Confocal Raman microscopy on single living young and old erythrocytes

Raman confocal microscopy, including the techniques of point Raman spectra, line mapping, 2D mapping, and time-dependent spectrum monitoring performed with 514.5 nm excitation light, was used in a comparative study on the distribution and oxidation states of hemoglobin (Hb) in young and old mature erythrocytes. It is demonstrated that in contrast to the homogeneous distribution of the Hb in young cells, there are more Hb distribution around the cell membrane in old erythrocyte. The proteins exhibit some extent of aggregation and conformational change, present less ability of oxidation, and lower oxygenation speed than the Hb in young erythrocytes. Our results also provide the first direct evidence of some intermediate oxygenated states of Hb between the two fully oxygenated (R) and deoxygenated (T) states in living erythrocyte, and give detail information about the conformational change of the intracellular Hb with time during the reoxygenation process. (c) 2008 Wiley Periodicals, Inc. Biopolymers 89: 951-959, 2008.This article was originally published online as an accepted preprint. The "Published Online" date corresponds to the preprint version. You can request a copy of the preprint by emailing the Biopolymers editorial office at biopolymers@wiley.com.     

Effect of membrane potential and internal pH on active sodium-potassium transport and on ATP content in high-potassium sheep erythrocytes

Ouabain-sensitive Na⁺ and K⁺ fluxes and ATP content were determined in high potassium sheep erythrocytes at different values of membrane potential and internal pH. Membrane potential was adjusted by suspending erythrocytes in media containing different concentrations of MgCl₂ and sucrose. Concomitantly either the external pH was changed sufficiently to maintain a constant internal pH or the external pH was kept constant with a resultant change of internal pH. The erythrocytes were preincubated before the flux experiment started in a medium which produced increased ATP content in order to avoid substrate limitation of the pump. p] It was found that an increased cellular pH reduced the rates of active transport of Na⁺ and K⁺ without significantly altering the ratio of pumped $\text{Na}{}^{\mathrm{+}}\text{K}{}^{\mathrm{+}}$. This reduction was not due to limitation in the supply of ATP although ATP content decreased when internal pH increased. Changes of membrane potential in the range between ?10 and +60 mV at constant internal pH did not affect the rates of active transport of Na⁺ or K⁺.     

Selective labeling and monitoring pH changes of lysosomes in living cells with fluorogenic pH sensors

New BODIPY-based pH probes have been designed with excitation and emission wavelengths suitable for fluorescence microscopy and flow cytometry. These pH probes are cell-permeable, selectively label lysosomes, and can be used for noninvasive monitoring of lysosomal pH changes during physiological and pathological processes.     

Effect of transbilayer phospholipid distribution on erythrocyte fusion

Phospholipid packing has been suggested as a relevant variable in the control of membrane fusion events. To test this possibility in a model system, a comparison was made of the fusability of erythrocytes with a normal asymmetric transbilayer distribution of plasma membrane phospholipids (tightly packed exterior lipids) and erythrocytes with a symmetric transbilayer distribution of phospholipids (more loosely packed exterior lipids), using polyethylene glycol as fusogen. Not only were lipid-symmetric cells more readily fused, but fusions of mixtures of lipid-symmetric and lipid-asymmetric cells indicated that both fusing partners must have a symmetric distribution for fusion to be enhanced. Lipid-symmetric cells may fuse more readily because loose packing of the exterior lipids enhances hydrophobic interactions between cells. Alternatively, enhanced membrane fluidity may facilitate intramembranous particle clustering, previously implicated as a potentiator of fusion. Finally, exposure of phosphatidylserine on the surface of lipid-symmetric erythrocytes may be responsible for their enhanced fusion.     

Specific lectins map the distribution of fibronectin and beta 1-integrin on living MDCK cells

