Investigation of N-acylethanolamines on adrenal cortex function

The possibility of NAE to take part in the regulation of the function of adrenal glands was studied. It was shown that two times NAE (18:0) injection in a dose 5 mg/kg of weight increased the content of 11-hydroxysteroids in blood of intact male rats. NAE caused the raise of the blood hormone content in 4 fold under the immobilization stress. It is apparent that augment of stress response under the influence of NAE in vivo is explained by the activation of hypophysis-adrenal cortex system. In vitro NAE lowered steroidogenesis by near 40%. One can suggest that this decrease is caused by membranotropic properties of NAE.     

Effect of Pb on leaf antioxidant enzyme activities and ultrastructure of the two ecotypes of <Emphasis Type="Italic">Sedum alfredii</Emphasis> Hance

Hydroponic experiments were conducted to study the effect of Pb on growth, leaf antioxidant enzyme activities, and ultrastructure of the accumulating ecotype (AE) and non-accumulating ecotype (NAE) of Sedum alfredii Hance. AE was found to be more tolerant to excessive Pb levels in growth medium. Concentrations of Pb in the shoots of the AE were 1.98 times higher than those in the NAE when 0.2 mM Pb was supplied. Both chlorophyll a and b did not decrease significantly in AE plants after Pb treatment, while a significant decrease was noted in chlorophyll a and b of NAE plants treated with Pb concentrations greater than 0.05 mM. The results showed that activities of superoxide dismutase (SOD) and catalase (CAT) were elevated in the leaves of AE under Pb stress. However in NAE, Pb-caused enhancement was noticed only in the activity of SOD while activity of CAT was declined as compared to the control plants. With increased Pb level, malondialdehyde (MDA) content increased significantly in both ecotypes of S. alfredii, indicating that Pb toxicity led to lipid peroxidation and membrane damage, but MDA content in the leaves of NAE was always higher than in AE plants. The ultrastructural analysis of the spongy mesophyll cells revealed that excessive Pb concentrations obviously damaged the cell membrane, chloroplasts, and mitochondria of both the ecotypes but damage was more severe in NAE. Although growth, leaf physiology, and ultrastructure of both the ecotypes were affected by Pb treatment, deleterious effects were more pronounced in NAE. This text was submitted by the authors in English.     

Basic directions of research of the department of lipid biochemistry

The review deals with the scientific activity of the Department of Biochemistry of Lipids of the Palladin Biochemistry Institute of the National Academy of Sciences of Ukraine. The estimation of the functional role of some major lipids and of the minor lipid components, namely, N-acylethanolamines (NAE), is the main problem of the scientific investigations of the Department. The role of some lipids in the pathogenesis of diseases accompanied by the oxidative stress was also studied. The Department was the first to find and identify NAE in neuroblastoma C1300 N18 cells. It was shown that NAE with long saturated acyl chains inhibited veratridine-activated fast sodium channels. NAE also activated uterine plasma membrane smooth muscle Ca2+, Mg(2+)-ATPase, and inhibited Fe(2+)-induced free radical oxidation in mitochondria. The results of these investigations served as a basis for development of pharmacological substances with membrane protective properties. It was shown that, at different diseases accompanied by the oxidative stress, a significant change in the lipid composition of cell membranes occurred. Sometimes these changes were adaptive in character, which favored the cell viability adaptation to pathological conditions. The new level of regulation of adaptive reactions can be accompanied by the development of additive injuries of cell viability, which may be caused by the altered level of biologically active cell lipid components. Based on the results of these investigations, the preparation intended for treatment of male infertility was developed. The pharmacological substances intended for treatment of morphine abuse and acute ischemia of myocardium were created.     

Neuroprotective effect of N-acylethanolamines in chronic morphine dependence. II. Effect on the rat brain fatty acid composition

The effect of N-acylethanolamines mixture (NAE) with saturated and unsaturated acyl chains on the fatty acid composition of the rat brain under chronic morphine dependence was investigated. Long-term administration of NAE reduced morphine-induced decrease of mono- and polyunsaturated fatty acids in the rat brain crude lipid extract. Furthermore, NAE restored the acyl chain spectrum, especially the content of docosahexaenoic acid in essential phospholipids--phosphatidylcholine and phosphatidylethanolamine. Pharmacological activity of NAE depended on a dose.     

