating concentrations of PEP, ADP and Mg2+. Small concentrations of the SH specific reagents, namely iodoacetamide (0.1 and 0.2 mM), N-ethylmaleimide(0.05-0.1 mM) and p-chloromercuribenzoate (0.1 mM) inactivated the enzyme; single exponential loss of activity was observed in each case. Photooxidation of the enzyme in the presence of methylene blue (100 and 200 micrograms/ml) and rose bengal (5 and 10 micrograms/ml) also led to a single exponential activity decay. When the enzyme was treated with diethyl pyrocarbonate (DEP), a time dependent exponential decay in its activity was observed with a parallel increase in absorbance at 240 nm. PEP protected the enzyme against inactivation by DEP. Reagents specific for tyrosine (iodine and tetranitromethane) and tryptophan residues (N-bromosuccinimide) residues had no effect. These observations confirm that SH and imidazole groups are vital for the activity of the enzyme.

Purification, characterisation and steady state kinetic properties of cytosolic pyruvate kinase free of phosphoenol pyruvate phosphatase activity from germinating mung beans (Vigna radiata L.)

Mung bean pyruvate kinase (PK) practically free from PEP-phosphatase has been purified about 36 fold. The enzyme is irreversibly inactivated on desalting by gel filtration or dialysis (without EDTA). The inactivation is also observed in the presence of ATP, Mg2+ or thiols but is prevented by a non-proteinous, heat stable, small molecular mass factor present in the mung bean extract. Mung bean PK has a molecular mass of 210 kDa. It shows single exponential decay of activity at various temperatures (-4 to 60 degrees C). The Km of PEP and ADP are found to be 0.12 and 0.24 mM, respectively at pH 6.5, when the enzyme is saturated with the second substrate. The Km values for PEP and ADP are 0.05 and 0.16 mM, at pH 8.5 and 0.09 and 0.17 mM, respectively at pH 7.5. The optimum pH is 7.5. The enzyme shows an absolute requirement for Mg2+ (Km 0.43 mM) or Mn2+ ions (Km 0.125 mM). Potassium ions are not essential but activate the enzyme in the presence of Mg2+ or Mn2+ ions. ATP shows competitive inhibition with ADP and non-competitive with PEP. Kinetic studies at different pHs and effects of ATP suggest the formation of a ternary complex (E.ADP.PEP) by a combination of random and compulsory ordered pathways depending on the experimental conditions.

Effect of alloxan induced mild insulin dependent diabetes mellitus on rat erythrocyte cytosolic dehydrogenases.

In order to understand how the red cell of mild insulin dependent diabetes mellitus rat perform the normal physiological function and maintain integrity cytosolic dehydrogenases were assayed. Lactate dehydrogenase produces the cofactor for glycolytic enzymes while glucose 6-phosphate dehydrogenase and 6-phosphogluconate dehydrogenase produces the coenzymes for oxygen radical scavanging enzymes. Decrease in activity of cytosolic dehydrogenase renders diabetic erythrocyte population more susceptible to oxidant stress.

Induction of hepatic ATP-citrate lyase by insulin in diabetic rat--effects of insulin on the contents of enzyme and its mRNA in cytosol, and the transcriptional activity in nuclei

The effects of insulin on ATP-citrate lyase, its mRNA in cytosol, and the transcriptional activity in nuclei of diabetic rat liver were studied. Experimental diabetes was induced by an intraperitoneal injection of streptozotocin, and livers were removed from rats at 0, 1, 3, 6, 16, and 72 hours after the administration of insulin. ATP-citrate lyase began to increase at 16 hours, and continuously increased until 72 hours. The amount of mRNA encoding ATP-citrate lyase increased abruptly at 16 hours, then decreased to near basal level in 72 hours. No change in the transcription rate was observed until 3 hours after insulin administration. However, the activity increased 4-fold at 6 hours and 7-fold at 16 hours, 16-fold at 6 hours and 28-fold at 16 hours when pGACL1 and pGACL2 were used as probes, respectively, preceding the increase in the amounts of mRNA and the enzyme. It is suggested that the increase in the amount of ATP-citrate lyase by insulin is primarily due to the increase in the transcriptional activity of the gene in nuclei, which results in the subsequent increase in the amount of mRNA for the biosynthesis of ATP-citrate lyase in cytosol.

Metabolism of 5-aminoquinoline with liver cytosol enzyme.

