Effect of pH on the velocity of erythrocyte aggregation

The effect of pH on the velocity of aggregation of human erythrocytes was quantitatively examined with a rheoscope combined with a video-camera, an image analyzer and a computer, in relation to the morphological changes of erythrocytes and their aggregates. (i) With increasing pH of the medium, the velocity of erythrocyte aggregation increased. (ii) The rouleaux formed at high pH were longer in shape and more stable against the increase of shear rate than those formed at low pH. (iii) With increasing pH, the diameter of erythrocyte increased, the (maximum) thickness decreased, and the cell volume decreased. The pH dependency of erythrocyte aggregation may be mainly due to the morphological change of erythrocytes, and partly due to the changes of erythrocyte deformability and of interaction with macromolecules.     

大强度训练及恢复后大鼠红细胞变形能力和红细胞膜蛋白的变化

目的 :探讨运动对红细胞变形性和红细胞膜蛋白的影响及其相互关系。方法 :设计不同强度的训练方案 ,用激光衍射法测定红细胞变形能力 ,用SDS PAGE方法测定一定体积大鼠红细胞膜中的重要蛋白带 3蛋白 (band 3)和肌动蛋白 (actin)的含量 ,研究运动即刻和恢复后红细胞变形性及膜蛋白的变化。结果 :长期的运动训练会促进大鼠红细胞变形能力的改善和红细胞膜band 3蛋白和actin的良好发展 ,一次大强度训练会引起红细胞膜band 3蛋白和actin含量的减少 ,大鼠红细胞变形能力降低 ,一周和二周的大强度训练会提高恢复期大鼠红细胞的变形能力和红细胞膜band 3蛋白和actin含量。结论 :运动训练造成的红细胞膜蛋白含量的变化 ,导致了红细胞膜结构的改变 ,从而影响红细胞变形能力 ,可能是训练对红细胞变形能力的作用机制之一。     

The effect of copper on erythrocyte deformability. A possible mechanism of hemolysis in acute copper intoxication

Although the development of hemolytic anemia as a complication of acute copper intoxication is well documented, the precise mechanism by which copper produces accelerated erythrocyte destruction is unknown. Normal erythrocyte survival depends in part on the ability of the cell to deform and pass through narrow areas of microcirculation in the liver and especially in the spleen. In the present study, it is demonstrated that toxic concentrations of copper rapidly and markedly reduce erythrocyte deformability. This reduction in cell deformability is associated with a marked increase in membrane permeability and osmotic fragility of copper-treated cells. Further, the decrease in deformability occurs despite normal levels of cell ATP and the apparent absence of oxidative damage to the cell. These observations indicate that copper-mediated changes in the erythrocyte membrane may be responsible for reducing the flexibility of the cell. The loss of deformability could act to reduce erythrocyte survival and thus explain the hemolysis associated with copper intoxication in vivo.     

Assessment of erythrocyte deformability with the laser-assisted optical rotational cell analyzer (LORCA)

The erythrocyte deformability of 28 patients with anemia was evaluated with the laser-assisted optical rotational cell analyzer (LORCA), an image analyzer that converts into numerical form the degree of refraction of a laser beam induced by red cells subjected to a range of torsional stresses. The patients were 10 thalassemics, including three with intermediate forms (1 HbC/beta degree, 1 homozygote beta for Orkin's haplotype VI, 1 beta degree/beta delta Sicilian type) and seven heteroygotes for beta Th; six with hereditary spherocytosis (including 2 with structural alteration of the spectrin beta chain); three with type II congenital dyserythropoietic anemia (HEMPAS), two hemizygotes and one heterozygote for G-6PD deficiency, and six with severe hypochromic hyposideremic anemia. Red cell deformability was reduced in intermediate thalassemia, hereditary spherocytosis and HEMPAS, normal in heterozygous beta thalassemia and G-6PD deficiency, and increased in hypochromic hyposideremic anemia. These results show that erythrocyte deformability can be impaired by an Hb chain imbalance, membrane and cyto skeleton structure anomalies and changes in the red cell area/volume ratio.     

Changes of physiological and biochemical characteristics of rat erythrocytes after blood loss

In experiments of Wistar male rats, changes are studied of erythrocyte hematological, biochemical (activitities of transport ATPases), and rheological properties (capability for aggregation and deformability) 7 days after bloodletting of 12-15 % of the total blood mass. It has been shown that alongside with an elevation of erythrocyte volume and of the number of immature cells - reticulocytes, there was a statistically significant increase of Na,K-ATPase and Ca-ATPase activities in the whole erythrocytes and their membrane preparations - ghosts, the increment of activity in the case of Na,K-ATPase being essentially higher in the whole cells. This indicates the appearance of an enzyme activator inside the erythrocytes. There are also revealed a decrease of firmness of erythrocyte aggregates, a deceleration of spontaneous aggregation, and an increase of index of erythrocyte deformability. The conclusion is made that changes of erythrocyte rheological properties are interconnected with changes of the Na,K-ATPase activity and are directed to optimization of blood circulation in large vessels and capillary network.     

