烧伤患者血浆和红细胞游离氨基酸变化及输注氨基酸对其变化的影响

动态测定烧伤患者血浆及红细胞内游离氨基酸的含量 ,探讨输入外源性氨基酸后对血及红细胞内游离氨基酸的影响。以日立 835— 5 0型氨基酸自动分析仪测定烧伤患者血浆及红细胞内游离氨基酸含量。结果发现烧伤患者血浆总游离氨基酸浓度从伤后到 2 1天均显著降低 (P <0 .0 5～ 0 .0 1) ;赖、苯丙和苯丙 酪氨酸比值显著升高 (P <0 .0 5～ 0 .0 1) ;色、组、精、丙、甘、苏、脯和丝氨酸比值显著降低 (P <0 .0 5～ 0 .0 1) ;缬、亮、异亮、酪、胱和支链氨基酸伤后早期降低。烧伤患者红细胞内总游离氨基酸含量不同程度降低 ,其中 1、3、7天降低显著 (P <0 .0 5～ 0 .0 1) ;红细胞内苯丙和苯丙 酪氨酸比值未见显著性升高 ;色、蛋、精、脯氨酸含量很低或基本未测出。输注复合氨基酸注射液后未能显著改善患者血及红细胞内游离氨基酸含量。结果提示烧伤患者红细胞内游离氨基酸含量的变化趋势与血浆游离氨基酸变化趋势基本一致 ;烧伤后红细胞内苯丙氨酸及苯丙 酪氨酸比值有别于血浆变化。本研究条件下补充外源性氨基酸未能显著改变烧伤患者血浆及红细胞内游离氨基酸的含量     

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。     

激光生物学技术研究高脂血症大鼠红细胞变形能力改变及其机制

目的:通过研究红细胞膜流动性以及红细胞骨架结构的改变,进一步探讨高脂血症大鼠红细胞变形能力改变的机制。方法:16只Wistar大鼠随机分为两组:高血症组和对照组。高脂组给予高脂饮食。16周后,腹主动脉采血,采用酶比色法检测血浆甘油三脂、胆固醇含量;并利用激光衍射法测定红细胞变形指数、取向指数,荧光偏振法测定红细胞膜流动性,激光共聚焦显微镜观测红细胞骨架改变和红细胞F-actin的含量。结果:发现高脂血症大鼠红细胞的变形指数、取向指数以及红细胞膜的流动性显著降低(P<0.05),红细胞形态和骨架发生改变,F-actin含量显著降低(P<0.05)。结论:高脂血症大鼠红细胞变形能力降低与红细胞膜结构改变有一定的关系。     

亚硒酸钠抗红细胞膜蛋白交联作用的机理探讨

邻苯二酚氧化处理人红细胞膜会导致膜蛋白交联,产生高分子聚合物(HMP)。用N—乙基马来酰胺(NEM)封闭膜蛋白硫基,则不产生HMP。预先用Na SeO_3(0.05mol/L)处理红细胞膜,也同样不产生HMP。用N—(3-芘)马来酰胺(N-〔3-P〕NEM)标记红细胞膜来测试不同浓度Na_2SeO_3对荧光强度的影响。结果表明,随着Na SeO_3浓度增高荧光强度相应降低。Na_2SeO_3对红细胞膜的预处理时间和荧光强度的变化有关。经Na SeO_3处理的红细胞膜ESR谱提示了Na_2SeO_3与材相互作用有关。用荧光法测定膜结合硒含量表明,Na_2SeO_3处理红细胞膜可导致膜结合硒含量增高。推测,Na SeO_3很可能与膜蛋白疏基作用形成结合硒,从而起到抗膜蛋白交联作用。     

