Differential effect of pH on the density and volume of rat reticulocytes and erythrocytes. Relevance to their fractionation by centrifugation.

Rats were injected with 59Fe-ferrous citrate and bled thereafter at different times (16 h to 49 d). This gave rise to red cell populations in which cells corresponding in age to the time elapsed between injection and bleeding were labeled. The anticoagulant used was either acid-citrate-dextrose (ACD) with a pH adjusted to 7.3 or ACD (pH 5.1). Final pH of the collected blood was about 7.2-7.4 in the former case and 6.4-6.7 in the latter. Red cells were then centrifuged (5) and approximately 7-10% of the packed cells from the top and 7-10% from the bottom of the cell column collected. When reticulocytes are the predominant labeled red cell population, as in blood obtained for about 24 h after isotope injection, a fractionation of these cells and mature erythrocytes is in evidence only when blood is collected at the higher pH. Thus, at pH 7.2-7.4 ratios of specific radioactivities of cells in top fraction/cells in an unfractionated sample are about 3, whereas at pH 6.4-6.7, the analogous ratios are 1 or less. These differences in specific activity ratios, as a function of pH at collection, virtually disappear after about 4 d following isotope injection. The lower pH is known to increase the volume and decrease the density of mature red blood cells. The marked effect of pH on cellular fractionation could be correlated with the smaller change in rat reticulocyte density and volume in acid medium. At pH 6.4-6.7, the densities of mature erythrocytes and reticulocytes are so close that their physical separation by centrifugation is not feasible.     

Red blood cells derived from peripheral blood and bone marrow CD34+ human haematopoietic stem cells are permissive to Plasmodium parasites infection

The production of fully functional human red cells in vitro from haematopoietic stem cells (hHSCs) has been successfully achieved. Recently, the use of hHSCs from cord blood represented a major improvement to develop the continuous culture system for Plasmodium vivax. Here, we demonstrated that CD34+hHSCs from peripheral blood and bone marrow can be expanded and differentiated to reticulocytes using a novel stromal cell. Moreover, these reticulocytes and mature red blood cells express surface markers for entrance of malaria parasites contain adult haemoglobin and are also permissive to invasion by P. vivax and Plasmodium falciparum parasites.     

Characterization of [3H]-Valinomycin binding to red blood cell membrane

Valinomycin was tritiated by exchange and its biological activity found to be similar to that of nonlabeled drug. [³H]-valinomycin binds to red blood cell membranes following a biphasic pattern. High concentrations of the drug lead to an irreversible binding while low concentrations lead to a completely reversible binding. Maximum binding was obtained at acidic pH (pH 4.2) and physiological temperature (37°C). We demonstrate that valinomycin binds strongly to the lipidic phase of the membrane. When binding to erythrocytes and reticulocytes was compared, it was found that the mature red blood cells had less binding capacity than the reticulocytes.     

Differential effect of neuraminidase-treatment on the surface charge-associated properties of rat reticulocytes and erythrocytes. Studies by partitioning in two-polymer aqueous phases

Rat reticulocytes undergo charge-associated surface changes, detectable by cell partitioning in charged dextran-poly(ethylene glycol) aqueous phase systems, as they become mature erythrocytes. Young reticulocytes have a lower partition coefficient, i.e., quantity of cells in the top phase as a percentage of total cells added, than do mature erythrocytes. Sialic acid is the main charge-bearing group on red blood cells and, in the case of the rat, most of the sialic acid can be removed by treatment of the cells with neuraminidase (Vibrio cholerae). By combining isotopic 59Fe-labeling of reticulocytes with countercurrent distribution of the entire red blood cell population in charged dextran-poly(ethylene glycol) aqueous phases we have now studied the relative effect of neuraminidase-treatment on rat reticulocytes and mature erythrocytes. It was found that neuraminidase-treatment (a) does not eliminate surface differences, detectable by partitioning, between rat reticulocytes and erythrocytes and (b) reduces the partition coefficient of mature erythrocytes to a greater extent than the partition coefficient of reticulocytes indicating a differential effect of this enzyme on the two cell populations.     

