Aspartate and alanine aminotransferase activity in the tissues of adrenalectomized rabbits following administration of hydrocortisone and corticotropin

Aspartate and alanine aminotransferase (AsT, AlT) activities were studied in tissues of adrenalectomized rabbits which were treated with a single and multiple administrations of hydrocortisone (5 mg/kg) or a single administration of corticotropine (ACTH, 10 units/kg). It is shown that adrenalectomy decreases the AsT activity in homogenate of femoral muscle tissue and decreases the AlT activity in homogenate and supernatant of the liver, spleen and muscle tissue and in blood plasma. A single administration of hydrocortisone increases the AsT activity in supernatant of femoral muscle tissue and in blood plasma and increases AIT activity in the brain, liver, muscle and blood plasma. Parallel with that AsT and AlT activities are decreased in the spleen tissue. Multiple administration of hydrocortisone induces analogous changes in the AsT activity in the muscle and in the AlT activity in the liver, muscle and blood plasma. A single administration of ACTH induces an increase of the AsT activity in the muscle supernatant and in blood plasma. It also causes a rise of the AlT activity in the liver, muscle supernatant and blood plasma. The AlT activity is decreased in the brain supernatant. A question about stability of free amino acids metabolism (especially of alanine and aspartic acid) in the rabbit brain with changes in corticosteroid levels of organism is under discussion.     

Does the blood platelet phagocytic capacity depend on the sex and plasma thrombopoietic activity?

In 16 men and 25 women we tested the phagocytic activity of blood platelets. In women a higher phagocytosis index, increased blood platelet count and lower percentage of phagocytizing cells could be noted in comparison to men. Blood platelet count was significantly higher in women than in men. From this group we chose 10 men and 10 women and determined the plasma thrombopoietic activity. The results obtained were divided into two subgroups A with high and B low plasma thrombopoietic activity. In subgroup A a higher blood platelet count and phagocytosis index and a decreased percentage of phagocytizing platelets in relation to subgroup B could be found. The phagocytic activity of blood platelets in relation to sex and plasma thrombopoietic activity is briefly discussed. The role of blood platelets in antibacterial mechanisms is emphasized.     

Cytochrome P450 1A1 (CYP1A1) in blood lymphocytes evidence for catalytic activity and mRNA expression.

Studies initiated to characterise the catalytic activity and expression of CYP1A1 in rat blood lymphocytes revealed significant activity of 7-ethoxyresorufin-O-deethylase (EROD) in rat blood lymphocytes. Pretreatment with 3-methylcholanthrene (MC) and beta-naphthoflavone (NF) resulted in significant induction in the activity of lymphocyte EROD suggesting that like the liver enzyme, EROD activity in lymphocytes is inducible and is mediated by the MC inducible isoenzymes of P450. The increase in the activity of EROD was associated with a significant increase in the apparent Vmax and affinity of the substrate towards EROD. That this increase in the activity of EROD could be primarily due to the increase in the expression of CYP1A1 isoenzymes was demonstrated by RT-PCR and western immunoblotting studies indicating an increase in the expression of CYP1A1 in blood lymphocytes after MC pretreatment. Significant inhibition in the EROD activity of MC induced lymphocyte by anti-CYP1A1/1A2 and alpha-naphthoflavone further provided evidence that the CYP1A1/1A2 isoenzymes are involved in the activity of EROD in blood lymphocytes. The data indicating similarities in the regulation of CYP1A1 in blood lymphocytes with the liver isoenzyme suggests that factors which may affect expression of CYP1A1 in liver may also affect expression in blood lymphocytes and that blood lymphocytes could be used as a surrogates for studying hepatic expression of the xenobiotic metabolising enzymes.     

In Vitro Activity of Actinospectacin in Human Whole Blood

A method for testing antibacterial substances in whole blood is described. The test agent for the method was actinospectacin which reportedly has good in vivo activity, approximately in the range with chloramphenicol, but relatively poor in vitro activity in the common media. In human whole blood, however, the in vitro activity compares favorably with chloramphenicol thus indicating that whole blood may predict in vivo activity better than the usual bacteriological media.     