半胱胺对断奶前后仔猪胃粘膜H+-K+-ATPase表达和活性的影响

实验选取新生仔猪18窝, 随机分为实验组和对照组各9窝, 自12日龄起, 对照组饲喂基础乳猪料, 实验组在基础饲料中添加半胱胺120 mg/kg饲料, 仔猪均于35日龄断奶。分别于断奶前1 周、断奶当天、断奶后36 h、72 h、1周以及断奶后10 d屠宰仔猪取样, 每个时间点随机选取对照组和试验组各6头仔猪, 用相对定量RT PCR方法测定不同日龄仔猪胃组织中H K ATPase mRNA 表达的相对含量, 并同时测定H K ATPase的活性。结果表明: (1) 对照组仔猪在断奶前1 周至断奶后10 d, H K ATPase mRNA相对含量和H K ATPase活性有上升趋势, 两组仔猪在断奶后10 d H K ATPase mRNA相对含量和活性均达到最高水平, 但总体不表现显著的年龄差异; (2) 半胱胺能明显提高仔猪胃粘膜中H K ATPase mRNA的表达, 在断奶前1 周、断奶当天、断奶后1周和断奶后10 d均出现显著差异。半胱胺也能明显提高H K ATPase 的活性, 在断奶当天和断奶后10 d, H K ATPase 的活性分别被提高32 3%和18 3%; (3) 观察期内对照组和实验组H K ATPase mRNA水平和H K ATPase活性之间未发现显著的相关性。以上结果说明: 断奶前后仔猪H K ATPase的mRNA相对含量和活性没有明显的发育性变化, 断奶对H K ATPase mRNA表达和活性没有影响,而半胱     

高胆固醇血症血液流变性的研究

对实验性高胆固醇血症家兔血液流变性、红细胞流变性、红细胞膜脂分析以及与血清胆固醇浓度之间关系的研究指出随血清胆固醇浓度升高,全血表观粘度和血浆粘度升高,红细胞(?)积和(?)降低.进一步分析表明,随血清胆固醇浓度升高,红细胞膜中胆固醇Ch含量增加,引起膜胆固醇和磷脂(P1)的克分子比(Ch,P1)升高,膜的荧光偏振度(P)增大,表示红细胞流动性降低,而对照组各项指标在实验过程中保持稳定.     

烧伤对兔血红细胞内游离氨基酸浓度的影响

动态观察烧伤兔血红细胞内游离氨基酸的代谢变化。以日立 835 - 5 0型氨基酸自动分析仪测定 30 %TBSA兔烧伤后 1、3、7、15和 2 0d血红细胞内游离氨基酸的含量。结果显示 ,烧伤后多数测试点红细胞内游离氨基酸不同程度降低 ;伤后 1天降低最显著 ;苏、丙、缬、组、精和脯氨酸伤后各个时间点降低 ,多数时间点显著降低 (P <0 .0 5 - 0 .0 1)。结果提示烧伤后红细胞内游离氨基酸依靠易化扩散参与全身氨基酸的再分布     

银杏内酯对急性低氧时脑含水量、Na+,K+-ATPase活性、MDA、乳酸含量的影响

目的 :观察银杏内酯对急性低氧脑损伤的保护作用 ,并探讨其机理。方法 :用成年SD大白鼠分成常氧对照组 (NC组 ) ,急性减压低氧组 (AH组 ) ,银杏内酯加低氧组 (GH组 ) ,测定各组脑含水量 ,Na+,K+ ATP酶活性 ,丙二醛和乳酸的含量。结果 :①与NC组相比 ,AH组脑含水量明显增高 (P <0 .0 1) ,而GH组脑含水量较AH组明显降低 ,与NC组相近。②AH组脑Na+,K+ ATP酶活性较NC组明显下降 (P <0 .0 1) ,GH组该酶活性上升 (P <0 .0 5)。③AH组脑丙二醛含量明显高于NC组 ,GH组丙二醛含量较AH组显著降低 (P <0 .0 1)。④AH组脑乳酸含量显著高于NC组 ,而GH组乳酸含量明显低于AH组 (P <0 .0 1)。结论 :银杏内酯能减轻脑水肿 ,对抗氧自由基 ,提高Na+,K+ ATP酶活性 ,改善脑细胞能量代谢     