NMR studies of intracellular free calcium, free magnesium and sodium in the guinea pig reticulocyte and mature red cell

During the maturation process reticulocytes lose their intracellular organelles and undergo changes in membrane lipid composition and ion transport properties. While several reports indicate differences in the levels of magnesium, sodium and calcium in reticulocytes and erythrocytes, controversy remains concerning the actual magnitude and direction of ionic alterations during reticulocyte maturation. One problem with all of these studies is that the techniques used are invasive and are limited to measuring only the total cell ion content. We have used 31P, 23Na and 19F nuclear magnetic resonance (NMR) spectroscopy to compare the intracellular free ion and phosphometabolite levels in guinea pig reticulocytes and mature red blood cells. In contrast to a sharply decreased concentration of ATP in erythrocytes in comparison to reticulocytes, the intracellular free magnesium, measured using 31P-NMR, was increased by about 65% upon maturation (150 mumol/l cell water in reticulocytes in comparison to 250 mumol/l cell water in erythrocytes). Sizeable but opposite changes in intracellular sodium (5.5 mumol/ml cells in reticulocytes vs. 8.5 mumol/ml cells in erythrocytes) and intracellular free calcium (99 nM vs. 31 nM in reticulocytes and mature red cells, respectively) were also observed, suggesting that alterations in the kinetics of membrane ion transport systems, accompanying changes in phospholipid and cholesterol content, occur during the process of red cell maturation. However, in contrast to dog red blood cells, there was no evidence for the presence of a Na+/Ca2+ exchanger in guinea pig reticulocytes or erythrocytes.     

Artificial control of cytoplasmic pH and its bearing on cytoplasmic streaming,electrogenesis and excitability of characeae cells

Effects of changing the cytoplasmic pH on the cytoplasmic streaming, membrane potential and membrane excitability were studied in tonoplast-free cells ofChara australis andNitellopsis obtusa. The cytoplasmic pH was varied by internal perfusion of pH-buffered media.Nitellopsis cells were perfused only once, whileChara cells were perfused twice to control the pH more accurately. In both materials the rate of cytoplasmic streaming was maximum at about pH 7, low at pH 8.5–9 and almost zero at pH 5–5.5. The membrane potential was most negative at about pH 7. InChara the membrane potential supported by Mg·ATP was strongly inhibited at pH 5.5, and almost zero at pH 9, supporting the results obtained by Fujiiet al. (1979) on cells ofChara australis which were perfused once. The action potential could be induced by electrical stimulation inChara at pH 6.0–9.0 and inNitellopsis at pH 6.6–7.9. The membrane resistance ofNitellopsis was high at acidic and neutral pH values and low at alkaline pH, while that ofChara was low at both acidic and alkaline pH values.     

The micronucleus assay with mouse peripheral blood reticulocytes using acridine orange-coated slides.

Ultra-vital staining with acridine orange (AO) is introduced into the micronucleus assay with mouse peripheral blood cells. Peripheral blood was stained vitally by dropping whole blood on an AO-coated slide and covering the sample with a coverslip. With this method, reticulocytes are identified easily by their red fluorescing reticulum structure. The distinction between young and mature erythrocytes was clearer and less subjective than the distinction between polychromatic and normochromatic erythrocytes by Giemsa staining or by conventional AO fluorescent staining. Although the induction of micronucleated peripheral reticulocytes (MNRETs) was delayed by about 12 h compared to that of micronucleated polychromatic erythrocytes (MNPCEs) in the bone marrow, the frequencies of MNRETs and MNPCEs were almost identical at each optimal sampling time. It is concluded that bone marrow cells can be replaced by peripheral blood as material for the micronucleus assay.     

Acid-Sensitive Outwardly Rectifying Anion Channels in Human Erythrocytes

Acid-sensitive outwardly rectifying anion channels (ASOR) have been described in several mammalian cell types. The present whole-cell patch-clamp study elucidated whether those channels are expressed in erythrocytes. To this end whole-cell recordings were made in human erythrocytes from healthy donors treated with low pH and high osmotic pressure. When the pipette solution had a reduced Cl⁻ concentration, treatment of the cells with Cl⁻-containing normal and hyperosmotic (addition of sucrose and polyethelene glycol 1000 [PEG-1000] to the Ringer) media with low pH significantly increased the conductance of the cells at positive voltages. Channel activity was highest in the PEG-1000 media (95 and 300 mM PEG-1000, pH 4.5 and 4.3, respectively) where the current–voltage curves demonstrated strong outward rectification and reversed at −40 mV. Substitution of the Cl⁻-containing medium with Cl⁻-free medium resulted in a decrease of the conductance at hyperpolarizing voltages, a shift in reversal potential (to 0 mV) and loss of outward rectification. The chloride currents were inhibited by chloride channels blockers DIDS and NPPB (IC₅₀ for both was ~1 mM) but not with niflumic acid and amiloride. The observations reveal expression of ASOR in erythrocytes.     

