The proteinase and alpha 1-antitrypsin activities in the tissues during emotional stress in rabbits]

The experiments on rabbits under acute emotional stress have revealed a rise in activity of proteinases of blood serum, salivary glands and no changes of this activity in watery moisture of an eye. The activity of alpha-antitrypsin in watery moisture of an eye, unlike the blood serum, significantly increased, that evidently prevented the activation of proteolysis in it. The emotional stress is also accompanied by the intensification of fibrinolysis, one of the most important proteolytic systems of the blood.     

O-acetylation of sialic acids in N-glycans of Atlantic salmon (Salmo salar) serum is altered by handling stress

O-acetylation is one of the major modifications of sialic acids that significantly alters biological properties of the parent molecule. These O-acetylated forms are components of the cellular membrane and can affect physiological and pathological responses. Understanding the role of N-glycans in physiology is of increasing relevance to cellular biologists in various disciplines who study glycoproteomics yet lack information regarding the function of the attached glycans. It is well known that stress may decrease immune function in fish; however, there are only few suitable biomarkers available to monitor the physiological responses under the stress conditions. This study is the first report on the effect of stress on the profile of O-acetylation of sialic acids in fish serum. In order to preserve the relevant structural characteristics as much as possible, native N-glycans were directly analyzed using CE-MS. We have characterized the N-glycans in serum of salmon (Salmo salar) exposed to long-term handling stress (15 s out of the water, daily for 4 wk) and compared with the results obtained from sera of control fish. The results indicated that major N-glycans in salmon serum contained mono-acetylated sialic acids (83%), and that the O-acetylation pattern of sialic acids could be altered by long-term stress.     

Role of the mucous barrier in the pathogenesis of stress ulcers of the stomach

Using the model of immobilizing stress in rats, it has been established that the content of sialic acids in the stomach mucous membrane (SMM) and blood serum rises with simultaneous activation of proteolytic enzymes in them. The preliminary adaptation to short stressor influences parallel with an antipathogenic effect normalizes the content of sialic acids in the blood serum and SMM. The conclusion is made on the essential role of the degradation of gastric mucus in pathogenesis of stress ulcers.     

Impact of Fc N-glycan sialylation on IgG structure

ABSTRACT

Human IgG antibodies containing terminal alpha 2,6-linked sialic acid on their Fc N-glycans have been shown to reduce antibody-dependent cell-mediated cytotoxicity and possess anti-inflammatory properties. Although terminal sialylation on complex N-glycans can happen via either an alpha 2,3-linkage or an alpha 2,6-linkage, sialic acids on human serum IgG Fc are almost exclusively alpha 2,6-linked. Recombinant IgGs expressed in Chinese hamster ovary (CHO) cells, however, have sialic acids through alpha 2,3-linkages because of the lack of the alpha 2,6-sialyltransferase gene. The impact of different sialylation linkages to the structure of IgG has not been determined. In this work, we investigated the impact of different types of sialylation to the conformational stability of IgG through hydrogen/deuterium exchange (HDX) and limited proteolysis experiments. When human-derived and CHO-expressed IgG1 were analyzed by HDX, sialic acid-containing glycans were found to destabilize the CH2 domain in CHO-expressed IgG, but not human-derived IgG. When structural isomers of sialylated glycans were chromatographically resolved and identified in the limited proteolysis experiment, we found that only alpha 2,3-linked sialic acid on the 6-arm (the major sialylated glycans in CHO-expressed IgG1) destabilizes the CH2 domain, presumably because of the steric effect that decreases the glycan-CH2 domain interaction. The alpha 2,6-linked sialic acid on the 3-arm (the major sialylated glycan in human-derived IgG), and the alpha 2,3-linked sialic acid on the 3-arm, do not have this destabilizing effect.     