高原低氧习服大鼠红细胞变形性的变化规律及其分子机制

目的：探讨高原低氧习服大鼠红细胞变形性的变化规律及其分子机制。方法：将健康雄性大鼠随机分为3组（n=10）：常氧对照组、急性低氧组和低氧习服组。模拟高原低氧环境对大鼠分别进行急性低氧和间断低氧习服,麻醉后心脏采血,分别测定大鼠红细胞变形性、膜流动性、膜胆固醇和总磷脂含量、膜磷脂成分的含量、红细胞ATP酶活性、红细胞内Na＋和Ca2＋浓度及建立红细胞膜蛋白质双向电泳图谱,寻找差异蛋白质点,对其进行质谱鉴定。结果：①急性低氧大鼠红细胞变形性、膜流动性、膜胆固醇和总磷脂含量、红细胞ATP酶活性均降低;红细胞内Na＋和Ca2＋浓度均增高;红细胞膜磷脂酰丝氨酸（PS）、鞘磷脂（SM）含量增加,磷脂酰胆碱（PC）含量降低;建立了红细胞膜蛋白质双向电泳图谱,选取7个差异蛋白质点,其中4个在急性低氧后表达降低。②低氧习服大鼠红细胞变形性、膜流动性、膜胆固醇和总磷脂含量、红细胞ATP酶活性明显均增高;红细胞内Na＋和Ca2＋浓度均降低;红细胞膜PS、SM含量降低,PC含量增加;上述7个差异蛋白质点中4个在低氧习服后表达增高,3个表达降低,质谱技术鉴定结果为补体结合蛋白、水通道蛋白、膜攻击复合物抑制因子、葡萄糖运载体、脂质移行酶、氨基磷脂转移酶、依赖ATP的翻转酶,其中后三个酶与红细胞膜磷脂翻转有关。结论：急性低氧引起红细胞变形性、膜流动性、膜蛋白质表达、红细胞ATP酶活性及胞内Na＋和Ca2＋浓度方面相应的改变;经低氧习服后,上述指标有所改善,低氧习服对急性低氧引起红细胞的影响具有一定的保护作用;红细胞膜上的3种蛋白质,包括脂质移行酶、氨基磷脂转移酶和依赖ATP的翻转酶在低氧习服改善红细胞变形性的机制中可能发挥重要的作用。     

老化红细胞肌醇磷脂代谢的探讨

本文用密度梯度离心法,将红细胞分成年轻及老化两部分,分别测定了膜磷脂、甘油二酯及磷酸肌醇的含量,蛋白激酶C在膜内及胞浆内的分布及其对膜蛋白的磷酸化。实验结果表明老化及年轻红细胞磷脂含量,除磷脂酰胆碱明显降低外,其他均无差异。老化红细胞甘油二酯含量低于(P<0.01)年轻者,而磷酸肌醇两者含量相似。老化红细胞膜内蛋白激酶C活性远比年轻者高,而在胞浆内活性则相反。说明老化红细胞膜蛋白激酶C活性增高,可使红细胞膜蛋白4.1、4.2、4.5和4.9进行磷酸化,这些膜蛋白与维持红细胞形态及功能有关,可能它们的磷酸化是老化红细胞变形性降低,脆性增加的因素之一。     

Serum E-selectin and erythrocyte membrane Na+K+ ATPase levels in patients with rheumatoid arthritis

We conducted this study to assess serum soluble E-selectin (sE-selectin) levels and erythrocyte membrane Na(+)K(+) ATPase activity in patients with rheumatoid arthritis (RA) and correlate the levels with disease activity. Levels of sE-selectin were measured in the serum of 20 patients with RA and 20 control subjects by an enzyme-linked immunosorbant assay. Na(+)K(+) ATPase activity was determined by a colorimetric method in RA patients and healthy controls. There were no statistically significant differences between the two groups with respect to demographic data such as age and sex (p > 0.05). The serum levels of sE-selectin, ESR and C-reactive protein (CRP) in RA patients were significantly higher than in healthy controls (p < 0.001). Erythrocyte membrane Na(+)K(+) ATPase activity was significantly lower in the RA group than in the control group (p < 0.001). Correlation analysis revealed significant positive correlations between soluble E-selectin and ESR (r = 0.457; p < 0.05) and CRP (r = 0.682; p < 0.01) levels. There were statistically significant negative correlations between erythrocyte membrane Na(+)K(+) ATPase activity and ESR (r = -0.450; p < 0.05) and CRP (r = -0.446; p < 0.05) levels. Additionally, a significant negative correlations between sE-selectin and Na(+)K(+) ATPase activity was observed (r = -0.80; p < 0.001). These results show that decreases in erythrocyte membrane Na(+)K(+) ATPase activity and increases in sE-selectin are observed in RA, and that increased levels of sE-selectin may also reflect disease status or activity.     