Amiloride-sensitive Na+ transport in human red cells: Evidence for a Na/H exchange system

Summary The role of transmembrane pH gradients on the ouabain, bumetanide and phloretin-resistant Na⁺ transport was studied in human red cells. Proton equilibration through the Jacobs-Stewart cycle was inhibited by the use of DIDS (125 m) and methazolamide (400 m). Red cells with different internal pH (pH _i =6.4, 7.0 and 7.8) were prepared and Na⁺ influx was measured at different external pH (pH _o =6.0, 7.0, 8.0). Na⁺ influx into acid-loaded cells (pH _i =6.4) markedly increased when pH _o was raised from 6.0 to 8.0. Amiloride, a well-known inhibitor of Na⁺/H⁺ exchange systems blocked about 60% of the H⁺-induced Na⁺ entry, while showing small inhibitory effects in the absence of pH gradients. When pH₀ was kept at 8.0, the amiloride-sensitive Na⁺ entry was abolished as pH _i was increased from 6.4 to 7.8. Moreover, measurements of H⁺ efflux into lightly buffered media indicated that the imposition of an inward Na⁺ gradient stimulated a net H⁺ efflux which was sensitive to the amiloride analog 5-N-methyl-N-butyl-amiloride. Furthermore, in the absence of a chemical gradient for Na⁺ (Na _i ⁺ =Na ₀ ⁺ =15mm,Em=+6.7 mV), an outward H⁺ gradient (pH _i =6.4, pH₀=8.0) promoted a net amiloride-sensitive Na⁺ uptake which was abolished at an external pH of 6.0. These findings are consistent with the presence of an amiloride-sensitive Na⁺/H⁺ exchange system in human red cells.     

Plasmodium yoelii: effects of red blood cell modification and antibodies on the binding characteristics of the 235-kDa rhoptry protein

The 235-kDa rhoptry protein of the rodent malaria parasite Plasmodium yoelii yoelii was shown to bind to the surface of mouse red blood cells in a calcium-independent process, using a erythrocyte-binding assay. This binding is affected by modification of the surface of the red blood cells by enzymatic treatment. Chymotrypsin and trypsin but not neuraminidase treatment of the erythrocytes significantly reduced the binding of the 235-kDa proteins. The binding of an unrelated 135-kDa protein was abolished by treatment with chymotrypsin. Although the 235-kDa proteins bind to both reticulocytes and mature red blood cells, the binding to mature cells was more pronounced. In the presence of hyperimmune infection serum or specific polyclonal antibodies to the 235-kDa protein its binding to erythrocytes was reduced, further demonstrating the specificity of this ligand-receptor interaction.     

Stable carbon and nitrogen isotopic discrimination in whole blood of red-throated ant tanagers Habia fuscicauda

Analysis of stable isotope ratios is increasingly used to reconstruct diets in passerine birds, but studies of diet–tissue isotopic discrimination for this avian group are scarce. We determined ¹⁵N and ¹³C diet–tissue discrimination factors on whole blood in the red-throated ant tanager (Habia fuscicauda), an insectivorous–frugivorous passerine. Birds were fed an isotopically uniform, semi-synthetic diet of dog puppy dry food, soy protein isolate, wheat germ, and other ingredients, during 92 days. Average (± SD) diet–tissue discrimination was 2.6 ± 0.2‰ for N and 2.2 ± 0.1‰ for C. Nitrogen diet-tissue discrimination was similar to the values found previously in other passerines fed animal protein and it can probably be used to accurately reconstruct protein dietary origin in passerines feeding on animal protein (e.g., insects). In the case of C, diet reconstruction might be affected by metabolic routing of dietary nutrients.     