Chemo-enzymatic synthesis of the glycosylated alpha-mating factor of Saccharomyces cerevisiae and analysis of its biological activity

The effect of glycosylation on a bioactive peptide was studied using yeast Saccharomyces cerevisiae alpha-mating factor, which is composed of 13 amino acids. In this study, we prepared glycosylated alpha-mating factor by chemo-enzymatic synthesis. At first, N-acetylglucosaminyl alpha-mating factor (Trp-His-Trp-Leu-Gln(GlcNAc)-Leu-Lys-Pro-Gly-Gln-Pro-Met-Tyr) was chemically synthesized by the solid-phase method. Then, using the transglycosylation activity of Mucor hiemalis endo-beta-N-acetylglucosaminidase, we synthesized glycosylated alpha-mating factor with a glutamine-linked sialo complex type oligosaccharide. The biological activity of alpha-mating factor derivatives was examined by means of a growth arrest assay using secreted-protease-defective a cells of S. cerevisiae. The results showed that the bioactivity of glycosylated alpha-mating factor was lower than that of native alpha-mating factor. However, when sialic acid was removed from the complex type sugar chain of glycosylated alpha-mating factor, its bioactivity was recovered. Glycosylated alpha-mating factor exhibited higher resistance against proteolysis than native alpha-mating factor. It was found that the bioactivity of N-acetylglucosaminyl alpha-mating factor was higher than that of alpha-mating factor. Circular dichroism studies indicated that a slight change in the structure of alpha-mating factor may influence its activity.     

Infulence of hormones and medium composition on the degradation of phosphoenolpyruvate carboxykinase (GTP) and total protein in Reuber H35 cells.

Reuber H35 cells were pulse-labeled with radioactive leucine and the influence of hormones, serum, and amino acids on protein degradation was investigated during a subsequent chase period. Radioactive, immunoprecipitable phosphoenolpyruvate carboxykinase (GTP) (EC 4.1.1.32) had a half-life of 5 to 6 hours which was not influenced by either N6, O2-dibutyryl adenosine 3':5'-monophosphate, dexamethasone, or insulin. The rate of phosphoenolpyruvate carboxykinase degradation was the same under steady state conditions as during the approach to a new steady state following hormonal induction or deinduction of the enzyme. Therefore, hormonal regulation of enzyme activity in vivo is the result of changes in the rate of enzyme synthesis. The rate of proteolysis for total cell proteins was increased under nutritional step-down conditions produced by the removal of serum or amino acids, or both, from the medium. This effect was completely prevented by insulin. Cycloheximide and puromycin, but not actinomycin D or cordycepin, inhibited protein degradation under step-down conditions but did not further decrease the basal rate of proteolysis measured in the presence of either insulin or serum plus amino acids. There was a good correlation between changes in proteolysis produced by serum and amino acids and changes in the degradation rate of phosphoenolpyruvate carboxykinase. Also, inhibition of proteolysis with cycloheximide and puromycin was accompanied by a decrease in the degradation rate for enzyme antigen. It is suggested that nutritional step-down leads either to the synthesis or activation of a proteolytic system.     

The effect of an anionic detergent on complex carbohydrates and enzyme activities in the epidermis of the catfish Heteropneustes fossilis (Bloch)

Summary The histochemistry of various oxidative enzymes and complex carbohydrates in the epidermis of the catfishHeteropneustes fossilis was investigated after exposure to sublethal concentrations of the detergent sodium alkulbenzenesulphonate.It was found that the detergent treatment was accompanied by a marked increase in the number of mucous cells which produce histochemically detectable amounts of acidic glycoproteins with a shift towards the production ofO-acetylated sialic acids. The activities of mitochondrial enzymes were lost in the superficial cell layers. In contrast the activities of glucose-6-phosphate and lactate dehydrogenase increased considerably. The rise in glucose-6-phosphate dehydrogenase was correlated with the metabolic requirements for the enhanced production of mucus under stress.The changes in both enzyme activities and in the chemical composition of mucus may provide a suitable experimental model for histochemical investigations of the effect of stress induced by pollulants on aquatic organisms.     

