Comparison of erythrocyte osmotic fragility among ectotherms and endotherms at three temperatures

1. Comparison of erythrocyte osmotic fragility (EOF) between various ectotherms and endotherms was investigated at 5, 25, and 38 degrees C. 2. We hypothesized that ectotherms might possess erythrocytes whose osmotic fragility would be less affected by temperature than those of endotherms. 3. Ectotherm erythrocytes were much more osmotically resistant than those of endotherms. 4. The EOF of ectotherms and endotherms showed similar responses to temperature. 5. It does not appear that the osmotic fragility of erythrocytes from ectotherms in this study are adapted to be less affected by temperature than those of endotherms. The highly osmotic resistant erythrocytes of ectotherms may alleviate the need for further adaptation for osmotic resistance.     

低强度激光对人红细胞生物物理特性的影响

研究不同功率的低强度He-Ne激光对正常人体红细胞流变学特性影响。以正常人体红细胞为研究对象,测量了低强度He-Ne激光在不同照射时间、不同功率条件下红细胞的变形、取向、膜流动性、膜的微粘度和渗透脆性的变化情况。结果表明:照射后红细胞的变形性和膜流动性增强、渗透脆性下降。照射对红细胞流变学特性影响显著,其中激光能量为0.24 J、照射血样为2 mL时取得的照射效果最佳。     

The erythrocyte membrane site for the effect of temperature on osmotic fragility

The osmotic fragility of human erythrocytes is well known to decrease as the temperature is elevated. The cellular site for the temperature effect was studied by assessing possibles roles of hemoglobin and of membrane lipids and by taking advantage of the unique response of camel erythrocytes to temperature. It is concluded that the erythrocyte membrane is the site for the temperature effect on osmotic fragility. The human erythrocyte is likely to rupture in protein-lipid boundary regions in the membrane, from which cholesterol is apparently excluded.     

Osmotic properties of bovine erythrocytes aged in vivo

The osmotic properties of bovine erythrocytes aged in vivo were studied by the modified microhematocrit method. The osmotic fragility of older red cells decreases due to their larger relative osmotically non-active volume. Relative critical cell volume of bovine erythrocytes does not alter significantly with cell age. The age dependent change in the osmotic fragility of human red blood cells, the reverse of that found for bovine erythrocytes, is due to a different alteration of the critical cell volume during intravascular erythrocyte aging.     

A computerized method for the determination of the osmotic fragility curve of erythrocytes

A computerized and precise method for the determination of the osmotic fragility curve of erythrocytes was developed. The pH and the temperature, the most important factors for the osmotic hemolysis, were controlled with an accuracy of 7.40 ± 0.01 and 25.0 ± 0.2°C, respectively. The method required an extremely minute amount of blood (about 5 μl). The fragility curve represented by the cumulative and first derivative curves as a function of salt concentration had excellent reproducibility for the mean corpuscular fragility and the slope of the fragility curve. The method was applied to erythrocytes treated with glutaraldehyde and to those with the various contents of cholesterol in the membrane.     

Carbamylation of proteins leads to alterations in the membrane structure of erythrocytes

The effect of the sodium cyanate-induced carbamylation (carbamoylation) of proteins in erythrocytes was studied using spin labelling and spectrophotometric methods. The experiments were conducted in whole blood and in erythrocytes in phosphate buffer using 25 mmol/L of sodium cyanate. Lipid membrane fluidity was determined using three spin-labelled fatty acids: 5-, 12- and 16-doxylstearic acids (5-DS, 12-DS, 16-DS). Internal viscosity was measured with Tempamine, using also EPR spectroscopy. Osmotic fragility was determined spectrophotometrically. Incubation of whole blood with sodium cyanate led to an increase in lipid membrane fluidity in the deeper region of the lipid layer, indicated by 12- and 16-doxylstearic acid, and a decrease near the surface (5-DS). Statistically significant results were obtained for the internal viscosity and osmotic fragility of erythrocytes. An increase in internal viscosity and increase in osmotic fragility were found in erythrocytes after incubation of whole blood, as well as in erythrocytes incubated with sodium cyanate in buffer. Alterations in internal viscosity were stronger in erythrocytes incubated with sodium cyanate in blood than in erythrocytes in the buffer. On the other hand, higher osmotic fragility was observed for erythrocytes in the buffer.     