Lipidomic analysis of N-acylphosphatidylethanolamine molecular species in Arabidopsis suggests feedback regulation by N-acylethanolamines

N-Acylphosphatidylethanolamine (NAPE) and its hydrolysis product, N-acylethanolamine (NAE), are minor but ubiquitous lipids in multicellular eukaryotes. Various physiological processes are severely affected by altering the expression of fatty acid amide hydrolase (FAAH), an NAE-hydrolyzing enzyme. To determine the effect of altered FAAH activity on NAPE molecular species composition, NAE metabolism, and general membrane lipid metabolism, quantitative profiles of NAPEs, NAEs, galactolipids, and major and minor phospholipids for FAAH mutants of Arabidopsis were determined. The NAPE molecular species content was dramatically affected by reduced FAAH activity and elevated NAE content in faah knockouts, increasing by as much as 36-fold, far more than the NAE content, suggesting negative feedback regulation of phospholipase D-mediated NAPE hydrolysis by NAE. The N-acyl composition of NAPE remained similar to that of NAE, suggesting that the NAPE precursor pool largely determines NAE composition. Exogenous NAE 12:0 treatment elevated endogenous polyunsaturated NAE and NAPE levels in seedlings; NAE levels were increased more in faah knockouts than in wild-type or FAAH overexpressors. Treated seedlings with elevated NAE and NAPE levels showed impaired growth and reduced galactolipid synthesis by the "prokaryotic" (i.e., plastidic), but not the "eukaryotic" (i.e., extraplastidic), pathway. Overall, our data provide new insights into the regulation of NAPE-NAE metabolism and coordination of membrane lipid metabolism and seedling development.     

Delta sleep-inducing peptide in the blood and hypothalamus of rats with various resistance to emotional stress

Enzyme immunoassay was used to study delta-sleep peptide content in blood and hypothalamus in rats of Wistar lines under acute emotional stress. It was found that the content of delta-sleep peptide in blood and hypothalamus of stable rats was higher as compared with rats predisposed to emotional stress. After 1.5-hour emotional stress the content of delta-sleep peptide increased in blood and hypothalamus both in stable rats and predisposed ones. After 3-hour stress there was an increase in delta-sleep peptide content in hypothalamus, and contrary to its decrease in blood in both stable and predisposed animals. It is supposed that delta-sleep peptide along with other oligopeptides is one of the factors determining individual animal resistance to emotional stress, which is supported by significant delta-sleep peptide increase in hypothalamus in stable rats.     

Neuroprotective effect of N-acylethanolamines in chronic morphine dependence. I. Rat brain phospholipids as a target of their action

The influence of saturated and unsaturated N-acylethanolamines (NAEs) mixture on the rat brain lipid composition under the chronic morphine dependence was studied. It was shown that the long-term administration of NAE to rats with experimental morphine dependence restored the morphine-induced alterations of the brain phospholipid composition. This effect can probably be explained by a fatty acyl transfer from NAE to sn-1 position of some brain glycerophospholipids. Another reason of NAE beneficial effect could be due to its antioxidative property, thus providing the remodelling of phospholipid composition. The restoration of the brain essential phospholipids is associated with the decline in morphine consumption in rats with experimental morphine dependence. The mechanism of this phenomenon requires further investigations.     

Lauroylethanolamide is a potent competitive inhibitor of lipoxygenase activity

The lipoxygenase (LOX) pathway was proposed to compete with hydrolysis and be partly responsible for the metabolism of polyunsaturated N-acylethanolamines (PU-NAEs). Treatment of Arabidopsis seedlings with lauroylethanolamide (NAE 12:0) resulted in elevated levels of PU-NAE species, and this was most pronounced in plants with reduced NAE hydrolase activity. Enzyme activity assays revealed that NAE 12:0 inhibited LOX-mediated oxidation of PU lipid substrates in a dose-dependent and competitive manner. NAE 12:0 was 10-20 times more potent an inhibitor of LOX activities than lauric acid (FFA 12:0). Furthermore, treatment of intact Arabidopsis seedlings with NAE 12:0 (but not FFA 12:0) substantially blocked the wound-induced formation of jasmonic acid (JA), suggesting that NAE 12:0 may be used in planta to manipulate oxylipin metabolism.     