Changes of physiological and biochemical characteristics of rat erythrocytes after blood loss

In experiments on Wistar male rats, changes are studied of erythrocyte hematological, biochemical (activities of transport ATPases), and rheological properties (capability for aggregation and deformability) 7 days after bloodletting of 12–15% of the total blood mass. It has been shown that alongside with an elevation of erythrocyte volume and of the number of immature cells—reticulocytes, there was a statistically significant increase of Na,K-ATPase and Ca-ATPase activities in the whole erythrocytes and in their membrane preparations—ghosts, the increment of activity in the case of Na,K-ATPase being essentially higher in the whole cells. This indicates the appearance of an enzyme activator inside the erythrocytes. There are also revealed a decrease of firmness of erythrocyte aggregates, a deceleration of spontaneous aggregation, and an increase of index of erythrocyte deformability. The conclusion is made that changes of erythrocyte rheological properties are interconnected with changes of the Na,K-ATPase activity and are aimed at optimization of blood circulation in large vessels and capillary network.     

Shape and volume changes in erythrocyte ghosts and spectrin-actin networks

In response to changes in electrolyte concentration and pH, erythrocyte ghosts can exhibit some of the characteristic shapes seen in the intact erythrocyte. These shape changes are accompanied by volume changes; both are reversible, not energy dependent, and not inhibited by sulfhydryl reagents. The volume reduction can also be seen in isolated Triton-free spectrin-actin lattices, showing that this network is capable of reversible contraction. The results suggest that reversible changes in size of the underlying cytoskeleton of the erythrocyte membrane can control cell shape.     

肠淋巴液引流对失血性休克大鼠红细胞流变性的影响

目的:观察肠淋巴液引流对失血性休克大鼠红细胞流变性指标以及血液黏度的作用。方法:Wistar雄性大鼠均分为假休克组、休克组(复制失血性休克模型)、引流组(复制失血性休克模型,自低血压1 h引流休克肠淋巴液)。在低血压3 h或相应时间,经腹主动脉取血,检测红细胞参数、红细胞电泳、红细胞沉降率(ESR)以及血液黏度,计算红细胞聚集指数、红细胞变形指数。结果:与假休克组比较,休克组红细胞数量、红细胞比积(HCT)、血红蛋白(Hb)、平均红细胞血红蛋白浓度(MCHC)、红细胞电泳率与迁移率、红细胞变形指数、全血黏度、全血低切与高切相对黏度和还原黏度显著降低,休克组平均红细胞体积、红细胞电泳时间、ESR、血沉方程K值与校正K值、红细胞聚集性指数、血浆黏度显著升高;引流组MCHC、红细胞电泳率与迁移率、全血黏度、全血低切与高切还原黏度均显著降低,引流组红细胞体积分布宽度(RDW-SD)显著增加。同时,引流组HCT、RDW-SD、红细胞变形指数、全血黏度、全血低切与高切相对黏度显著高于休克组;ESR、血沉方程K值与校正K值、红细胞聚集性指数、血浆黏度显著低于休克组。结论:休克肠淋巴液引流可改善失血性休克大鼠红细胞流变行为,从而改善血液流变性。     

Hypoxic exercise training causes erythrocyte senescence and rheological dysfunction by depressed Gardos channel activity

Despite enhancing cardiopulmonary and muscular fitness, the effect of hypoxic exercise training (HE) on hemorheological regulation remains unclear. This study investigates how HE modulates erythrocyte rheological properties and further explores the underlying mechanisms in the hemorheological alterations. Twenty-four sedentary males were randomly divided into hypoxic (HE; n = 12) and normoxic (NE; n = 12) exercise training groups. The subjects were trained on 60% of maximum work rate under 15% (HE) or 21% (NE) O(2) condition for 30 min daily, 5 days weekly for 5 wk. The results demonstrated that HE 1) downregulated CD47 and CD147 expressions on erythrocytes, 2) decreased actin and spectrin contents in erythrocytes, 3) reduced erythrocyte deformability under shear flow, and 4) diminished erythrocyte volume changed by hypotonic stress. Treatment of erythrocytes with H(2)O(2) that mimicked in vivo prooxidative status resulted in the cell shrinkage, rigidity, and phosphatidylserine exposure, whereas HE enhanced the eryptotic responses to H(2)O(2). However, HE decreased the degrees of clotrimazole to blunt ionomycin-induced shrinkage, rigidity, and cytoskeleton breakdown of erythrocytes, referred to as Gardos effects. Reduced erythrocyte deformability by H(2)O(2) was inversely related to the erythrocyte Gardos effect on the rheological function. Conversely, NE intervention did not significantly change resting and exercise erythrocyte rheological properties. Therefore, we conclude that HE rather than NE reduces erythrocyte deformability and volume regulation, accompanied by an increase in the eryptotic response to oxidative stress. Simultaneously, this intervention depresses Gardos channel-modulated erythrocyte rheological functions. Results of this study provide further insight into erythrocyte senescence induced by HE.     