In vitro oxidation and acetylation of 5-aminoquinoline by rabbit liver enzyme preparation has been investigated. Incubation of 5-aminoquinoline with cytosol fraction of the enzyme preparation in the presence of acetyl coenzyme-A gave rise to three different products, viz. 5-amino-2-hydroxy quinoline, 5-acetyl-aminoquinoline and 5-acetylamino-2-hydroxy quinoline due to the combined action of aldehyde oxidase and N-acetyl transferase. The metabolites thus obtained by enzyme catalysed reactions were isolated and separated by TLC, HPLC and subsequently characterised by IR and mass spectral fragmentation techniques.

Marcadores pronósticos de carcinoma mamario: experiencia del hospital de oncología / Breast carcinoma prognostic cancer markers: experience in the oncology hospital

Se investigó la presencia de marcadores pronósticos en el citosol de 323 neoplasias de glándula mamaria. En 107 de éstas se cuantificaron las concentraciones de alfa-1-intitripsina y se observó que fueron más bajas en los carcinomas de pacientes con recurrencia tumoral, después de la mastectomía, en comparación con aquellos de pacientes sin recurrencia tumoral (p<0.01). Las pacientes cuyas neoplasias tuvieron valores más altos de alfa-1-antitripsina y no presentaron recurrencia tumoral mostraron una mayor probabilidad se supervivencia en cinco años comparadas con las que tuvieron valores más bajos de alfa-1-antitripsina en el carcinoma y presentaron recurrencia tumoral (p<0.0001). Aparentemente la presencia de concentraciones bajas de alfa-1-antitripsina en el carcinoma mamario, es un indicador de mal pronóstico en estas pacientes. Por otro lado, en 126 carcinomas de mama se investigó el receptor estrogénico, el grado de diferenciación y la recurrencia tumoral y se observó que en las neoplasias grado de diferenciación II con receptor estrogénico negativo, el porcentaje de pacientes con recurrencia tumoral, después de la mastectomía, fue tres veces más alto que en los casos receptor estrogénico positivo. Estos resultadosa sugieren que se puede predecir la presencia de recurrencia tumoral en las pacientes con neoplasias grado de diferenciación II y receptor estrogénico negativo.

Studies on cytosolic superoxide dismutase from intestinal mucosa.

CuZn superoxide dismutase from monkey (Macaca radiata) intestinal mucosa was purified to homogenity. The enzyme showed a subunit molecular weight of 16000. The enzyme preparation from intestinal mucosa of rat, rabbit, guinea-pig and monkey was distinctly different in electrophoretic mobility and in elution profile on ion-exchange chromatography, possibly due to their difference in charge. The difference may not be due to glycosylation, since the enzyme was not stained for glycoprotein. Polyclonal antibody against purified monkey enzyme inhibited the activity of intestinal CuZn superoxide dismutase from rat, rabbit and guinea-pig. Thus it appears that intestinal CuZn superoxide dismutases from different sources, despite being similar in immunological and other properties, differ in certain amino acids and hence in charge.

Regulation of sialyltransferase activity in intestinal segments of rats.

A differential distribution of sialyltransferase (ST) in different regions of intestine has been shown. Jejunum and ileum homogenates from rats showed almost exclusive presence of alpha-2-3 ST (to Gal in Gal beta-1-4GlcNAc and/or to Gal in Gal beta-1-3GalNAc). In contrast, colon homogenates showed the presence of both alpha-2-3 ST (as above) and alpha-2-6 ST. Incubation of intestinal slices in presence of heat-inactivated horse serum (HHS) showed a time- and temperature-dependent secretion of soluble ST into the medium. Both jejunum and ileum slices showed high rates of secretion of alpha-2-3 ST. Colon slices, though rich in alpha-2-6 ST, secreted only alpha-2-3 ST. Colchicine, an anti-mitotic drug, injected into rats caused about 10-fold increase of the serum ST level. Jejunum slices from colchicine-treated rats showed an increased secretion of alpha-2-6 ST, suggesting that intestine undergoes a change in the expression of normal secretion of alpha-2-3 ST to a secretion of alpha-2-6 ST. The secretion of ST from incubated intestinal slices was inhibited by heparin. Certain protein factors (anti-proteases) in HHS bind to heparin-sepharose column and these protein factors are responsible for causing the secretion of ST into the medium. It has also been found that a supernatant fraction of the colon homogenate activated ST. Gel chromatography on HPLC produced 3-4 protein fractions from the colon cytosol and one of this fraction bearing high molecular weight proteins produced the maximum activation of ST.(ABSTRACT TRUNCATED AT 250 WORDS)