Determination of the adrenergic response by measurement of catecholamines and activity of dopamine-beta-hydroxylase (D-beta-B) in arterial capillary blood]

Plasma dopamine-beta-hydroxylase activity and catecholamines (adrenaline and noradrenaline) level in venous blood taken from the cubital vein and in arterialized capillary blood taken from the ear lobe were measured before and after a maximal exercise on a treadmill in 14 healthy untrained volunteers. The authors have shown a good correlation between these parameters in venous blood and those in capillary blood. It is concluded that the determination of plasma dopamine-beta-hydroxylase activity and catecholamines level in arterialized capillary blood could be a valid measure of the sympathetic activity.     

Using dried blood spots stored on filter paper to measure cholinesterase activity in wild avian species.

Birds of prey that are poisoned by cholinesterase inhibitors (e.g. organophosphate and carbamate insecticides) are often cared for at animal shelters, rehabilitation centres and wildlife diagnostic facilities. Plasma cholinesterase (ChE) activity is a recognized method of assessing exposure to these insecticides, but standard blood-handling protocols are difficult to follow in non-laboratory settings. The primary objective of this study was to expand upon a method for storing human blood on filter paper without the need for complicated equipment or refrigeration, and to test its utility for measurement of ChE activity in avian blood. ChE activity from whole blood, plasma, and dried blood spots was analysed from 169 wild birds and comparisons made among sample types. ChE activity measured in whole blood haemolysates and dried blood spots were significantly correlated (r = 0.74, p < 0.001), as was ChE activity measured in plasma and dried blood spots (r = 0.68, p < 0.001). This study demonstrated that monitoring pesticide exposure in birds could be conducted using elementary blood sampling, preserving and shipping techniques.     

Blood group A activities of glycoprotein and glycolipid from human erythrocyte membranes.

It is known that ABO blood group substances in human erythrocyte membranes are sphingoglycolipids, but recently several authors have reported that the glycoproteins of the erythrocyte membranes also have ABO blood group activities in addition to MN blood group activities and virus hemagglutination inhibitor activity. We solubilized blood group A erythrocyte membranes with lithium diiodosalicylate and separated the glycoprotein fraction by phenol extraction and ethanol precipitation. This fraction was apparently not contaminated with glycolipid, but it showed weak blood group A activity. The activity of the glycoprotein of the erythrocyte membranes was one-sixth of that of the lgycolipid fraction from the same amount of membranes. The glycoprotein components were purified by Sephadex G-200 gel filtration in SDS. The main component isolated, PAS 1, still showed blood A activity.     

Inhibition of delta-aminolevulinic acid dehydratase in human red blood cells by lead and activation by zinc or cysteine.

Inhibition of blood delta-aminolevulinic acid dehydratase(ALA-D) activity by lead was studied in vivo and in vitro. In vivo, a negative linear correlation (r = -0.85) was found between the logarithmic values of ALA-D activity and blood lead levels. In vitro the inhibitory effect of lead on blood ALA-D activity increased both with contact time and contact temperature of lead with blood before ALA-D assay. Maximum enzyme inhibition occurred after 14 h of contact at 25 degrees C. Inhibition of ALA-D activity by lead, in vivo as well as in vitro, is suppressed by the addition of zinc or cysteine. The logarithmic values of the activity ratios increase linearly with blood lead concentrations. The increase in ALA-D activity brought about by the addition of zinc or cysteine can be used to identify cases of low enzyme activity with no lead intoxication involved. The same technique can also detect cases in which ALA-D inhibition may be concealed by a presumably high initial enzyme activity as observed in some patients.     

Activity of proteolytic enzymes in the kidney and blood serum of rabbits during implantation of different polyurethanes

It is shown that the activity of neutral proteinase both in homogenate and in blood serum increases by the 14th day the D-1 sample being implanted. In the subsequent periods after implantation the enzyme activity in homogenate is the same. Three and six months after implantation the neutral proteinase activity in blood serum decreases as compared to the norm. The activity of acid proteinase in rabbit kidney homogenates lowers by the 90th day after implantation both for the D-1 and for A-10 samples. For the D-1 sample the enzyme activation in blood serum is observed by the 30th day after implantation, three months later it falls to reach the normal level in 6-12 months and inhibition activity on the 30th day after implantation on the A-10 sample. Such changes in the activity of enzymes in homogenates and blood serum may reflect certain stages of polyurethane biodestruction participation of various enzymic systems of the organism in these processes.     