Phospholipid N-methylation in diabetic erythrocytes: effects on membrane Na+, K+ ATPase activity.

Phospholipid methylation was quantified in non-diabetic and streptozotocin diabetic rat erythrocytes. While the total mass of methylated lipids remained the same in both groups, the relative abundance of individual methylated lipid species differed significantly in diabetic erythrocytes. Moreover, incubation of erythrocytes membranes with S-adenosyl methionine, a substrate for methyl transferases, not only increased membrane lipid methylation but also decreased Na+, K+ ATPase activity significantly. These results suggest that phospholipid methylation may cause the observed depression of erythrocyte Na+, K+ ATPase activity in diabetes and could contribute to the altered rheology of erythrocytes in diabetes.     

Effect of HMG-CoA reductase inhibitors on the erythrocyte membrane]

We studied 10 patients affected by primary hypercholesterolemia treated with placebo for 1 month and with simvastatin (20 mg die) for 6 months during a double-blind clinical trial. At 1-month intervals we determined the following parameters in the serum: total and HDL-cholesterol, triglycerides, apolipoprotein A1 and B. At the same time intervals, we also determined the cholesterol and phospholipid concentration, the Na+/K+ ATPase activity and the fluidity of the erythrocyte membranes. Our results demonstrated the following modifications in the erythrocyte membranes during simvastatin treatment: 1) an initial increase in the cholesterol concentration and in the cholesterol/phospholipid ratio, with a significant decrease only after 4 months; 2) a similar behaviour of membrane fluidity, with an initial decrease and an elevation after 4 months; 3) an increase in the Na+/K+ ATPase activity only after 4 months. We hypothesize that simvastatin not only inhibits the hepatic synthesis of cholesterol, but also modifies the cholesterol exchange between plasma and the erythrocyte membrane.     

Role of cell surface mannose residues in host cell invasion by Trypanosoma cruzi

The cholesterol content of human erythrocyte membranes has been modified by incubation of intact cells with sonicated egg phosphatidylcholine/cholesterol vesicles and with egg phosphatidylcholine vesicles. (Na+ + K+)-ATPase ATP hydrolyzing activity was measured as a function of membrane cholesterol content. High membrane cholesterol inhibits the ATPase activity of the enzyme and low membrane cholesterol activates that enzyme activity. The most likely mechanism of inhibition is suggested to comprise direct cholesterol-protein interactions which lead to a low activity conformation. Ouabain binding studies show that the inhibition is not due to a loss of enzyme from the membrane.     

Damage to the structure of erythrocyte plasma membranes in patients with type-2 hypercholesterolemia

BACKGROUND: Hypercholesterolemia may decrease the deformability of red blood cells which impairs their hemorheological behavior and promotes atherosclerosis.The study involved 60 hypercholesterolemic patients and 30 healthy individuals as the control group.METHODS: The membrane fluidity of erythrocytes was estimated by a spin-label method (5-doxylstearic acid (5-DSA)). The ratio of weakly to strongly (W/S) immobilized residues of erythrocyte membrane-bond maleimide-tempo spin label was studied in oxidative damage to membrane protein. Damage to erythrocyte proteins was also indicated by means of Na(+) K(+) ATPase activity.RESULTS: The membranes of hyperlipidemia (hlp) patients contain larger concentrations of cholesterol 2.16+/-0.24 than do those of the normolipemic individuals 0.31+/-0.24 (P<0.001). The level of Na(+) K(+) ATPase in the erythrocyte membrane from the control group was higher 103.4+/-1.3 (nmolPi/(mgproteinsh)) than in the patient group 93.6+/-3.2 (nmolPi/(mgproteinsh)) (P<0.001). The order parameter S 5-DSA in the control group was 0.745+/-0.009 and in hlp patients was 0.755+/-0.009 (P<0.001). The W/S ratio in the control group amounted to 2.00+/-0.09 and in the hlp patient group was 2.50+/-0.11 (P<0.001).CONCLUSION: Type-2 hypercholesterolemia causes changes in the structure and fluidity of erythrocyte plasma membranes since the excess of cholesterol affects the normal rheology of blood through its interaction with erythrocytes. It also impairs the function and structure of plasma membrane proteins.     