A nano-sized Au electrode fabricated using lithographic technology for electrochemical detection of dopamine

One big challenge of fabricating nanosensors for spatially resolved electrochemical detection of neurochemicals, such as dopamine (DA), is the difficulty to assembly nanometer-scale patternable and integrated sensors. In this work we develop a novel approach to precisely manufacture nano-Au-electrode (NAE) using lithographic fabrication technique, and characterize the NAE for DA detection. A negative photoresist, SU-8, is used as a substrate and protection layer for the 127-nm Au active sensing layer. The cross surface morphology and thickness of the Au layer are imaged by scanning electron microscopy and an interference microscopy. This NAE could be precisely controlled, repeatedly fabricated and conveniently renewed for several times. The electrochemical sensitivity and selectivity of the NAE towards DA detection are significantly higher than those of a standard Au thin-film electrode. This work demonstrates that the NAE could be used as an attractive means for electrochemically sensing and recording DA.     

Participation of cyclic nucleotides, protein kinase A and C in realization of n-acylethanolamine action in human adrenocortical cells

The messenger mechanisms mediating N-acylethanolamines (NAE) regulatory signals in the adrenal cortex were studied. An analysis of the mechanisms of realization of NAE effects in the post-operation human adrenal cortex was carried out in vitro. Influence of NAE mix on cAMP and cGMP level, protein kinase A and C activity in sub-cellular fraction of adrenocorticocytes and homogenates of conditionally normal adrenal cortex tissues was investigated. It was shown, that N-acylethanolamines treatment resulted in a decrease of cAMP level in adrenocortical cells. cGMP level is not changed in these conditions. The rise of protein kinase C activity was obtained in the membrane fraction after N-acylethanolamines in vitro treatment (3.3 microg/ml). Activity of cAMP-dependent protein kinase A significantly decreased in cytosol fraction of adrenocorticocytes. It was concluded, that steroid genesis activation is determined by protein kinase C activation, inhibition is determined by cAMP-dependent messenger system.     

Exogenous Melatonin Protects Canola Plants from Toxicity of Excessive Copper

Physiological mechanisms of canola (Brassica napus L., cv. Westar) plant protection afforded by melatonin (at 0.1–100 μM) from copper salts (at 10–100 μM) were studied. Plants were cultivated on Hoagland–Snyder medium. At the age of 5 weeks, they were subjected to melatonin, copper sulfate, or their combination for 7 days. It was found that excessive copper in a nutrient medium inhibited the dry biomass accumulation against the control by 25–85%. Copper sulfate diminished the content of chlorophylls and carotenoids and functional activity of the thylakoid membranes in the chloroplasts. It increased 2.0–2.5 times the lipid peroxidation (LPO) intensity and the proline level up to 20 times. Melatonin reduced the changes caused by copper, and the degree of the protection depended on melatonin and CuSO₄ concentrations. It was found that melatonin decreased the oxidative stress and proline accumulation, both induced by CuSO₄. At first, we established the positive correlation (with the coefficient 0.8240) between the level of oxidative stress and proline content in the presence of CuSO₄. Possible mechanisms of protection by melatonin and its biological role under conditions of technogenic stress are discussed.     

The Lung Surfactant and Immune System Response to Intratracheal Administration of “Empty” Liposomes

Abstract

After intratracheal administration of “empty” lecithin-cholesterol liposomes to rats it was found out twofold enhancement of the surfactant content with maximum on the 2nd-3rd day and with normalization to the control level by the 7th day. Phagocytic index of the alveolar macrophages was also increased. It was shown the change of the blast-transformation reaction of bronchoalveolar lavage and blood lymphocytes. Immune complexes content in bronchoalveolar lavage at different period of time after liposomes administration increased 1.5-2-fold. The natural killers (NK) activity of cells obtained from bronhoalveolar lavage and blood was enhanced 10 times and 2 times respectively. It is supposed that enhancement of lung surfactant phospholipid content is caused by substrate stimulation of type II alveolocytes activity. The stimulation of immunocompetent cells might be connected with imitation of bacterial attack by liposomes with proteins adsorbed on their surface.     

Stability of plant vacuolar membranes under the conditions of osmotic stress and influence of redox agents

Stability of plant vacuolar membranes (tonoplast), which underwent two types of osmotic stress and also the effect of redox agents (glutathione in its oxidized (GSSG) and reduced (GSH) forms) and nitric oxide (NO) under various pH values, has been investigated. The fatty-acid content of tonoplast has also been determined. It has been shown that stability of vacuoles decreased under hyperosmotic stress but not under hypoosmotic stress. These effects are unlikely caused by the fatty-acid content of vacuolar membranes. Stability of vacuoles changed under various redox conditions; this process was more intensive under the conditions of hypoosmotic stress in the experiments with oxidized glutathione. The influence of nitrogen oxide was different for various kinds of stress: stability of vacuoles decreased substantially under hypoosmotic stress, while under the conditions of hyperosmotic stress NO elevated the stability level of the vacuolar membranes.     

