Beata Olas

Generation of reactive oxygen species in blood platelets.

The generation of superoxide anion radicals (O . - 2 ) and the other reactive oxygen species (ROS) was estimated by means of cytochrome c reduction and chemiluminescence, as well in resting blood platelets and in platelets stimulated by thrombin in the presence or absence of some inhibitors of pathways involved in platelet activation. We used allopurinol (xanthine oxidase inhibitor), wortmannin (PI 3-kinase inhibitor) and staurosporine (protein kinase C inhibitor). To determine the involvement of the glutathione in ROS generation, we used L-buthionine sulfoximine (BSO) which blocks GSH synthesis. Our results confirmed that thrombin stimulates the production of ROS concomitant with metabolism of arachidonate and production of malonyldialdehyde (MDA) in blood platelets ( P < 0.05) and showed that, in the presence of inhibitors, the generation of ROS in platelets (resting and stimulated) was reduced. This indicates that xanthine oxidase, PI 3-kinase or protein kinase C take part in the formation of ROS in blood platelets. Moreover, adhesion of platelets to fibrinogen and secretion of adenine nucleotides from platelets after wortmannin and staurosporine action was also inhibited. BSO not only decreased GSH level, but also reduced the amount of ROS; a correlation between the depletion of GSH and the decrease of ROS was observed ( R = -0.987; P < 0.02). It is concluded that in blood platelets, ROS are produced in the receptor-mediated signaling pathways and platelet activation (arachidonic acid metabolism, the glutathione cycle, metabolism of phosphoinositoides and due to xanthine oxidase). Our results support the importance of ROS in platelet function.

Resveratrol, a phenolic antioxidant with effects on blood platelet functions

The main purpose of this article is to provide an overview of the currently available evidence of antiplatelet properties of resveratrol (3,4′,5-trihydroxystilbene). Resveratrol, a phenolic compound found naturally in fruits, nuts, flowers, seeds and bark of different plants is integral part of human diet. It exhibits a wide range of biological effects, including antiplatelet, anti-inflammatory, anticancer, antimutagenic and antifungal properties. It is also a potent antioxidant, reactive oxygen species scavenger and metal chelators. Resveratrol reduces lipid peroxidation, oxidation and nitration of platelet and plasma proteins. This review article describes the chemical structure of resveratrol, its biological activity, the effects on blood platelet functions and the mechanisms involved in its action on blood platelets, the cells which play an important role not only in the haemostatic process, but also in pathogenesis of cardiovascular diseases.

Oxidative stress in blood platelets from schizophrenic patients

Oxidative stress in blood platelets is observed in various diseases, including neuropsychiatric disorders. The aim of our study was to evaluate oxidative stress in blood platelets from patients with schizophrenic disorders by measuring the activity of the platelet antioxidative enzyme, superoxide dismutase (SOD), concomitant with the level of thiobarbituric acid reactive species (TBARS). In blood platelets obtained from schizophrenic patients (with paranoid schizophrenia according to DSM-IV criteria) and from healthy volunteers the level of reactive oxygen species was also measured via chemiluminescence. In resting blood platelets from schizophrenic patients the chemiluminescence was higher than in platelets from control subjects (P < 0.05), but in thrombin-activated platelets an increase (about 53%) of chemiluminescence was observed, however this increase was lower than in thrombin-stimulated platelets from healthy subjects (101.5%). The results indicate that in platelets from schizophrenic patients generation of reactive oxygen species is enhanced. Moreover, we observed that SOD activity in blood platelets from schizophrenic patients was significantly lower than in control platelets and that a correlation exists between increased lipid peroxidation and inhibition of the activity of this antioxidative enzyme in schizophrenic platelets.

Comparative anti-platelet and antioxidant properties of polyphenol-rich extracts from: berries of Aronia melanocarpa, seeds of grape and bark of Yucca schidigera in vitro

The aim of the present study was to investigate and compare the anti-platelet action of extracts from three different plants: bark of Yucca schidigera, seeds of grape and berries of Aronia melanocarpa (chokeberry). Anti-platelet action of tested extracts was compared with action of well characterized antioxidative and anti-platelet commercial monomeric polyphenol–resveratrol. The effects of extracts on platelet adhesion to collagen, collagen–induced platelet aggregation and on the production of in resting platelets and platelets stimulated by a strong platelet agonist–thrombin were studied. The in vitro experiments have shown that all three tested extracts (5–50 µg/ml) rich in polyphenols reduce platelet adhesion, aggregation and generation of in blood platelets. Comparative studies indicate that all three plant extracts were found to be more reactive in reduction of platelet processes than the solution of pure resveratrol. The tested extracts due to their anti-platelet effects may play an important role as components of human diet in prevention of cardiovascular or inflammatory diseases, where blood platelets are involved.