The expression and dynamics of bound fibronectin and the sialylated integral membrane protein, beta 1-integrin, were analyzed on the apical membrane of living MDCK cells. Fibronectin was identified by its specific binding of fluorescent peanut agglutinin and sialylated beta 1-integrin by its binding of Sambucus nigra agglutinin. Confocal epifluorescence microscopy and laser scanning cytometry determined the distribution and abundance of binding sites of the two fluorescently labeled lectins. Both fibronectin and beta 1-integrin were restricted to specific regions uniformly distributed over the entire apical surface. Apical-surface fibronectin binding varied much more between cells than did the expression of beta 1-integrin. Sialylated beta 1-integrin colocalized >92% with membrane microplicae while fibronectin was unrelated to these surface structures. This lack of colocalization of the proteins was confirmed by double-labeling experiments. From the maturation dependence of the fibronectin-binding capacity and the differences in protein turnover times, it was evident that fibronectin did not bind to sialylated beta 1-integrin. Furthermore, desialylation of beta 1-integrin uncovered additional fibronectin receptors on the apical membrane. We conclude that these lectins permit tracking of two membrane-associated glycoproteins in living cells and that fibronectin binds only to desialylated beta 1-integrin on MDCK cells.     

Apoplastic pH in corn root gravitropism: a laser scanning confocal microscopy measurement

The ability to measure the pH of the apoplast in situ is of special interest as a test of the cell wall acidification theory. Optical sectioning of living seedlings of corn roots using the laser scanning confocal microscope (LSCM) permits us to make pH measurements in living tissue. The pH of the apoplast of corn roots was measured by this method after infiltration with CI-NERF, a pH-sensitive dye, along with Texas Red Dextran 3000, a pH-insensitive dye, as an internal standard. In the elongation zone of corn roots, the mean apoplastic pH was 4.9. Upon gravitropic stimulation, the pH on the convex side of actively bending roots was 4.5. The lowering of the apoplastic pH by 0.4 units appears to be sufficient to account for the increased growth on that side. This technique provides site-specific evidence for the acid growth theory of cell elongation. The LSCM permits measurements of the pH of living tissues, and has a sensitivity of approximately 0.2 pH units.     

功能红细胞研究的拉曼光谱技术与进展

红细胞在人体新陈代谢和物质运输方面起着非常重要的作用。作为一种无损、快速而灵敏的光谱学检测方法,拉曼光谱技术在生物医学领域的应用日渐广泛。本文综述了近年来拉曼光谱技术在红细胞及血红蛋白研究中的应用进展,详尽评述当前研究功能红细胞中较有优势的拉曼技术—显微拉曼光谱技术和光镊拉曼光谱技术,并对其技术的改进做出总结,以期为利用激光拉曼光谱研究红细胞提供较系统的参考。     

Ratiometric Imaging of Extracellular pH in Dental Biofilms

The pH in bacterial biofilms on teeth is of central importance for dental caries, a disease with a high worldwide prevalence. Nutrients and metabolites are not distributed evenly in dental biofilms. A complex interplay of sorption to and reaction with organic matter in the biofilm reduces the diffusion paths of solutes and creates steep gradients of reactive molecules, including organic acids, across the biofilm. Quantitative fluorescent microscopic methods, such as fluorescence life time imaging or pH ratiometry, can be employed to visualize pH in different microenvironments of dental biofilms. pH ratiometry exploits a pH-dependent shift in the fluorescent emission of pH-sensitive dyes. Calculation of the emission ratio at two different wavelengths allows determining local pH in microscopic images, irrespective of the concentration of the dye. Contrary to microelectrodes the technique allows monitoring both vertical and horizontal pH gradients in real-time without mechanically disturbing the biofilm. However, care must be taken to differentiate accurately between extra- and intracellular compartments of the biofilm. Here, the ratiometric dye, seminaphthorhodafluor-4F 5-(and-6) carboxylic acid (C-SNARF-4) is employed to monitor extracellular pH in in vivo grown dental biofilms of unknown species composition. Upon exposure to glucose the dye is up-concentrated inside all bacterial cells in the biofilms; it is thus used both as a universal bacterial stain and as a marker of extracellular pH. After confocal microscopic image acquisition, the bacterial biomass is removed from all pictures using digital image analysis software, which permits to exclusively calculate extracellular pH. pH ratiometry with the ratiometric dye is well-suited to study extracellular pH in thin biofilms of up to 75 µm thickness, but is limited to the pH range between 4.5 and 7.0.     