The distribution of N-acetyl-beta-glucosaminidase, beta-glucuronidase, acid alpha-naphthyl acetate esterase and alpha-naphthyl acetate esterase in subpopulations of thymocytes, bone marrow cells and other lymphoid organs in mice

Thymocytes, bone marrow lymphocytes, as well as lymphocytes from spleen, lymphoid nodes and peripheral blood were obtained from BALB/c mice. Subpopulations of BALB/c bone marrow T-lymphocyte precursors and immature (small) and mature (large) thymocytes, as established by the percentage of terminal deoxynucleotidyl transferase (TdT) and peanut agglutinin (PNA) positive cells, were obtained by centrifugation on discontinuous density gradients. The activities of N-acetyl-beta-glucosaminidase (NAG), beta-glucuronidase (BG), acid alpha-naphthyl acetate esterase (ANAE) and alpha-naphthyl acetate esterase (NAE) were determined by enzymatic assays of cell extracts of the diverse T-lymphocyte subpopulations, in order to follow their evolution with the maturation of the T-lymphocytes in the thymus. These activities were compared with that determined in lymphocytes from spleen, lymphoid nodes and peripheral blood. The glucidases BG and NAG and the esterases ANAE and NAE present a high decrease in their activities from bone marrow T-lymphocyte progenitors to immature thymocytes. BG, NAG and ANAE activities undergo an about 3-fold increase with the evolution of the thymocytes from small to large cells. Whereas the level of the NAE activity decreases (2-fold) with that evolution of the thymocytes. Lymphocytes from spleen and lymphoid nodes exhibit activities of the glucidases and, specially, the esterases marked by higher than those of thymocyte populations. Peripheral blood lymphocytes also present NAG, ANAE and NAE activities higher than in thymocytes, but their BG activity is lower.     

Phospholipid composition of normal and transformed cells cultivated with N-acylethanolamines

Effects of N-stearoylethanolamine (NSE), N-oleoilethanolamine (OEA) and mixture of more than 20 saturated and unsaturated N-acylethanolamines on phospholipids composition of normal and transformed fibroblasts in the culture were compared in the work. It was shown that cultivation of cells NSE decreases percent content of phosphatidylinositol (PI), phosphatidylserine (PS) and sphingomyeline (SM) - important mediators of cell signaling. Under the influence of OEA the level of SM decreases as well, but at the same time PI and PS levels increase. NAEs mixture decreases PS and PI levels in cells and causes phosphatidylcholine (PC) amount increase. Moreover NSE and NAEs mixture decrease the content of main mitochondria membrane lipid - diphosphatidylglicerole (DPG). OEA increases DPG amount. In transformed fibroblasts (line L929) NAE modulate lipid composition as well: NSE decreases the level of phosphatidylethanolamine (PE), OEA and NAEs mixture increase sphingomyeline levels. It is shown that response of normal and transformed fibroblasts on NAE application is different, depending on substance structure and cell-target type.     

Effect of exogenous heparin on secretory status of rat mast cells under immobilization stress]

The significant increase of heparin release from mast cells was observed in rats under stress conditions induced by 60 min immobilization. The index of its saturation with heparin became 4 times lower. The highest secretory activity of mast cells was observed during the first 30 min of immobilization. It was shown that at that time the heparin release from mast cells occurred by granulolysis (merocrine type of secretion). In the rats received heparin (15 or 150 u/200 g) during the first 15 min of immobilization the mast cells released heparin with the same intensity as in a 4 control animals. But then in rats with high heparin blood concentration the heparin release from mast cells ceased and mast cells began to accumulate heparin from blood. By the 30th min of immobilization the heparin content in the mast cells has become normal.     