Oxidative/Nitrative Modifications of Plasma Proteins and Thiols from Patients with Schizophrenia

Objective: The level of various specific biomarkers of oxidative stress in plasma from schizophrenic patients, as well as biomarkers (the level of isoprostanes) in urine in schizophrenic patients was described. The aim of our present study was to evaluate biomarkers of oxidative stress by oxidative/nitrative modifications of plasma proteins (by measuring the level of carbonyl groups and 3-nitrotyrosine in proteins) from patients with schizophrenic disorders and from control group. We also investigated the level of low-molecular-weight thiols [glutathione (GSH), cysteine (CSH), cysteinylglycine (CGSH) and homocysteine] in plasma obtained from schizophrenic patients and from healthy volunteers. Patients hospitalized in the 1st and 2nd Psychiatric Department of the Medical University in Lodz, Poland were interviewed with a special questionnaire (treatment, course of diseases, dyskinesis and other extrapyramidal syndromes). According to DSM-IV criteria, all patients had a diagnosis of paranoid type. They were treated with antipsychotic drugs (clozapine, risperidone, olanzapine). The mean duration of schizophrenia was about 5 years. Methods: Levels of carbonyl groups and 3-nitrotyrosine residues in plasma proteins were measured by ELISA and a competition ELISA, respectively. High-performance liquid chromatography was used to analyze free thiols in plasma. Results: We observed a statistically increased level of biomarkers of oxidative/nitrative stress such as carbonyl groups or 3-nitrotyrosine in plasma proteins from schizophrenic patients. In schizophrenic patients the amount of homocysteine in plasma was higher compared with the control group; the level of GSH, CSH and CGSH was decreased. This indicates that reactive oxygen species and reactive nitrogen species may stimulate oxidative/nitrative modifications of plasma proteins in schizophrenic patients. Conclusion: Considering the data presented in this study, we suggest that the amount of carbonyl groups and 3-nitrotyrosine in plasma proteins may be important indicators of protein damage in vivo in schizophrenia.

Role of reactive nitrogen species in blood platelet functions.

Blood platelets, in analogy to other circulating blood cells, can generate reactive oxygen/nitrogen species (ROS/RNS) that may behave as second messengers and may regulate platelet functions. Accumulating evidence suggest a role of ROS/RNS in platelet activation. On the other hand, an increased production of ROS/RNS causes oxidative stress, and thus, may contribute to the development of different diseases, including vascular complications, inflammatory and psychiatric illnesses. Oxidative stress in platelets leads to chemical changes in a wide range of their components, and platelet proteins may be initial targets of ROS/RNS action. It has been demonstrated that reaction of proteins with ROS/RNS results in the oxidation and nitration of some amino acid residues, formation of aggregates or fragmentation of proteins. In oxidized proteins new carbonyl groups and protein hydroperoxides are also formed. In platelets, low molecular weight thiols such as glutathione (GSH), cysteine and cysteinylglycine and protein thiols may be also target for ROS/RNS action. This review describes the chemical structure and biological activities of reactive nitrogen species, mainly nitric oxide (•NO) and peroxynitrite (ONOO−) and their effects on blood platelet functions, and the mechanisms involved in their action on platelets.

Antioxidant activity of resveratrol in endotoxin-stimulated blood platelets.

Resveratrol (3,4′,5-trihydroxystilbene) is a natural molecule with antioxidant action. It is also considered to be a molecule with antiplatelet, anticancer and anti-inflammatory action. The effects of trans-resveratrol on the reactive oxygen species (ROS) generation and thiobarbituric acid-reactive substances (TBARS) in blood platelets induced by endotoxin (lipopolysaccharide, LPS) or thrombin were studiedin vitro. The production of superoxide radicals (O2.–) and other reactive oxygen species (H2O2, singlet oxygen, and organic radicals) in the presence of resveratrol was measured by a chemiluminescence method in resting blood platelets and platelets stimulated by LPS (0.3 μg/108 platelets) or thrombin (2.5 U/108 platelets). We have shown that resveratrol (6.25–100 μg/ml) inhibits chemiluminescence and generation of O2.– in blood platelets. It has an inhibitory effect on the production of ROS and TBARS in platelets caused by LPS or thrombin.