Physicochemical and biological characterization of asialoerythropoietin. Suppressive effects of sialic acid in the expression of biological activity of human erythropoietin in vitro

Various partially or fully desialylated human erythropoietins were obtained by neuraminidase digestion of the hormone, without non-specific proteolysis and degradation of carbohydrates. Asialoerythropoietin showed a specific activity of 220-IU/mg protein in vivo, although that of the intact erythropoietin was 2.2 x 10(5) IU/mg. A linear relationship was found between the logarithm of the specific activity in vivo and the number of sialic acids. The asialoerythropoietin showed a four-times-higher specific activity in vitro compared with intact erythropoietin using mouse bone marrow cells. It also showed an approximately six-times-higher specific activity in a colony-forming assay for the erythroid colony-forming unit and the erythroid burst-forming unit. Partially or fully de-N-glycosylated erythropoietin derivatives also showed lower in vivo activity but higher in vitro activity than the intact erythropoietin, dependent on the number of sialic acids. To clarify the reason for the enhanced biological activity of asialoerythropoietin in vitro, the binding of intact 125I-erythropoietin or 125I-asialoerythropoietin to cells containing specific receptors for the hormone was analyzed. 125I-asialoerythropoietin bound to spleen cells from anemic mice approximately five times faster than did intact 125I-erythropoietin. The amount of 125I-asialoerythropoietin internalized by target cells, measured in the absence of NaN3, was four times higher than that of intact erythropoietin. These results demonstrate that asialoerythropoietin binds to its receptor faster than the intact form. This may be the main reason for the increased activity of asialoerythropoietin in vitro.     

Indices of biopolymer metabolism in connective tissue during repeated stress

Experiments on rats have shown that daily strong stress actions (immobilization) brought about the marked increase in the 11-oxycorticosteroid level and indices of the biopolymer exchange in the connective tissue (free oxyproline, glycosaminoglycanes, sialic acids). Under the acupuncture action (weak stresses) all the above indices were changed mainly after the first influence. Preliminary acupuncture stimulations prevent deep changes in the exchange of biopolymers in the connective tissue, developing under strong stresses.     

Influence of salicylic and succinic acids on formation of active oxygen forms in wheat coleoptiles

The comparative study of influence of exogenous salicylic (SaA) and succinic (SuA) acids on the production of reactive oxygen species by isolated wheat coleoptiles has been provided. Under the action of both acids the increase of generation of superoxide anion-radical (O2(.-)) was observed. This increase was partially suppressed by treatment of coleoptiles with inhibitors of peroxidase (salicylhydroxamic acid) and NADP H-oxidase (imidazole and alpha-naphthol). The increase of hydrogen peroxide content, activity of peroxidase and superoxide dismutase (SOD) was registered under the influence of SaA and SuA; catalase activity did not change essentially. The treatment of coleoptiles with the indicated acids resulted in the increase of their resistance to abiotic stress (damaging heating, 43 +/- 0,1 degrees C, 10 min). The conclusion is made, that the increase of O2(.-) generation in wheat coleoptiles under the action of SaA and SuA is related, probably, to the increase of apoplast peroxidase and NADP.H-oxidase activity, and the rise of H2O2 content is related to the growth of SOD activity. These enzymatic systems are involved in the induction of plant cells protective reactions to the hyperthermia.     

一些抗癌药物对荷瘤小鼠血清中唾液酸含量的影响

测定荷六种小鼠肿瘤S180肉瘤(实体型和腹水型),腹水肝癌(HepA),艾氏腹水瘤(EC),白血病P388和Lewis肺癌的小鼠腹水和血清中唾液酸含量,结果显示血清中唾液酸含量与肿瘤生长、肿瘤类型有关。腹水中唾液酸含量高,推测肿瘤能比正常组织产生更多唾液酸。对四种腹水肿瘤用阴离子交换树脂层析鉴定,发现HepA腹水中葡萄糖代唾液酸(NcuGc)含量明显低于其它三种腹水瘤。还研究了十几种抗癌药物对荷S180和Lewis肺癌小鼠血清中唾液酸含量的影响。发现吗丙嗪(probimane)和顺铂(DDP)能降低荷瘤小鼠血清中唾液酸含量,提示此二药物在肿瘤治疗中更具选择性。     