Association in Long-Evans hooded rats of red cell 2,3-diphosphoglycerate levels with hemoglobin types

Two sublines of commercially available Long-Evans hooded rats have been developed by genetic selection. These sublines have widely differing levels of erythrocyte 2,3-diphosphoglycerate (DPG) due to different alleles at a single genetic locus. In the present work, it is shown that rats from the commercial population are also polymorphic at a hemoglobin locus, probably involving two alleles of the ^III-globin chain locus. Particular hemoglobin types have been found to be strongly associated with certain DPG types, not only in the high-DPG and low-DPG lines but also in the commercial population. Two explanations for this association are considered. One is a single-locus hypothesis, with hemoglobin allelic variation causing DPG variation, and the other is a two-locus hypothesis, with marked linkage disequilibrium.This work was supported by a Michigan Heart Association Grant, by the Meyers Foundation, and by NIH Training Grant (5 T01-GM-0071).     

高住低练对游泳运动员红细胞免疫黏附功能及白细胞计数的影响

目的:了解高住低练对高水平游泳运动员血细胞天然免疫功能的影响。方法:6名女子游泳运动员进行2周高住低练,训练前、训练期间及恢复1周分别测试红细胞黏附功能、白细胞计数指标。结果:训练期间运动员红细胞C3b受体花环率(RBC-C3bRR)明显下降(P<0.05),红细胞免疫复合物花环率(RBC-ICR)明显上升(P<0.05),恢复1周后指标回归正常;白细胞、粒细胞在训练期总体上呈显著性下降(P<0.05),训练结束1周后恢复;单核细胞和淋巴细胞训练期间总体趋势是下降,训练结束1周后仍未恢复。结论:红细胞和粒细胞的天然免疫功能下降快,恢复快,但淋巴细胞、单核细胞计数恢复较慢,运动员对本次训练基本适应。     

Raman spectroscopy as a non‐invasive technique for the quantification of melanins in feathers and hairs

The quantification of melanins is a complex task due to the chemical heterogeneity of the pigments and the difficulty of their isolation. The best accepted procedure currently consists in the chemical cleavage of melanins and the subsequent detection of degradation products by HPLC, which implies the destruction of samples. Here, we show that Raman spectroscopy is a non‐invasive technique that can be used to quantify melanins. We made parallel analyses of the characteristics of pheomelanin and eumelanin Raman spectra as measured by confocal Raman microscopy and of degradation products of pheomelanin (4‐amino‐3‐hydroxyphenylalanine, 4‐AHP) and eumelanin (pyrrole‐2,3,5‐tricarboxylic acid, PTCA) as measured by HPLC in feathers of red‐legged partridges and hairs of wild boars and humans. We found strong correlations between the spectral Raman characteristics and 4‐AHP and PTCA levels, which indicates that the Raman spectra of melanins can be used to determine their content.     

Effects of biofilm structures on oxygen distribution and mass transport

Aerobic biofilms were found to have a complex structure consisting of microbial cell clusters (discrete aggregates of densely packed cells) and interstitial voids. The oxygen distribution was strongly correlated with these strutures. The voids facilitated oxygen transport from the bulk liquid through the biofilm, supplying approximately 50% of the total oxygen consumed by the cells. The mass transport rate from the bulk liquid is influenced by the biofilm structure; the observed exchange surface of the biofilm is twice that calculated for a simple planar geometry. The oxygen diffusion occurred in the direction normal to the cluster surfaces, the horizontal and vertical components of the oxygen gradients were of equal importance. Consequently, for calculations of mass transfer rates a three-dimensional model is necessary. These findings imply that to accurately describe biofilm activity, the relation between the arrangement of structural components and mass transfer must be undrstood. (c) 1994 John Wiley & Sons, Inc.     

消化酶在条石鲷成鱼体内的分布及pH对消化酶活力的影响

采用酶学分析方法研究了消化酶在条石鲷(Oplegnathus fasciatus)成鱼体内不同消化器官中的分布和pH对其消化酶活力的影响。结果表明,(1)蛋白酶活力为胃>后肠>中肠>前肠>肝,淀粉酶活力为前肠>中肠>后肠>胃>肝,脂肪酶活力为前肠>中肠>胃>后肠>肝,表明胃是消化蛋白类物质的主要场所,肠道在各种营养物质的消化中起重要作用,而肝中3种酶活力很低,可能在食物的消化中作用较小。(2)条石鲷胃的蛋白酶和淀粉酶的最适宜pH值分别为3.2和5.6,胃蛋白酶在强酸性条件下活力较高,而胃淀粉酶在弱酸性条件下活力较高;肝的蛋白酶和淀粉酶的最适pH是7.6,在中性条件下活性较高;肠的蛋白酶和淀粉酶的最适pH为6.6,在弱酸性条件下活力较高。     