Binding of ovarian steroids to erythrocytes in patients with sickle cell disease; effects on cell sickling and osmotic fragility

Ovarian steroids appear to influence the manifestations of sickle cell disease (SCD); oestrogens can adversely affect erythrocyte function, whereas progestogens may inhibit sickling and decrease the osmotic fragility of erythrocytes. The aims of the present studies were: (i) to characterise the binding of oestradiol and progesterone to erythrocytes from women with HbSS, HbSC and HbAA genotypes; (ii) to investigate whether steroids modulate susceptibility to sickling or osmotic fragility of HbSS and HbAA erythrocytes. Erythrocytes were incubated for 1h with [3H]-steroids at 4 and 37 degrees C. Binding of both oestradiol and progesterone was independent of temperature and steroid concentration, but was decreased by sequential "washing" of erythrocytes in fresh incubation buffer. Binding capacity was 80 +/- 6% greater for oestradiol (versus progesterone) in all three genotypes, and binding of both steroids was decreased by > or = 70% in HbSS erythrocytes compared to HbSC or HbAA erythrocytes. Pre-incubation of erythrocytes with 35 microM oestradiol or 30 microM progesterone had no significant effect on susceptibility of HbSS and HbAA erythrocytes to sickling, or on osmotic fragility. We conclude that both oestradiol and progesterone bind in a low affinity, non-saturable manner to erythrocytes with decreased binding in cells from women with HbSS. However, steroid binding does not affect susceptibility to sickling or osmotic fragility irrespective of haemoglobin genotype.     

Glutaraldehyde effect on the osmotic fragility and rate of haemolysis of human erythrocytes: a kinetic study

The effect of glutaraldehyde treatment on the osmotic fragility and rate of haemolysis of human erythrocytes was studied in the temperature domain 22-42 degrees C at different aldehyde concentrations from 0.010 to 0.040% (w/v). The osmotic fragility linearly decreases at increasing temperatures for all glutaraldehyde concentrations with approximately the same slope as for the untreated erythrocytes. Rather similar effects are produced on the rate of haemolysis. It was not possible to define unique activation energies. The maximal haemolysis becomes smaller after the treatment with increasing concentrations of glutaraldehyde but more erythrocytes are no longer able to tolerate normally non-haemolysing osmotic stretching, this suggesting an artificial "ageing" of erythrocytes. The formation of a membrane protein skeleton as a result of cross-linking is inferred, while the changes in the cytoskeletal spectrin network seem to be less important.     

Effects of temperature, oxygen and carbon dioxide on osmotic fragility of carp, Cyprinus carpio L., erythrocytes

The in vitro effects of gases and temperature on the osmotic fragility of carp erythrocytes were studied. At the three different temperatures analyzed (5, 11 and 20°C) there was no noticeable modification in erythrocyte membrane osmotic resistance. Osmotic fragility of red blood cells was altered by CO₂ and air treatment, as compared to the standard procedure. This suggests the need to take into account a possible moderate hypoxia that develops in the routine procedure of nucleated erythrocyte osmotic fragility tests.     

Some effects of the trypanocidal drug isometamidium on encapsulation in bovine carrier erythrocytes

Bovine erythrocyte exposure to isometamidium chloride causes increased osmotic fragility. Control cells tolerated up to 1 mg/ml drug with no effects. Carrier erythrocytes were highly susceptible to drug, with increased osmotic fragility and decreased encapsulation potential of sucrose and inulin. Scanning electron micrographs of control and carrier erythrocytes exposed to drug revealed the formation of enkephalocytes with carrier erythrocytes. Control erythrocytes showed greater tolerance to the drug. Apparently, access of the drug to the interior of the erythrocyte membrane allows the drug to be more interactive with the membrane.     

Enhanced sensitivity to calcium in Duchenne muscular dystrophy.

The ionophore A23187 causes an increase in the Ca content of human erythrocytes and a Ca-dependent increase in K efflux (Gardos effect). These changes are associated with a reduction in osmotic fragility and cell size. Treatment of erythrocytes from patients with Duchenne muscular dystrophy with A23187 results in ⁴⁵Ca uptake comparable to that of erythrocytes from control subjects. However, the reduction in osmotic fragility and K content observed in dystrophic erythrocytes is twofold greater than in control erythrocytes. These results indicate that an alteration in the regulation of erythrocyte membrane function by Ca occurs in Duchenne muscular dystrophy. This alteration may be responsible for other changes in erythrocyte membrane properties observed in Duchenne muscular dystrophy.     