Control of proteolysis by norepinephrine and insulin in brown adipocytes: role of ATP,phosphatidylinositol 3-kinase,and p70 S6K

The objective of this study was to evaluate some of the mechanisms by which norepinephrine (NE) and insulin may influence protein degradation in mouse brown adipocytes differentiated in cultures. The effects of NE and insulin, alone or in combination, on three factors known to influence proteolysis (maintenance of cell ATP and 1-phosphatidylinositol 3-kinase (PI 3-kinase) and p70 ribosomal S6-kinase (p70 S6K) activities) were examined. It was proposed that NE affects proteolysis indirectly by decreasing cell ATP from activation of uncoupling protein-1 (UCP1)-dependent mitochondrial respiration. This was tested by comparing the effects of NE and fatty acids (which directly activate UCP1) on proteolysis in brown adipocytes, as well as in pre-adipocytes and 3T3-L1 adipocytes, which do not express UCP1. An inhibitory effect of insulin on proteolysis is observed in both pre-adipocytes and differentiated cells, whereas NE and exogenously added fatty acids inhibit proteolysis only in brown adipocytes. There is a linear relationship between reductions in cell ATP and proteolysis in response to increasing concentrations of NE or fatty acids. PI 3-kinase activity is required for proteolysis, because two selective inhibitors (wortmannin and LY294002) reduce proteolysis in both pre-adipocytes and differentiated cells. This effect is not additive to that of NE, which suggests they affect the same proteolytic pathway. In contrast to NE, insulin increases PI 3-kinase activity and phosphorylation of p70 S6K. Rapamycin, which prevented insulin-dependent increase in phosphorylation of p70 S6K, increases proteolysis in brown adipocytes and antagonizes the inhibitory effect of insulin on proteolysis, but not the inhibitory effect of NE. Thus, insulin inhibits proteolysis via rapamycin-sensitive activation of p70 S6K, whereas the effect of NE appears largely to be a function of decreasing cell ATP content.     

The action of sialidases on substrates containing O-acetylsialic acids

O-Acetyl substitution of sialic acids in glycoconjugates reduces the rate of action of sialidases on these substrates. A plasma glycoprotein fraction and an erythrocyte ganglioside containing 4-O-acetylsialic acids were isolated and characterized from equine blood, and a sialyllactose preparation with Neu5,9Ac2 was purified from rat urine. Using the novel substrates II3Neu4Ac5Gc-LacCer and II3Neu5,9Ac2-Lac the influence of individual mono-O-acetylated sialic acids on bacterial and viral sialidases could be clearly shown. This extends and clarifies observations with glycoproteins containing mixtures of mono-, di- and higher O-acetylated sialic acids with substitution at the hydroxyls on carbons 4, 7, 8 and 9. A 4-O-acetyl substitution in sialic acids blocks the action of bacterial sialidases for substrates containing these derivatives, while viral enzymes show low but significant activity, reflected in Km and Vmax values. A small reduction in bacterial sialidase activity was observed for II3Neu5,9Ac2-Lac relative to II3Neu5Ac-Lac in agreement with kinetic analysis. Newcastle disease virus sialidase showed a 50% reduction in hydrolysis rate for the 9-O-acetylated substrate and ten-fold reductions of both Km and Vmax values.     