Effect of N-chloroamino acids on the erythrocyte

Amino acids present in blood plasma may be targets for oxidation and chlorination by HOCl/OCl^?. N-Chloroamino acids have been reported to be less reactive, but more selective than HOCl/OCl^? in their reactions; therefore, they may act as secondary mediators of HOCl/OCl^?-induced injury. This study compared the effects of five N-chloroamino acids (AlaCl, LysCl, SerCl, AspCl and PheCl) on erythrocytes with the action of HOCl/OCl^?. The N-chloroamino acids differed in stability and reactivity. They had a weaker haemolytic action than HOCl/OCl^?; HOCl/OCl^?, AlaCl and PheCl increased osmotic fragility of erythrocytes at a concentration of 1 mm. Oxidation of glutathione, formation of protein-glutathione mixed disulphides and efflux of GSSG from erythrocytes were observed for erythrocytes treated with all the employed chloroderivatives, while increased oxidation of 2′,7′-dichlorofluorescin was detected only after treatment of the cells with 1 mm HOCl/OCl^?, AlaCl and PheCl. Generally, the reactivity of at least some N-chloroamino acids may be not much lower with respect to HOCl/OCl^?.     

Effects of pH on cell fusion induced by electric fields

Electrofusion has recently become an important area of cell biology research. We studied the effects of pH of the cell medium on the electrofusion of human red blood cells. Cell fusion was monitored by observing the movement of a lipophylic dye between neighboring fused cells using a fluorescence microscope. The cells were first brought into close contact by dielectrophoresis. Fusion was then induced by three pulses of high-intensity electric field. Within minutes following the pulse application, many cells were observed to fuse together to form fusion chains of different lengths. We found that the optimal pH for cell fusion is around pH 7.5. At this pH, the fusion yield was highest (ranging from 57 to 81%) and the average number of cells within a fusion chain was also the largest. The dependence of cell fusion on pH is more sensitive at low than at high pH. The fusion yield was decreased by 40% when the pH was changed from 7.5 to 6.0, but there was only a 20% decrease in yield between pH 7.5 and 10.0 We suspect that the observed pH effects may be caused by a redistribution of fixed charges at the cell surface, or changes in amphipathicity of the surface proteins.     

Characteristics of the volume- and chloride-dependent K transport in human erythrocytes homozygous for hemoglobin C

Summary In human red cells homozygous for hemoglobin C (CC), cell swelling and acid pH increase K efflux and net K loss in the presence of ouabain (0.1mm) and bumetanide. We report herein, that K influx is also dependent on cell volume in CC cells: cell swelling induces a marked increase in the maximal rate (from 6 to 18 mmol/liter cell × hr) and in the affinity for external K (from 77±16mm to 28±3mm) of K influx. When the external K concentration is varied from 0 to 140mm, K efflux from CC and normal control cells is unaffected. Thus, K/K exchange is not a major component of this K movement. K transport through the pathway of CC cells is dependent on the presence of chloride or bromide; substitution with nitrate, acetate or thiocyanate inhibits the volume- and pH-dependent K efflux. When CC cells are separated according to density, a sizable volume-dependent component of K efflux can be identified in all the fractions and is the most active in the least dense fraction. N-ethylmaleimide (NEM) markedly stimulates K efflux from CC cells in chloride but not in nitrate media, and this effect is present in all the fractions of CC cells separated according to density. The persistence of this transport system in denser CC cells suggests that not only cell age, but also the presence of the positively charged C hemoglobin is an important determinant of the activity of this system. These data also indicate that the K transport pathway of CC cells is not an electrodiffusional process and is coupled to chloride.     

Effect of Bcl—2 and caspase—3 on calcium distribution in apoptosis of HL—60 cells