Biological effect of vaccination can be assessed directly from diluted whole blood of rainbow trout using homologous blood phagocytes as immunosensors

A rapid and simple method is presented for determining antibody activity following vaccination, directly from diluted fish blood. The proposed method evaluates the effects of specific antibodies on ingestion by blood phagocytes, and may be used for measuring antibody levels following vaccination. The enhancing effect of trout IgM on ingestion was measured by luminol-amplified chemiluminescence (CL) emission of blood phagocytes. Respiratory burst (RB) activity of blood phagocytes was induced with the strain MT004 of bacterial fish pathogen Aeromonas salmonicida. To determine the boosting level of specific IgM on ingestion, various volumes of purified trout IgM containing specific antibodies against A. salmonicida were added to blood samples collected from non-vaccinated fish, and the RB activity of blood phagocytes was measured. The presence of antibodies in plasma of artificially prepared immune blood (AIB) was confirmed using enzyme-linked immunosorbent assay (ELISA). At a final blood dilution of 1:250, the mean RB activity of blood samples boosted with IgM was more than seven times higher, compared to other tested blood dilutions boosted with equal amount of IgM. Accordingly, a dilution of 1:250 was employed in the field study of vaccinated and non-vaccinated fish. The levels of A. salmonicida-specific antibodies in plasma samples of vaccinated and non-vaccinated fish were additionally confirmed with the ELISA assay. Based on these results, it is proposed that the biological activity of elicited antibodies can be assessed directly from diluted fish blood, using homologous blood neutrophils as immune sensors.     

C-peptide,Na+,K+-ATPase,and Diabetes

Na⁺,K⁺-ATPase is an ubiquitous membrane enzyme that allows the extrusion of three sodium ions from the cell and two potassium ions from the extracellular fluid. Its activity is decreased in many tissues of streptozotocin-induced diabetic animals. This impairment could be at least partly responsible for the development of diabetic complications. Na⁺,K⁺-ATPase activity is decreased in the red blood cell membranes of type 1 diabetic individuals, irrespective of the degree of diabetic control. It is less impaired or even normal in those of type 2 diabetic patients. The authors have shown that in the red blood cells of type 2 diabetic patients, Na⁺,K⁺-ATPase activity was strongly related to blood C-peptide levels in non–insulin-treated patients (in whom C-peptide concentration reflects that of insulin) as well as in insulin-treated patients. Furthermore, a gene-environment relationship has been observed. The alpha-1 isoform of the enzyme predominant in red blood cells and nerve tissue is encoded by the ATP1A1 gene.Apolymorphism in the intron 1 of this gene is associated with lower enzyme activity in patients with C-peptide deficiency either with type 1 or type 2 diabetes, but not in normal individuals. There are several lines of evidence for a low C-peptide level being responsible for low Na⁺,K⁺-ATPase activity in the red blood cells. Short-term C-peptide infusion to type 1 diabetic patients restores normal Na⁺,K⁺-ATPase activity. Islet transplantation, which restores endogenous C-peptide secretion, enhances Na⁺,K⁺-ATPase activity proportionally to the rise in C-peptide. This C-peptide effect is not indirect. In fact, incubation of diabetic red blood cells with C-peptide at physiological concentration leads to an increase of Na⁺,K⁺-ATPase activity. In isolated proximal tubules of rats or in the medullary thick ascending limb of the kidney, C-peptide stimulates in a dose-dependent manner Na⁺,K⁺-ATPase activity. This impairment in Na⁺,K⁺-ATPase activity, mainly secondary to the lack of C-peptide, plays probably a role in the development of diabetic complications. Arguments have been developed showing that the diabetesinduced decrease in Na⁺,K⁺-ATPase activity compromises microvascular blood flow by two mechanisms: by affecting microvascular regulation and by decreasing red blood cell deformability, which leads to an increase in blood viscosity. C-peptide infusion restores red blood cell deformability and microvascular blood flow concomitantly with Na⁺,K⁺-ATPase activity. The defect in ATPase is strongly related to diabetic neuropathy. Patients with neuropathy have lower ATPase activity than those without. The diabetes-induced impairment in Na⁺,K⁺-ATPase activity is identical in red blood cells and neural tissue. Red blood cell ATPase activity is related to nerve conduction velocity in the peroneal and the tibial nerve of diabetic patients. C-peptide infusion to diabetic rats increases endoneural ATPase activity in rat. Because the defect in Na⁺,K⁺-ATPase activity is also probably involved in the development of diabetic nephropathy and cardiomyopathy, physiological C-peptide infusion could be beneficial for the prevention of diabetic complications.     