Effect of arginine and its analogs on the activity of lysosomal and nonlysosomal peptide hydrolases in rat tissues

The autolysis intensity and proteolysis activity at pH 4,5, 7,4, 8,5 and lysosomal and nonlysosomal peptide hydrolase activity have been studied in brain and liver tissues of rats. L-arginine has been found to increase the peptide hydrolase activity in neutral and alkaline media in case of autolysis and proteolysis estimation according to the amino nitrogen increase. When the peptide hydrolase activity is estimated according to the increase of folin-positive components its decrease under the action of arginine in neutral and alkaline media has been revealed. Arginine doesn't change the lysosomal peptide hydrolase activity. In both tissues under the influence of arginine the nonlysosomal peptide hydrolase activity defined by amino nitrogen increases, estimated by the folin-positive components--decreases. Arginine shows the specific influence on the nonlysosomal peptide hydrolase activity. The L-arginine analogues (D-arginine, guanidine) and products of the arginase reaction (ornithine and urea) don't exert such an effect on the nonlysosomal proteolysis.     

Metabolic labeling of sialic acids in tissue culture cell lines: methods to identify substituted and modified radioactive neuraminic acids

The parent sialic acid N-acetylneuraminic acid can be modified or substituted in various ways, giving rise to a family of more than 25 compounds. The definitive identification of these compounds has previously required isolation of nanomole amounts for mass spectrometry or NMR. We have explored the possibility of using the known metabolic precursors of the sialic acids, particularly N-acetyl-[6-3H]mannosamine, to label and identify various forms of sialic acids in tissue culture cells. Firstly, we defined several variables that affect the labeling of sialic acids with N-acetyl-[6-3H]mannosamine. Secondly, we have devised a simple screening method to identify cell lines that synthesize substituted or modified sialic acids. We next demonstrate that it is possible to definitively identify the natures of the various labeled sialic acids without the use of mass spectrometry, even though they are present only in tracer amounts. The methods used include paper chromatography, analytical de-O-acetylation, periodate release of the 9-3H as [3H]formaldehyde (which is subsequently converted to a specific 3H-labeled chromophore), acylneuraminate pyruvate lyase treatment with identification of [3H]acylmannosamines, gas-liquid chromatography with radioactive detection, and two new high-pressure liquid chromatography methods utilizing the amine-adsorption:ion suppression and ion-pair principles. The use of an internal N-acetyl-[4-14C]neuraminic acid standard in each of these methods assures precision and accuracy. The combined use of these methods now allows the identification of radioactive tracer amounts of the various types of sialic acids in well-defined populations of tissue culture cells; it may also allow the identification of hitherto unknown forms of sialic acids.     

Porcine arterivirus attachment to the macrophage-specific receptor sialoadhesin is dependent on the sialic acid-binding activity of the N-terminal immunoglobulin domain of sialoadhesin

The sialic acid-binding lectin sialoadhesin (Sn) is a macrophage-restricted receptor for porcine reproductive and respiratory syndrome virus (PRRSV). To investigate the importance of pSn sialic acid-binding activity for PRRSV infection, an R₁₁₆-to-E mutation was introduced in the predicted sialic acid-binding domain of pSn, resulting in a mutant, pSn^RE, that could not bind sialic acids. PSn, but not pSn^RE, allowed PRRSV binding and internalization. These data show that the sialic acid-binding activity of pSn is essential for PRRSV attachment to pSn and thus identifies the variable, N-terminal domain of Sn as a PRRSV binding domain.     

Evidence of free radical participation in N-glycolylneuraminic acid generation in liver of chicken treated with gallotannic acid

The occurrence of N-glycolylneuraminic acid (Neu5Gc) in cancerous tissue and inflammatory diseases, conditions associated with increased oxidative stress suggests the participation of reactive oxygen radicals in Neu5Gc generation, where an oxygen atom is transferred. To study this possibility, we treated two groups of domesticated birds and rabbits with different dosages of gallotannic acid (GTA), a compound known to cause generation of reactive oxygen species (ROS). The antioxidant status and leukocyte capacity, as well as amount and form of sialic acids were assessed in plasma and liver. Results showed that while lipid peroxides were increased, white blood cell (WBC) count was decreased significantly in all treated groups. The increased sialic acids and low protein contents were observed in plasma, possibly as a result of decreased sialic acid cycling crucial for formation of new glycoconjugates in tissues, caused by decreased protein synthesis due to microsomal degranulation. The activities of antioxidant enzymes were also decreased in treated groups, implying increased oxidative stress. The presence of Neu5Gc and apparent absence of Neu5Ac hydroxylase activity in liver of chicken treated with GTA indicate that free radicals might be involved in the non-enzymatic hydroxylation of N-acetylneuraminic acid (Neu5Ac) to Neu5Gc in liver, which normally does not express this sialic acid.     