Relationship between Electrolyte Balance and Hemorheological Characteristics in Athletes

The relationships between some parameters of electrolyte balance and blood rheological characteristics are studied in healthy young subjects and athletes. In the total group of subjects (n = 41), the viscosity of whole blood is positively correlated with the sodium ion concentration and negatively correlated with the inorganic phosphorus concentration. The blood concentration of inorganic phosphorus is increased in the athletes and is positively correlated with deformability of erythrocytes and negatively with their aggregability. The serum concentration of potassium ions is related, via its relationship with MCV, to erythrocyte deformability. In the athletes (n = 27), the erythrocyte deformability is decreased and the blood concentrations of iron and magnesium are increased. It is conceivable that the state of electrolyte balance in healthy young humans is related to their blood rheology.     

Effects of calcium and A23187 on deformability and volume of human red blood cells

Human red blood cells treated in vitro with Ca2+ plus A23187 in low K+ medium exhibited significantly decreased cell volume and deformability, the latter determined by ektacytometry. These effects of Ca2+ plus A23187 were prevented in the presence of high K+ medium. Increased K+ permeability mediated by increased intracellular Ca2+ (Gardos effect) was apparently responsible for decreased cell volume and deformability in low K+ medium. Although it is commonly accepted that Ca2+ accumulation and/or ATP depletion per se cause decreased red blood cell deformability, the present results demonstrate that acutely induced changes in red blood cell volume as promoted by Ca2+ are a more important determinant of red blood cell deformability.     

Haematological, blood gas and acid-base effects of central histamine-induced reversal of critical haemorrhagic hypotension in rats.

In a rat model of volume-controlled irreversible haemorrhagic shock, which results in a severe metabolic acidosis and the death of all control animals within 30 min., intracerebroventricular injection of histamine (100 nmol) produces a prompt and long-lasting increase in mean arterial pressure and heart rate, with a 100% survival of 2 h after treatment. Histamine action is accompanied by a decrease in haematocrit value, haemoglobin concentration, erythrocyte and platelet count, and an increase in residual blood volume at the end of the experiment (2 h). Cardiovascular effects are also associated with a long-lasting rise in respiratory rate and biphasic blood acid-base changes - initial increase of metabolic acidosis with the decrease in arterial and venous pH, bicarbonate concentration and base excess, followed by almost a complete recovery of blood gas and acid-base parameters to the pre-bleeding values, with normalisation of arterial and venous pH, Pco2 bicarbonate concentration and base excess at the end of experiment. It can be concluded that in the late phase of central histamine-induced reversal of haemorrhagic hypotension there is almost a complete restoration of blood gas and acid-base status due to circulatory and respiratory compensations, while accompanying haematological changes are the result of the haemodilution and the increase in residual blood volume.     

The mutual effect of hydrogen ion concentration and osmotic pressure on the shape of the human erythrocyte as determined by light scattering and by electronic cell volume measurement

The measurement of the fluctuations of the scattered light were the source of information on the flatness of erythrocytes. Data on cell volume, together with the measure of scattered light fluctuations, defined the cell shape. The measurements were repeated in a wide range of osmotic pressures and pH values in order to affect both the hemoglobin and cytoskeleton. Major volume changes were detected at low osmotic pressures and pH. The erythrocyte volume was determined by electronic volume measurement. The cell flatness is maximal at physiological conditions.     

慢性常压缺氧和缺氧伴CO_2潴留大鼠红细胞变形能力与能量代谢的研究

本工作研究了慢性常压缺氧和缺氧伴ＣＯ＿２潴留肺动脉高压大鼠红细胞变形能力和红细胞内ＡＴＰ含量的变化。结果表明,慢性常压缺氧和缺氧伴ＣＯ＿２潴留大鼠不同切应力下的红细胞变形指数和红细胞内ＡＴＰ含量均明显低于其对照组,且该两组红细胞内ＡＴＰ含量与不同切应力下的红细胞变形指数呈显著正相关。提示慢性缺氧和伴ＣＯ＿２潴留大鼠红细胞内ＡＴＰ含量降低可能是导致红细胞变形能力降低的诸因素之一,后者又可导致和加重肺动脉高压的形成。     

Metabolic determinants of the onset of acidosis in exercising human muscle: a 31P-MRS study.