Comparison of membrane structure,osmotic fragility,and morphology of multiple sclerosis and normal erythrocytes

Erythrocyte membranes from multiple sclerosis (MS) patients and normal individuals were studied by electron spin resonance spectroscopy, osmotic fragility tests, scanning electron microscopy (SEM) and fatty acid analysis of membrane lipids. There was no significant difference in the membrane fluidity between MS and normal erythrocytes using fatty acid spin labels with the nitroxide moiety on carbons 5, 12, or 16 from the carboxyl group. Linoleic acid, which has been reported to decrease the absolute electrophoretic mobility of only MS erythrocytes, increased the fluidity of MS and normal erythrocyte membranes to a similar extent. The osmotic fragility of MS erythrocytes obtained from outpatients was similar to normal control cells but the osmotic fragility of erythrocytes obtained from hospitalized MS patients was greater than normal. Scanning electron microscopy of MS erythrocytes revealed no gross abnormalities. Cells incubated with linoleic acid had transformed from discocytes into sphero-echinocytes with prominent membrane surface indentations but MS and normal erythrocytes appeared identical. Of the fatty acid content of the total lipid extract, erythrocytes from most, but not all, MS hospitalized patients and some patients with other demyelinating diseases had relatively less (P<.001) 18:2 than the normal cells. These results indicate that at least some of the abnormalities reported in MS erythrocytes may only be found in hospitalized patients and may be due to other complications of the disease. They also indicate that the reported abnormal effects of linoleic acid on the electrophoretic mobility of MS erythrocytes may be caused by some other mechanism than an effect on the fluidity of the bilayer.     

Erythrocyte osmotic fragility and cation concentrations during experimentally induced bovine anaplasmosis

1. The osmotic fragility, the concentrations of Na, K and Ca, the osmolality and the total ATPase activity of bovine erythrocytes from uninfected and Anaplasma marginale-infected bovines were studied in an attempt to correlate these parameters with the decrease in the cellular ATP concentration reported during bovine anaplasmosis. 2. The osmotic fragility found in infected bovine erythrocytes, at 0.52% NaCl, was about two times greater than that observed in non-infected bovines. The increase in osmotic fragility was directly related to the increase in intra-erythrocytic parasitemia. 3. The decrease in ATP concentration reported during bovine anaplasmosis could not be directly related to the increased fragility of these cells. The artificial depletion of erythrocytic ATP did not reproduce the same alteration in the osmotic response to NaCl. 4. The plasmatic and cytoplasmatic concentrations of Na, K and CA did not change significantly during bovine anaplasmosis, whereas the interior of the erythrocytes became hyperosmolal. 5. A. marginale-infected bovine erythrocyte membranes showed an increased ATPase activity when compared to control bovines. Parasite-enriched fractions also presented ATPase activity.     

Seasonal changes in erythrocyte osmotic fragility and haematocrit in American plaice infected with Haemohormidium terranovae

American plaice held in captivity for a period of 8 months over winter exhibited increasing erythrocyte osmotic fragility and decreasing haematocrit values until December. In December, osmotic fragility parameters and haematocrit were strongly correlated, suggesting anaemia due to disruption of circulating erythrocytes. Intensity of infection with Haemohormidium terranovae increased through the winter months until March but was not correlated either with osmotic fragility or haematocrit. These results are explained in terms of compensatory haemopoetic changes occurring in plaice. Mortality was apparently unrelated to any of the parameters investigated.     

The effect of the saturation and isomerization of dietary fatty acids on the osmotic fragility and water diffusional permeability of rat erythrocytes

Weanling rats were fed semi-purified diets containing 15% by weight of either corn oil, a high oleic acid safflower oil, lard or hydrogenated soybean oil. Significant changes in the fatty acid composition of erythrocytes were induced by these dietary fats. The compositional changes did not effect water diffusional permeability, but did affect their osmotic fragility. An increased fragility appeared to be associated with an increased octadecenoate content of the membranes.     

Increase in osmotic fragility of bovine erythrocytes induced by bacterial phospholipases C

Bovine erythrocytes were treated with each of three bacterial phospholipases C; phosphatidylcholine-hydrolyzing phospholipase C (PCase) of Clostridium perfringens, sphingomyelinase C (SMase) of Bacillus cereus and phosphatidylinositol-specific phospholipase C (PIase) of Bacillus thuringiensis. An increase in osmotic fragility was detected by means of a coil planet centrifugation (CPC) apparatus (Biomedical Systems Co., Tokyo) after the treatment with these enzymes. The peak of hemolysis normally observed in the untreated erythrocytes at the range between 50 and 100 mOsM shifted to 160 to 200 mOsM with the progress of sphingomyelin hydrolysis by phospholipase C of C. perfringens. Sphingomyelinase C of B. cereus showed two different effects on bovine erythrocytes: In the absence of divalent cations or in the presence of Ca2+ alone, the peak of hemolysis shifted to the region from 130 to 160 mOsM, without appreciable hydrolysis of sphingomyelin, while in the presence of Mg2+ or Mg2+ plus Ca2+, the peak of hemolysis further shifted to the region from 160 to 200 mOsM with the hydrolysis of sphingomyelin. Abrupt shift in osmotic fragility to a much higher region around 250 mOsM was produced by treatment with increasing amounts of phosphatidylinositol-specific phospholipase C. In this case, a significant amount of acetylcholinesterase was released from the erythrocyte membrane without hot or hot-cold hemolysis. The mechanism of alteration of osmotic fragility of bovine erythrocytes by treatment with phospholipases C seems to differ from case to case, depending upon the specific action of each enzyme toward the membrane phospholipids.     