State of the antioxidant system during induction in rats of primary generalized epileptic activity

Antioxidation system in the brain and blood of rats with generalized bemegride-induced epileptic activity was studied. Antioxidation enzyme activity (superoxide dismutase, glutathione peroxidase and glutathione reductase) and alpha-tocopherol content were determined at an early convulsive stage, immediately after generalized seizures and 10-15 min after seizure. Antioxidation enzyme activity and alpha-tocopherol level in the brain homogenate and blood remained unchanged at any stages of investigation. It is suggested that the increased level of lipid peroxidation products in the brain and blood of rats upon the development of bemegride-induced epileptic activity is not related to the decrease in antioxidation system activity. The effect is mediated by the activation of the reaction initiating free radical brain lipid transformations.     

Ventilation and circulation during exercise inOctopus vulgaris

Summary Ventilation frequency, volume, oxygen uptake, and oxygen transport by the blood have been studied in unrestrained octopus,Octopus vulgaris before, during and after recovery from 20 min of enforced activity. Exercise increased oxygen consumption 2.8 fold. The percentage utilisation of oxygen from the branchial water is maintained or increased at around 35% during activity and the calculated ventilation volume increases by 3 times. Prior to exercise the hemocyanin in arterial blood is 98% saturated and there is 83% utilisation of the oxygen in the blood. During activity there is remarkably little change in blood parameters so that the hemocyanin in the arterial blood remains at 96% saturation and oxygen utilisation is 90%. Cardiac output was calculated to have risen 2.5 fold during activity. As theP _{O 2} gradients across the gill do not change significantly during exercise the major adaptation which can account for an increase in oxygen consumption must be a 3 fold increase in the transfer factor. At rest 22% of the total CO₂ present in the blood is excreted during its passage through the gills and this rises to 32% during activity. There is no accumulation of CO₂ and only a slight acidification of the blood during activity. A significant respiratory and metabolic acidosis is avoided and the hemocyanin continues to function normally.     

Enzymatic analysis of uricotelic protein catabolism in the mosquito Aedes aegypti

Excess protein ingested by blood meals of mosquitoes is catabolized by a uricotelic pathway. We have established enzyme activity profiles for xanthine dehydrogenase (XDH), the enzyme that catalyzes uric acid synthesis, and related it to intestinal proteolytic activities in female Aedes aegypti mosquitoes.During the first day after eclosion the meconium containing urate and urea of larval/pupal origin is discharged, together with XDH activity. Females of constant body size and of defined age were given measured blood meals by enema. XDH activity and uric acid synthesis correlate with the size of the blood meals. Upon completion of protein digestion and catabolism, XDH is excreted in an active form and its activity returns to the residual level. Maximal XDH activity always precedes intestinal proteolytic activities by a few hours. Regulation of XDH activity appears to be purely metabolic, independent of endocrine factors.Small females fed identical volumes of blood produce fewer eggs than their larger sisters and consequently catabolize a higher proportion of blood protein to uric acid.Old females are less fecund and show smaller investments of protein into yolk than younger ones. Despite reduced XDH activities, they excrete equal amounts of urate as young females. Obviously in young females XDH activity is in excess of biochemical requirements.     

Blood deoxyribonuclease activity in health and diseases

The review summarizes literature data on (deoxy)ribonuclease activity in blood of healthy donors and patients with diseases. Special attention is paid to methodological aspects of the analysis of deoxyribonuclease activity and factors, which interfere with enzyme activity in blood.     

Releasing of plasminogen-activator from the kidney to the blood (author's transl)]

When fibrinolytic activity in blood samples from various vessels was examined by the dilute-blood-clotlysis-time method (DBCLT), it was found to be noticeably high in the renal venous blood, though the activity was not detected by usual blood clotlysis time method. Plasmin was not detected in any blood samples examined, and the contents of fibrinogen and fibrin (or fibrinogen) breakdown products in the renal venous blood were not significantly different from those in the blood from other vessels. However, the high activity of plasminogen-activator was found only in the renal venous blood. Inhibitors on plasmin and plasminogen-activator (urokinase) were detected in almost the same amount in the blood samples from the various vessels. The amount of the inhibitors was sufficient to inhibit the plasminogen activation by urokinase, whose activity was equivalent to the plasminogen-activator activity in the renal venous blood. These results indicate that the high activity by DBCLT in the renal venous blood was derived from the high activity of plasminogen-activator, which was inactivated by inhibitors in undiluted blood. Plasminogen-activator may be released from the kidney to the blood, and immediately inactivated by the inhibitors in renal vein, and then diluted with systemic blood which contains little plasminogen-activator.     