Onset of intracellular acidosis during muscular exercise has been generally attributed to activation or hyperactivation of nonoxidative ATP production but has not been analyzed quantitatively in terms of H(+) balance, i.e., production and removal mechanisms. To address this issue, we have analyzed the relation of intracellular acidosis to H(+) balance during exercise bouts in seven healthy subjects. Each subject performed a 6-min ramp rhythmic exercise (finger flexions) at low frequency (LF, 0.47 Hz), leading to slight acidosis, and at high frequency (HF, 0.85 Hz), inducing a larger acidosis. Metabolic changes were recorded using (31)P-magnetic resonance spectroscopy. Onset of intracellular acidosis was statistically identified after 3 and 4 min of exercise for HF and LF protocols, respectively. A detailed investigation of H(+) balance indicated that, for both protocols, nonoxidative ATP production preceded a change in pH. For HF and LF protocols, H(+) consumption through the creatine kinase equilibrium was constant in the face of increasing H(+) generation and efflux. For both protocols, changes in pH were not recorded as long as sources and sinks for H(+) approximately balanced. In contrast, a significant acidosis occurred after 4 min of LF exercise and 3 min of HF exercise, whereas the rise in H(+) generation exceeded the rise in H(+) efflux at a nearly constant H(+) uptake associated with phosphocreatine breakdown. We have clearly demonstrated that intracellular acidosis in exercising muscle does not occur exclusively as a result of nonoxidative ATP production but, rather, reflects changes in overall H(+) balance.     

Effect of salt-loading on erythrocyte deformability in spontaneously hypertensive and Wistar-Kyoto rats

Effects of salt-loading on erythrocyte and erythrocyte ghost deformabilities were measured by laser diffractometry using a flat cell and a helium-neon laser in spontaneously hypertensive rats (SHR) and age-matched normotensive Wistar-Kyoto rats (WKY). Salt-loading did not affect the deformability of erythrocytes in SHR and WKY, although a significantly reduced deformability was observed in salt-loaded SHR compared with values in control WKY and salt-loaded WKY (p less than 0.05, p less than 0.05, respectively). In contrast, salt-loading significantly reduced the deformability of erythrocyte ghosts in WKY and SHR (p less than 0.05, p less than 0.05, respectively). Our results suggest that salt-loading reduces erythrocyte membrane viscoelasticity in both WKY and SHR, and that the observed reduction of ghost deformability induced by salt-loading may influence the peripheral circulation.     

缺氧时大鼠红细胞变形性损伤的机制研究

本实验通过测定平原和模拟高原减压缺氧３０天大鼠红细胞滤过指数（ＩＦ）、红细胞内［ｐＨ］ｉ、［Ｋ＋］ｉ／［Ｎａ＋］ｉ比值、［Ｃａ２＋］ｉ、［Ｍｇ２＋］ｉ、平均红细胞体积（ＭＣＶ）及平均红细胞血红蛋白浓度（ＭＣＨＣ）,从而探讨缺氧条件下大鼠红细胞变形性损害的机制。结果发现：１．缺氧组大鼠红细胞［Ｃａ２＋］ｉ明显升高,且与ＩＦ呈显著正相关,但［Ｍｇ２＋］ｉ无明显差异;２．缺氧组［Ｋ＋］ｉ／［Ｎａ＋］ｉ值较平原组明显降低,且与ＩＦ呈显著负相关;３．缺氧组ＭＣＨＣ与平原组无明显差异,但ＭＣＶ显著升高;４．缺氧组红细胞内［ｐＨ］ｉ较平原组明显升高。提示：缺氧时红细胞［Ｃａ２＋］ｉ升高,［Ｋ＋］ｉ／［Ｎａ＋］ｉ值降低,ＭＣＶ增大以及红细胞［ｐＨ］ｉ值的改变在其变形性损伤中起重要作用。     

慢性呼吸衰竭病人红细胞膜蛋白和红细胞变形能力的研究

目的：探讨红细胞膜蛋白在红细胞变形性改变中的作用。方法：参照Ｌｅａｍｍｌｉ和Ｐｅａｃｏｃｋ方法,测定了肺心病Ⅰ型呼吸衰竭（Ⅰ组）１８例、Ⅱ型呼吸衰竭（Ⅱ组）１８例和健康对照（ＣＧ）２０例的红细胞膜带３蛋白、膜收缩蛋白二聚体（ＳｐＤ）和四聚体（ＳｐＴ）的相对含量与红细胞变形能力。结果：Ⅰ、Ⅱ组带３蛋白、ＳｐＤ、ＳｐＴ相对含量和红细胞变形指数（ＤＩ）与对照组均有显著差异,且肺心病病人的ＤＩ与带３蛋白相对含量呈显著正相关,与ＳｐＤ／ＳｐＴ比值呈显著负相关。结论：带３蛋白和膜收缩蛋白的异常,可能是导致肺心病人红细胞变形能力降低的重要因素之一。