Krzysztof Gwozdzinski

Investigation of albumin properties in patients with chronic renal failure

The aim of this study was the investigation of HSA properties and its structural changes after modification induced in vivo among patients with CRF who underwent haemodialysis. Application of different fluorescent dyes allowed the investigation of different regions of albumin molecule using ANS, bis-ANS, piren, piren maleimide and fluorescein isothiocyanate. As markers of oxidative modification, the total protein thiol, carbonyls, glycosylated plasma proteins and hydroperoxide were estimated in plasma. Additionally, this study investigated plasma viscosity and total antioxidant capacity (TAC) of the plasma. Results show that haemodialysis provoked significant changes in conformational properties of plasma albumin, which resulted in the loss of its biological functions. These findings suggest that oxidative stress and glycation of proteins in plasma are developed during haemodialysis. The results depict that one of the features of uraemia is the presence of signs of oxidative stress before haemodialysis. Nevertheless, oxidative stress and glycation of proteins in plasma are exacerbated during haemodialysis and are a complex process.

Changes in plasma membrane fluidity of immortal rodent cells induced by anticancer drugs doxorubicin, aclarubicin and mitoxantrone.

The aim of this study was to examine the effect of three structurally different anticancer drugs—the pro‐oxidative anthracyclines doxorubicin (DOX) and aclarubicin (ACL), and antioxidative anthraquinone mitoxantrone (MTX) on the fluidity of plasma membrane of immortalized rodent fibroblasts using fluorescence spectroscopy and electron spin resonance (ESR) techniques. Two kinds of fluorescent probes (TMA‐DPH and 12‐AS) and spin labels (5‐DS and methyl‐12‐DS) were used to monitor fluidity in the hydrophobic core and in the polar headgroup region of the lipid bilayer. Immortalized hamster B14 and NIH 3T3 mouse fibroblasts were exposed to DOX, ACL and MTX. We demonstrate that these drugs influence predominantly the hydrophobic core of the lipid bilayer, inducing significant decrease in its fluidity at low concentrations (2–5μm). A decreased membrane fluidity at the surface of the lipid bilayer was observed only at a higher concentration (20μm) of the drugs, which indicates that DOX, ACL and MTX intercalate mainly into the hydrophobic core of the membrane, thereby perturbing its structure.

Structure-activity relationship studies of protective function of nitroxides in Fenton system

The aim of this study was to evaluate the effect of piperidine nitroxides and their amine precursors on deoxyribose oxidation in the Fenton system. Protecting activity of nitroxides was found to be concentration-dependent and strongly influenced by ring substituents, while secondary amines did not provide any protection. The reported results suggest a mechanism of nitroxide action through iron oxidation rather than through direct scavenging of hydroxyl radicals. Moreover, presented data point to the danger of interference of nitroxides during the TBARS assay procedure.

Alterations of erythrocyte structure and cellular susceptibility in patients with chronic renal failure: Effect of haemodialysis and oxidative stress

The aim of this study was to investigate erythrocytes rheological behaviour, membrane dynamics and erythrocytes susceptibility to disintegration upon strong oxidative stress induced by dialysis or by external H2O2 among patients with CRF. EPR spectrometry was used to investigate alterations in physical state of cellular components. Generated ROS production induced: (1) significant increase of membrane fluidity in CRF erythrocytes treated with H2O2 (p<0.005) and at 60 min of haemodialysis (p<0.05), (2) significant decrease of cytoskeletal protein–protein interactions (p<0.005) and (3) cellular osmotic fragility (p<0.0005). H2O2 exacerbated these changes. Erythrocytes from CRF patients have changed rheological behaviour and present higher susceptibility to disintegration. Erythrocytes membrane characteristics indicate that CRF patients possess younger and more flexible cells, which are more susceptible to oxidative stress. This may contribute to the shortened survival of young erythrocytes in CRF patients.

Structural changes of proteins in fish red blood cells after copper and mercury treatment

Exposure of fish red blood cells to increased concentrations (0.05–0.3 mmol/L) of copper and mercury ions may initiate structural changes in cells as detected by spin labeling method. Both heavy metals decreased membrane fluidity as indicated by methyl 5-doxylpalmitate and methyl 12-doxylstearate spectra. Furthermore, copper and mercury have been found to induce conformational alterations of internal peptides and proteins as determined by using 4-maleimido-2,2,6,6-tetramethylpiperidine-1-oxyl. Both heavy metal ions changed the internal viscosity of red blood cells. These results suggest that the possible cause of the damage of cells may be metal-protein interactions in the cells, but may exclude the oxidative mechanism of such damage.

Blood platelet membrane fluidity and the exposition of membrane protein receptors in Alzheimer disease (AD) patients--preliminary Study.