Apoptosis manifests in two major execution programs downstream of the death signal:the caspase pathway and organelle dysfunction.An important antiapoptosis factor,Bcl-2 protein,contributes in caspase pathway of apoptosis.Calcium,an important intracellular signal element in cells,is also observed to have changes during apoptosis,which maybe affected by Bcl-2 protein.We have previously reported that in Harringtonine (HT) induced apoptosis of HL-60 cells,there‘s change of intracellular calcium distribution,oving from cytoplast especially Golgi‘s apparatus to nucleus and accumulating there with the highest concentration.We report here that caspase-3 becomes activated in HT-induced apoptosis of HL-60 cells,which can be inhibited by overexpression of Bcl-2 protein.No sign of apoptosis or intracellular calcium movement from Golgi‘s apparatus to nucleus in HL-60 cells overexpressing Bcl-2 or treated with Ac-DEVD-CHO,a specific inhibitor of caspase-3.The results indicate that activated caspase-2 can promote the movement of intracellular calcium from Golgi‘s apparatus to nucleus,and the process is inhibited by Ac-DEVD-CHO(inhibitor of caspase-3),and that Bcl-2 can inhibit the movement and accumulation of intracellular calcium in nucleus through its inhibition on caspase-3.Calcium relocalization in apoptosis seems to be irreversible,which is different from the intracellular calcium changes caused by growth factor.     

Effect of hemoglobin A and S on human erythrocyte ghosts

The interaction of erythrocyte ghosts and vesicles with chromatographed hemoglobin (Hb) A and Hb S was studied under various conditions. Although no binding of either Hb A or Hb S to inside-out vesicles was detected, under conditions of physiological ionic strength and pH, several properties of white membrane ghosts were effected by the presence of Hb. Addition of Hb A and Hb S (2 g/dl) to membrane ghosts in 6 mM MgATP, 150 mM NaCl, 10 mM Tris-HCl buffer, pH 7.4, was found to effect the echinocyte-discocyte transition, the extent of endocytosis, the volume, and the sealing of ghosts. Our observations suggest that the structure of membrane ghosts is influenced by cytosol proteins and that the environment of the red cell membrane plays an important role in the definition and the control of the membrane structure and function.     

Intracellular pH of the preimplantation mouse embryo: Effects of extracellular pH and weak acids

Although intracellular pH (pHi), is a regulator of numerous biological processes, it has received relatively little attention with regard to the physiology of the mammalian preimplantation embryo. Interestingly, there is some controversy as to whether the early embryo can recover from an acid load. The significance of this is that two constituents of mouse embryo culture media are pyruvate and lactate. These carboxylic acids are utilised by the early mouse embryo for energy production. However, as weak acids, pyruvate and lactate may induce perturbations in the pHi and thus alter the physiology of the embryo. The aims of this study were therefore to measure the pHi of the mouse preimplantation embryo and to determine the effect of lactate on pHi at different developmental stages. The pHi was measured using the ratio-metric fluorophore carboxy-seminaphthorhodafluor-1-acetoxymethylester (SNARF-1) in conjunction with confocal microscopy. The pHi increased significantly with development from the zygote to the morula stage. Furthermore, at concentrations greater than 5 mM, lactate caused the pHi of the zygote to become significantly more acidic. It was demonstrated that facilitative transport in association with a smaller passive component was responsible for the movement of lactate into the zygote. Metabolic studies revealed that, through their acidifying effect, weak acids caused a reduction in glycolytic activity in the early embryo. In contrast, the pHi of the compacted embryo remained unchanged by the presence of lactate in the external media. Furthermore, incubation with weak acids did not affect the rate of glycolysis in the morula. These data suggest that, by the generation of a transporting epithelium at compaction, the embryo develops the ability to regulate pHi against an acid load. Mol. Reprod. Dev. 50:434–442, 1998. © 1998 Wiley-Liss, Inc.     

Tendency for oxidation of annelid hemoglobin at alkaline pH and dissociated states probed by redox titration

The redox titration of extracellular hemoglobin of Glossoscolex paulistus (Annelidea) was investigated in different pH conditions and after dissociation induced by pressure. Oxidation increased with increasing pH, as shown by the reduced amount of ferricyanide necessary for the oxidation of hemoglobin. This behavior was the opposite of that of vertebrate hemoglobins. The potential of half oxidation (E_{1 / 2}) changed from − 65.3 to + 146.8 mV when the pH increased from 4.50 to 8.75. The functional properties indicated a reduction in the log P₅₀ from 1.28 to 0.28 in this pH range. The dissociation at alkaline pH or induced by high pressure, confirmed by HPLC gel filtration, suggested that disassembly of the hemoglobin could be involved in the increased potential for oxidation. These results suggest that the high stability and prolonged lifetime common to invertebrate hemoglobins is related to their low tendency to oxidize at acidic pH, in contrast to vertebrate hemoglobins.