Can Carnosine Prevent the Aging-Induced Changes of Blood Platelet and Brain Regional Monoamine Oxidase-A mRNA in Relation to its Activity?

It is well known that the monoamine oxidase (MAO) activity deregulates during aging along with anti-oxidant activity. Carnosine (β-Ala-l-His) is an endogenous dipeptide biomolecule, having both anti-oxidant and anti-glycating properties. The present study deals with the effect of carnosine on aging-induced changes in MAO-A mRNA expression of brain regions and blood platelets in relation to their MAO-A activity. Results showed that aging significantly and characteristically increased the brain regional MAO-A mRNA whereas, in blood platelets it was significantly reduced with an increase in blood platelet counts. Carnosine attenuated both aging-induced (i) increase in brain regional MAO-A mRNA expression and blood platelet count, (ii) decrease in blood platelet MAO-A mRNA expression and its (platelet MAO-A) activity without affecting the young rats’ brain regions and platelet. The present results thus suggest that carnosine attenuated and restored the aging-induced (a) increase of platelet count and (b) changes in brain regional and blood platelet MAO-A mRNA expression and (c) decrease in platelet MAO-A activity, towards their respective basal level that were observed in young rats.     

Characteristics of creatine kinase isoenzyme spectrum in the blood of rats in aging and acute alcoholic intoxication

The study of creatine kinase (CK) activity in biological liquids of rats of different age has shown that CK blood activity is decreased in aged rats. Acute alcohol intoxication leads to significant increase of CK blood activity.     

Nonoxidative ethanol metabolism in human leukocytes: detection of fatty acid ethyl ester synthase activity

Oxidative pathways of alcohol metabolism such as alcohol dehydrogenase usually are not present in human blood and therefore clinical studies correlating ethanol metabolism with alcohol abuse syndromes have not been performed. To assess the activity of nonoxidative ethanol metabolism in blood, we assayed for the activity of fatty acid ethyl ester synthase, a pathway recently described as abundant in the human organs most commonly damaged by alcohol. Indeed, peripheral human leukocytes contain detectable fatty acid ethyl ester synthase activity: 1.2 X 10(6) leukocytes from 10 ml blood catalyze the synthesis of ethyl oleate at 1.4 nmol/4 hr. The reaction is linear with respect to cell number and expended time; Km oleate = 600 microM, Km ethanol = 600 mM. DEAE cellulose chromatography partially purifies synthase activity into a minor and major form (activity ratio = 10/1). Thus, gene products exist in human blood that recognize ethanol and whose biological activity is conveniently assayable for clinical investigations of alcohol metabolism and abuse.     

Adrenocortical and renin-angiotensin systems in dynamics of experimental diabetes

Components of the adrenocortical system (adrenal and blood corticosteroid hormones and hepatic and renal 11β-hydroxysteroid dehydrogenase activity) and also activity of the most important enzyme of the renin-angiotensin system, tissue and blood angiotensin converting enzyme (ACE), have been investigated in dynamics of alloxan diabetes. The study has shown that the initial period of diabetes is characterized by activation of synthesis and secretion of adrenocortical hormones into blood. High blood glucose and glucocorticoid hormones increase activity of the renin-angiotensin system in lungs and decrease ACE secretion into blood. This is accompanied by a decrease of activity of the renin-angiotensin system in kidneys. Subsequent progression of diabetes resulted in impairments of physiologically determined correlations between the components of these systems. Development of experimental diabetes for 30 days was accompanied by sign of a decrease of the adrenal glucocorticoid function regardless of stable impairments of carbohydrate metabolism. Under these conditions increased adrenal and hepatic 11β-hydroxysteroid dehydrogenase activity may be responsible for maintenance of elevated levels of the main glucocorticoid in blood and tissues. Factor analysis revealed impairments in intersystem relationships between the adrenocortical and renin-angiotensin systems in experimental diabetes thus suggesting disintegration of regulatory systems.