We estimated membrane fluidity by the (ESR) spectroscopy and the expression of membrane P-selectin and glycoproteins GP Ib&agr; and GP IIb/IIIa by flow cytometry in platelets (plts) from 12 AD sufferers. In AD patients membrane fluidity was significantly increased at two different depths (p < 0.05 or less). Platelet reactivity was significantly decreased, as reflected by reduced expression of GP Ib&agr; in the resting (p < 0.0001) and activated (p < 0.005) platelets, as well as the expression of P-selectin and &bgr;3 subunit of GP IIb/IIIa in activated platelets (p < 0.0001;p < 0.04).

Alterations in Red Blood Cells and Plasma Properties after Acute Single Bout of Exercise

The aim of this study was to investigate alterations in haemoglobin conformation and parameters related to oxidative stress in whole erythrocytes, membranes, and plasma after a single bout of exercise in a group of young untrained men. Venous blood samples from eleven healthy young untrained males (age = 22 ± 2 years, BMI = 23 ± 2.5 kg/m2) were taken from the antecubital vein before an incremental cycling exercise test, immediately after exercise, and 1 hour after exercise. Individual heart rate response to this exercise was 195 ± 12 beats/min and the maximum wattage was 292 ± 27 W. Immediately after exercise, significant increase in standard parameters (haemoglobin, haematocrit, lactate levels, and plasma volume) of blood was observed as well as plasma antioxidant capacity one hour after exercise. Reversible conformational changes in haemoglobin, measured using a maleimide spin label, were found immediately following exercise. The concentration of ascorbic acid inside erythrocytes significantly decreased after exercise. A significant decline in membrane thiols was observed one hour after exercise, but simultaneously an increase in plasma thiols immediately after and 1 h after exercise was also observed. This study shows that a single bout of exercise can lead to mobilization of defensive antioxidant systems in blood against oxidative stress in young untrained men.

Nitric oxide induced oxidative changes in erythrocyte membrane components.

The effects of NO in its environment may vary considerably depending on various factors. This study shows oxidative mechanism of cellular membrane alterations, which is not associated with triggering of ONOOH generation but is induced by pure NO. Our investigation examined the influence of low concentration of NO (0.1; 0.2 mmol/l) on the qualitative changes of structure and dynamics of erythrocyte membrane. NO causes a statistically significant increase in membrane fluidity on different depths of lipid bilayer that is correlated with increase of lipids peroxidation. Statistically significant changes in the conformational state of cytoskeleton proteins were also detected. NO can be considered as a molecule responsible for determining rheological properties of erythrocytes membrane. Therefore, we propose that NO acts as pro‐oxidant molecule at concentrations for which membrane appeared to be the first target before it entered the cytosol.

Alterations in human red blood cell membrane properties induced by the lipopolysaccharide from Proteus mirabilis S1959

The effect of lipopolysaccharide (LPS, endotoxin), isolated from Proteus mirabilis S1959 strain, on red blood cell (RBC) membranes in whole cells as well as on isolated membranes was studied. Lipid membrane fluidity, conformational state of membrane proteins and the osmotic fragility of RBCs were examined using electron paramagnetic resonance spectroscopy and spectrophotometric method. Lipid membrane fluidity was determined using three spin-labeled fatty acids: 5-, 12- and 16-doxylstearic acid (5-, 12- and 16-DS). The addition of LPS S1959 to RBC suspension resulted in an increase in membrane fluidity, as indicated by 12-DS. At the concentrations of 0.5 and 1 mg/ml, LPS treatment led to a significant (P<0.05) increase in lipid membrane fluidity in the deeper region of lipid bilayer (determined by 12-DS). The conformational changes in membrane proteins were determined using two covalently bound spin labels, 4-maleimido-2,2,6,6-tetramethylpiperidine-1-oxyl and 4-iodoacetamido-2,2,6,6-tetramethylpiperidine-1-oxyl (ISL). The highest concentration of endotoxin significantly (P<0.05) decreased the relative rotational correlation time of ISL and significantly (P<0.05) increased the osmotic fragility of RBCs. The effect of endotoxin was much more profound in isolated membranes than in intact cells treated with LPS. At the concentrations 0.5 and 1 mg/ml, LPS led to a significant increase in h(w)/h(s) ratio. These results indicated increased membrane protein mobility, mainly in the spectrin-actin complex in membrane cytoskeleton. These data suggest that LPS-induced alterations in membrane lipids and cytoskeleton proteins of RBCs lead to loss of membrane integrity.

Investigation of oxidative stress parameters in different lifespan erythrocyte fractions in young untrained men after acute exercise

What is the central question of this study? What is the influence of a single bout of exercise on the properties of erythrocyte fractions at different ages? What is the main finding and its importance? A single bout of exercise in untrained men induced oxidative stress in erythrocytes and had an influence on antioxidant defense in these cells. Old erythrocytes were more sensitive to oxidative damage than young and middle‐aged cells. Higher levels of glutathione in old erythrocyte fractions did not protect them against oxidative stress. It seems that exercise may promote the removal of old erythrocytes from the circulation.