Involvement of sialic acid in the regulation of γ--aminobutyric acid uptake activity of γ-aminobutyric acid transporter 1

The γ-aminobutyric acid (GABA) transporters (GATs) have long been recognized for their key role in the uptake of neurotransmitters. The GAT1 belongs to the family of Na(+)- and Cl(-)-coupled transport proteins, which possess 12 putative transmembrane (TM) domains and three N-glycosylation sites on the extracellular loop between TM domains 3 and 4. Previously, we demonstrated that terminal trimming of N-glycans is important for the GABA uptake activity of GAT1. In this work, we examined the effect of deficiency, removal or oxidation of surface sialic acid residues on GABA uptake activity to investigate their role in the GABA uptake of GAT1. We found that the reduced concentration of sialic acid on N-glycans was paralleled by a decreased GABA uptake activity of GAT1 in Chinese hamster ovary (CHO) Lec3 cells (mutant defective in sialic acid biosynthesis) in comparison to CHO cells. Likewise, either enzymatic removal or chemical oxidation of terminal sialic acids using sialidase or sodium periodate, respectively, resulted in a strong reduction in GAT1 activity. Kinetic analysis revealed that deficiency, removal or oxidation of terminal sialic acids did not affect the K(m) GABA values. However, deficiency and removal of terminal sialic acids of GAT1 reduced the V(max) GABA values with a reduced apparent affinity for extracellular Na(+). Oxidation of cell surface sialic acids also strongly reduced V(max) without affecting both affinities of GAT1 for GABA and Na(+), respectively. These results demonstrated for the first time that the terminal sialic acid of N-linked oligosaccharides of GAT1 plays a crucial role in the GABA transport process.     

Effect of Acute Stress on Hippocampal Glutamate Levels and Spectrin Proteolysis in Young and Aged Rats

Abstract: Aging in rats is associated with a loss of hippocampal neurons, which may contribute to age-related cognitive deficits. Several lines of evidence suggest that stress and glucocorticoids may contribute to age-related declines in hippocampal neuronal number. Excitatory amino acids (EAAs) have been implicated in the glucocorticoid endangerment and stress-induced morphological changes of hippocampal neurons of young rats. Previously, we have reported that acute immobilization stress can increase extracellular concentrations of the endogenous excitatory amino acid, glutamate, in the hippocampus. The present study examined the effect of an acute bout of immobilization stress on glutamate levels in the hippocampus and medial prefrontal cortex of young (3–4-month) and aged (22–24-month) Fischer 344 rats. In addition, the effect of stress on spectrin proteolysis in these two brain regions was also examined. Spectrin is a cytoskeleton protein that contributes to neuronal integrity and proteolysis of this protein has been proposed as an important component of EAA-induced neuronal death. There was no difference in basal glutamate levels between young and old rats in the hippocampus or medial prefrontal cortex. During the period of restraint stress a modest increase in glutamate levels in the hippocampus of young and aged rats was observed. After the termination of the stress procedure, hippocampal glutamate concentrations continued to rise in the aged rats, reaching a level approximately five times higher than the young rats, and remained elevated for at least 2 h after the termination of the stress. A similar pattern was also observed in the medial prefrontal cortex with an augmented post-stress-induced glutamate response observed in the aged rats. There was no increase in spectrin proteolysis in the hippocampus or medial prefrontal cortex of young or aged rats after stress or under basal nonstress conditions. The enhanced poststress glutamate response in the aged rats may contribute to the increased sensitivity of aged rats to neurotoxic insults.