The effect of desferrioxamine on peroxynitrite-induced oxidative damage in erythrocytes

The aim of this study was to investigate the effect of desferrioxamine on peroxynitrite-mediated damage in erythrocytes by measuring the 3-nitrotyrosine level and glutathione peroxidase and Na(+)-K(+) ATPase activities in vitro. 3-Nitrotyrosine levels were determined by HPLC; glutathione peroxidase and Na(+)-K(+) ATPase activities were measured by spectrophotometry. Peroxynitrite increased the 3-nitrotyrosine level but decreased both enzyme activities. In the presence of desferrioxamine, glutathione peroxidase activity was increased with a decrease in the 3-nitrotyrosine level. Desferrioxamine was found to possess an important antioxidant activity as assessed in an in vitro system, reducing protein nitration, restoring enzyme activities and maintaining erythrocyte membrane integrity.     

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。     

Atypical PKC-zeta and PKC-iota mediate opposing effects on MCF-7 Na+/K+ATPase activity

We demonstrated previously that in serum-starved MCF-7 breast cancer cell line, Ang II increased Na+/K+ATPase activity and activated the protein kinase C zeta (PKC-zeta) (Muscella et al., 2002 J Endocrinol 173:315-323; 2003 J Cell Physiol 197:61-68.). The aim of the present study was to investigate the modulation of the activity of the Na+/K+ATPase by PKC-zeta in MCF-7 cells. Here, using serum-starved MCF-7 cells, we have demonstrated that the effect of Ang II on the Na+/K+ATPase activity was inhibited by a synthetic myristoylated peptide with sequences based on the endogenous PKC-zeta pseudosubstrate region (zeta-PS) and by high doses of GF109203X, inhibitor of PKCs. When MCF-7 cells, grown in 10% fetal bovine serum (FBS), were stimulated with Ang II a dose- and time-dependent inhibition of the Na+/K+ATPase activity was obtained. Under this growth condition we found that mRNAs for AT1, AT2, and for Na+/K+ATPase alpha1 and alpha3 subunits were unchanged; besides both the activity of the Na+/K+ATPase and the level of PKC-zeta also were unaffected by the serum. The atypical PKC-iota level (present in very low abundance in serum-starved MCF-7) was increased and Ang II provoked its translocation from the cytosol to plasma membrane. PKC-zeta was localized to the membrane, and upon Ang II treatment its cellular localization did not change. The Ang II-mediated decrease of the Na+/K+ATPase activity was inhibited by high doses of GF109203X but not by zeta-PS, thus indicating that such effect was not due to PKC-zeta activity. The treatment of cells with PKC-iota antisense oligodeoxynucleotides inhibited the effects of Ang II on the Na+/K+ATPase activity. Additionally, the effect of Ang II on Na+/K+ATPase activity was also blocked by the phosphatidylinositol 3-kinase (PI3K) inhibitors, wortmannin and LY294002, and by the actin depolymerizing agents, cytochalasin D. In conclusion, in MCF-7 cells Ang II modulates the Na+/K+ATPase activity by both atypical PKC-zeta/-iota. The effects of Ang II are opposite depending upon the presence of the serum-sensitive PKC-iota, with the inhibitory effect possibly due to the redistribution of sodium pump from plasma membrane to the inactive intracellular pool.     

Modifications in the activities of membrane-bound enzymes during in vivo ageing of human and rabbit erythrocytes

Erythrocyte plasma membranes were isolated from a homogeneous population of human or rabbit erythrocytes fractionated into classes representing young, middle-age and old age in vivo. Lipid analyses of human erythrocyte plasma membranes reveal a decrease of the cholesterol to phospholipid molar ratio, followed by a marked decrease in the activities of the membrane-bound enzymes (Na+,K+)-stimulated ATPase, acetylcholinesterase and NAD+ase from young to old age. Such changes were not observed between young and middle-age rabbit erythrocytes. Incubation of rabbit young erythrocytes with phosphatidylcholine vesicles (liposomes) to obtain partial depletion of their membrane cholesterol, indicated that cholesterol depletion causes a statistically significant decrease of the (Na+,K+)-stimulated ATPase and acetylcholinesterase activities, but the NAD+ase activity remained almost unchanged. The biological significance of these data are discussed in terms of the differences and modifications in the interaction of membrane-bound enzymes with membrane lipids during in vivo ageing of erythrocytes.