不同土壤水分状况对杨树、沙棘水分关系及生长的影响

在盆栽条件下对杨树、沙棘进行了3种土壤水分处理,研究结果表明：沙棘的叶含水率在同一土壤水分下比杨树高、而水势低,说明沙棘叶的抗旱保水能力强于杨树;沙棘单叶的光合速率能够长时间维持在较高的水平,蒸腾速率却并非如此。杨树无论在生长初期,还是生长中期其单叶WUE均高于沙棘。以新生枝生物量／耗水总量计算的整体WUE在3种土壤水分条件下,杨树的WUE分别是沙棘的2．4倍、2．3倍、2倍,其差异达极显著水平,但在3种土壤水分条件下2个树种都以中度亏缺下的水分利用率最高。整个生长季节处在严重干旱下的杨树和沙棘的生长均受到显著影响,沙棘生长受干旱影响程度小于杨树,从整个生长趋势上看杨树适宜于良好水分下的生长,沙棘在适宜水分和中度亏缺下均可良好生长。     

HSC70 protein of human blood mononuclears as a sign of adaptation under normobaric hypoxia training

We investigated two isoforms of heat shock protein 70 kDa: HSP70 and HSC70, in the human blood mononuclears under normobaric hypoxia training. It was shown that hypoxia regimen does not lead to manifestation of stress but exerts activation of the organism. The obtained organism adaptation is achieved with a little cost that is confirmed by absence of HSP70 content increase. HSC70 content in the blood mononuclears was increased in most case up to 1.5-2.0 fold. HSC70 displays itself as a sign of adaptation. We connect the increase of HSC70 with mitochondria biogenesis which is given a leading importance under adaptation of aerobic organism cells to hypoxia.     

Sources of proline-nitrogen in water-stressed soybean (Glycine max). II. Fate of 15N-labelled protein

The absorption of nitrate, protein metabolism and the source of nitrogen for proline synthesis were studied in soybean ( Glycine max L. cv. Akisengoku) with ¹⁵N tracer technique under water stress conditions. The absorption of nitrate was sensitive to water stress and the flow of nitrate into the leaves completely ceased under severe stress conditions. Net protein loss from the water-stressed leaves was attributable to both a decrease in synthetic activity and a stimulation of protein degradation. Proline and asparagine accumulated extensively in the severely water-stressed plant tissues, especially in the younger green leaves. Fifty four % of the loss of leaf protein-¹⁵N during the stress period was balanced by a gain in ¹⁵N in the free amino acids, 41% being found in proline and asparagine. The increase in ¹⁵N content of the free proline was 3 times greater than the decrease in ¹⁵N content of the protein-bound proline in the leaf. The results indicate that the accumulation of proline in response to water stress was caused by enhanced synthesis and that the nitrogen source for this proline is the leaf protein. The possible association of these findings with stress tolerance is discussed.     

Lead induced changes in the growth and antioxidant metabolism of the lead accumulating and non-accumulating ecotypes of Sedum alfredii

The phytotoxicity and antioxidative adaptations of lead （Pb） accumulating ecotype （AE） and non-accumulating ecotype （NAE） of Sedum alfredii Hance were investigated under different Pb treatments involving 0, 0.02 mmol/L Pb, 0.1 mmol/L Pb and 0.1 mmol/L Pb/0.1 mmol/L ethylenediaminetetraacetic acid （EDTA） for 6days. With the increasing Pb level, the Pb concentration in the shoots of AE plants enhanced accordingly, and EDTA supply helped 51% of Pb translocation to shoots of AE compared with those treated with 0.1 mmol/L Pb alone. Moreover, the presence of EDTA alleviated Pb phytotoxicity through changes in plant biomass, root morphology and chlorophyll contents. Lead toxicity induced hydrogen peroxide （H2O2） accumulation and lipid peroxidation in both ecotypes of S. alfredii. The activities of superoxide dismutase （SOD）, guaiacol peroxidase （G-POD）, ascorbate peroxidase, and dehydroascorbate reductase elevated in both leaves and roots of AE as well as in leaves of NAE with the increasing Pb levels, but SOD and G-POD declined in roots of NAE. Enhancement in glutathione reductase activity was only detected in roots of NAE while a depression in catalase activity was recorded in the leaves of NAE. A significant enhancement in glutathione and ascorbic acid （AsA） levels occurred in both ecotypes exposed to Pb and Pb/EDTA treatment compared with the control, however, the differences between these two treatments were insignificant. The dehydroascorbate （DHA） contents in roots of both ecotypes were 1.41 to 11.22-fold higher than those in leaves, whereas the ratios of AsA to DHA （1.38 to 6.84） in leaves altering more to the reduced AsA form were much higher than those in roots. These results suggested that antioxidative enzymes and antioxidants play an important role in counteracting Pb stress in S. alfredii.