Isoprostenes as indicators of oxidative stress in schizophrenia

Objective. Free radicals induce oxidative stress and damage to all types of biological molecules and may be involved in pathology of schizophrenia. A cell membrane dysfunction caused by lipid peroxidation can be secondary to a free radical-mediated pathology and may contribute to specific aspects of schizophrenic symptomatology and complications of its treatment. Method. The aim of our study was to estimate oxidative stress in a group of schizophrenic patients by using different biomarkers of free radicals-induced lipid peroxidation (isoprostanes, thiobarbituric acid reactive substances (TBARS)). We also determined the products of enzymatic peroxidation of arachidonic acid, such as thromboxane B2 (TXB2) and its metabolite 11-dehydrothromboxane B2. Isoprostanes (IPs) are a family of novel prostaglandin isomers and are produced in free radical-catalysed reactions from arachidonic acid. They are useful as a specific, sensitive, chemically stable, noninvasive index of free radical generation in vivo. We therefore assessed in schizophrenic patients and control subjects the level of urinary excretion of isoprostane – 8-epi-prostaglandin F2α (8-isoPGF2α) – a marker of lipid peroxidation induced by free radicals using an immunoassay kit. We also studied the level of the other marker of enzymatic arachidonic acid peroxidation – 11-dehydrothromboxane B2 – in urine from schizophrenic patients and healthy volunteers. Moreover, we estimated the production of TBARS and TXB2 in plasma from schizophrenic patients and the control group. Patients hospitalised in the II Psychiatric Department of Medical University in Lodz, Poland, were interviewed with a special questionnaire (treatment, course of diseases, dyskinesis and other EPS). According to DSM-IV criteria, all patients had diagnosis of paranoid type. All patients were treated with second-generation antipsychotic drugs (risperidone, clozapine, and olanzapine). Mean time of schizophrenia duration was about 2 years. Results. We observed a statistically increased level of TBARS in plasma (P=0.000162) and isoprostanes (P=3.5×10−12) in urine of schizophrenic patients in comparison with the control group. The level of markers of enzymatic oxidation of arachidonic acid (TXB2 and its metabolite, 11-dehydrothromboxane B2) did not change. This indicates that free radicals induce peroxidation of unsaturated fatty acid in schizophrenic patients. Conclusion. Considering the data presented in this study, we suggest that non-invasive measurement of 8-isoPGF2α is a valuable and sensitive (contrary to TBARS) indicator of oxidative stress status in vivo in schizophrenia.

Hydrogen sulfide in signaling pathways.

For a long time hydrogen sulfide (H₂S) was considered a toxic compound, but recently H₂S (at low concentrations) has been found to play an important function in physiological processes. Hydrogen sulfide, like other well-known compounds - nitric oxide (NO) and carbon monoxide (CO) is a gaseous intracellular signal transducer. It regulates the cell cycle, apoptosis and the oxidative stress. Moreover, its functions include neuromodulation, regulation of cardiovascular system and inflammation. In this review, I focus on the metabolism of hydrogen sulfide (including enzymatic pathways of H₂S synthesis from l- and d-cysteine) and its signaling pathways in the cardiovascular system and the nervous system. I also describe how hydrogen sulfide may be used as therapeutic agent, i.e. in the cardiovascular diseases.

Modifications of blood platelet proteins of patients with schizophrenia.

Oxidative damage to lipids in plasma, blood platelets and neurons in patients with schizophrenia was described. The aim of our present study was to evaluate oxidative/nitrative modifications of blood platelets proteins by measurement the level of biomarkers of oxidative stress such as carbonyl groups, thiol groups and 3-nitrotyrosine in proteins in patients with schizophrenia and compare with a control group. Levels of carbonyl groups and 3-nitrotyrosine residues in platelet proteins were measured by ELISA and competition ELISA, respectively. The method with 5,5′-dithio-bis(2-nitro-benzoic acid) has been used to analyse thiol groups in platelet proteins. We demonstrated for the first time in platelet proteins from patients with schizophrenia a statistically significant increase of the level of biomarkers of oxidative/nitrative stress such as carbonyl groups or 3-nitrotyrosine; in schizophrenic patients the amount of thiol groups in platelet proteins was lower than in platelets from healthy subjects. Our results strongly indicate that in patients with schizophrenia reactive oxygen species and reactive nitrogen species induce not only peroxidation of lipids, but also may stimulate oxidative/nitrative modifications of platelet proteins. The consequence of these modifications may be the alteration of platelet protein structure and function.