Protective effect of capsaicin on the osmotic fragility of human erythrocytes

Capsaicin exerts a stabilizing effect on erythrocytes making them more resistant to lysis under hypotonic stress. The protective action of capsaicin on osmotic fragility (OF) was not receptor mediated since no dose responsive effect was observed. The results suggest that this protective effect of capsaicin on OF is due to a direct interaction of capsaicin with the erythrocyte membrane rather than due to any alteration in the intracellular metabolism of erythrocytes.     

Effects of Proteus mirabilis lipopolysaccharides with different O-polysaccharide structures on the plasma membrane of human erythrocytes

The effects of O33 and O49 P. mirabilis lipopolysaccharides (LPSs) on human erythrocyte membrane properties were examined. Physical parameters of the plasma membrane, such as membrane lipid fluidity, physical state of membrane proteins, and osmotic fragility, were determined. The fluidity of the lipids was estimated using three spin-labeled stearic acids of doxyl derivatives: 5-doxylstearic acid, 12-doxylstearic acid, and 16-doxylstearic acid. All the applied labels locate to different depths of the lipid layer and provide information on the ordering of phospholipid fatty acyl chain mobility. LPSs O49 increased the membrane lipid fluidity in the polar region of the lipid bilayer as indicated by spin-labeled 5-doxylstearic acid. An increase in fluidity was also observed in the deeper region using 12-doxylstearic acid only for O33 LPSs. The highest concentration of O33 LPSs (1 mg/ml) increased the motion of membrane proteins detected by the spin-label residue of iodoacetamide. These results showed different actions of O33 and O49 LPSs on the plasma membrane due to the different chemical structures of O-polysaccharides. P. mirabilis O33 and O49 LPSs did not induce changes in the membrane cytoskeleton, osmotic fragility and lipid peroxidation of erythrocytes. On the other hand a rise in the content of carbonyl compounds was observed for the highest concentrations of O33 LPS. This result indicated protein oxidation in the erythrocyte membrane. Lipid A, the hydrophobic part of LPS, did not change the membrane lipid fluidity and osmotic fragility of erythrocytes. Smooth and rough forms of P. mirabilis LPSs were tested for their abilities for complement-mediated immunohemolysis of erythrocytes. Only one out of seven LPSs used was a potent agent of complement-mediated hemolysis. It was rough, Ra-type of P. mirabilis R110 LPS. The O-polysaccharide-dependent scheme of reaction is presented.     

小鼠网织红细胞微观流变学特性的研究

按Bishop方法,在小鼠血液里诱导生成大量网织红细胞,然后提取网织红细胞,对其电泳率、渗透脆性、膜的流动性、细胞的变形能力和取向性进行了系统研究。研究结果表明网织红细胞在转变为成熟红细胞的短短时间内,其微观流变学特性发生了明显的变化：电泳率变小、渗透脆性变好、膜的流动性变大、细胞的变形能力变强、取向性变好,最终发育成具有全面功能的成熟红细胞。     

The use of ELISA to monitor amplified hemolysis by the combined action of osmotic stress and radiation: potential applications

A new assay has been developed to study the osmotic fragility of red blood cells (RBCs) and the involvement of oxygen-derived free radicals and other oxidant species in causing human red blood cell hemolysis. The amount of hemoglobin released into the supernatant, which is a measure of human red blood cell hemolysis, is monitored using an ELISA reader. This ELISA-based osmotic fragility test compared well with the established osmotic fragility test, with the added advantage of significantly reduced time and the requirement of only 60 mul of blood. This small amount of blood was collected fresh by finger puncture and was immediately diluted 50 times with PBS, thus eliminating the use of anticoagulants and the subsequent washings. Since exposure of RBCs to 400 Gy gamma radiation caused less than 5% hemolysis 24 h after irradiation, the RBC hemolysis induced by gamma radiation was amplified by irradiating the cell in hypotonic saline. The method was validated by examining the protective effect of Trolox, an analog of vitamin E and reduced glutathione (GSH), a well-known radioprotector, against human RBC hemolysis caused by the combined action of radiation and osmotic stress. Trolox, a known membrane stabilizer and an antioxidant, and GSH offered significant protection. This new method, which is simple and requires significantly less time and fewer RBCs, may offer the ability to study the effects of antioxidants and membrane stabilizers on human red blood cell hemolysis induced by radiation and oxidative stress and assess the osmotic fragility of erythrocytes.