Temporal variation of δ<Superscript>13</Superscript>C of larch leaves from a montane boreal forest in Mongolia

This paper reports the temporal variation (2002–2004) in foliar δ¹³C values, which are indicative of long-term integrated photosynthetic and water use characteristics, of Siberian larch (Larix sibirica Ledeb.) trees in a montane forest at Mongonmorit, NE Mongolia. At the stand, the δ¹³C value for understory shaded leaves was more negative by 2‰ on average than that for sunlit leaves sampled concurrently from open and sun-exposed environments in a forest gap. The δ¹³C value of both sunlit and shaded leaves showed pronounced intra- but relatively small inter-seasonal variations. The δ¹³C value was more positive for juvenile than mature leaves. We conjecture that juvenile leaves may derive carbon reserves in woody tissues (e.g., stems). Regardless of leaf habitats, the δ¹³C value was also affected by insect herbivores occurred in mid summer of 2003, being more negative in newly emerging leaves from the twigs after defoliation than in non-defoliated mature leaves. This pattern seems to contrast with that for the juvenile leaves in the early growing season. We surmise that the newly emerging leaves used stored organic carbon that was depleted due to fractionation during remobilization and translocation for leaf regrowth. There was also intra- and inter-seasonal variation in the foliar N concentrations and C:N ratios. A good positive (negative) correlation between the foliar δ¹³C values and N concentrations (C:N ratios) was also observed for both sunlit and shaded leaves, suggesting that the relationship between water and nitrogen use is a crucial factor affecting the plant carbon–water relationship in this mid latitude forest with a cold semiarid climate. Our isotopic data demonstrate that the larches in NE Mongolia exhibits relatively higher water use efficiency with a distinct within-season variability.     

Blood gas parameters and the responses of erythrocytes in carp exposed to deep hypoxia and subsequent recovery

 The quantitative importance of the adrenergic response of carp erythrocytes during severe oxygen restriction is not clear at present. Quantitative differences between in vivo and in vitro studies suggest that the response of carp erythrocytes may be dependent on the actual hypoxic condition. To our knowledge, a clear picture of the blood gas status, erythrocytic responses and catecholamines measured simultaneously in carp exposed to deep severe hypoxia or anoxia has not yet been reported. Therefore, we studied the physiological response of carp exposed to deep hypoxia at 0.3 kPa and subsequent recovery. Carp were fitted with an indwelling cannula in the dorsal aorta for repeated blood sampling and the blood was analysed for hematocrit, hemoglobin, mean cellular hemoglobin content, intra- and extracellular pH, pO₂, pCO₂, total CO₂ and catecholamines. Large fluctuations in arterial pO₂ levels were observed in normoxic control carp, probably caused by the alternating breathing pattern of carp. Even at water pO₂ levels of 0.3 kPa, arterial pO₂ levels were maintained at about 0.2–0.3 kPa. Catecholamine levels were increased during deep hypoxia with noradrenaline as the predominant catecholamine. Hematological variables showed that the number of circulating erythrocytes was increased during hypoxia. The intracellular pH of carp red cells was maintained at pre-exposure values despite a considerable decrease of pH_e. In this in vivo study, a marked decrease of the proton gradient across the red cell membrane (pH_e-pH_i), as high as 0.35 pH units, was observed, which is quantitatively similar to that usually observed in salmonids during hypoxia. It is suggested that the regulation of the carp erythrocytic pH_i is probably caused to a major extent by deoxygenation of hemoglobin (Haldane effect) while adrenergic activation of the red cells is likely to contribute significantly to the observed reduction of the proton gradient. These mechanisms result in the persistence of a capacity for aerobic metabolism in carp of about 10–20% of the energy metabolism despite environmental pO₂ values of 2–3 mm Hg. Accepted: 7 May 1996     

Flow cytometric analysis of blood cells stained with the cyanine dye DiOC1[3]: reticulocyte quantification

The fluorescent dye 3,3'-dimethyloxacarbocyanine (DiOC1[3]) is taken up by all cells in mammalian blood which then fluoresce as follows: mature erythrocytes less than immature erythrocytes congruent to platelets less than leukocytes. A continuous fluorescence distribution can be generated for the red blood cells by flow cytometry and deconvolved into two arbitrary populations, mature and immature erythrocytes (mRBC and imRBC). This analysis mimics the established method of counting imRBC stained with the supravital dyes, new methylene blue, brilliant cresyl blue (BCB), and acridine orange (AO). However, the population of imRBC as quantified by DiOC1[3] fluorescence is a subset of reticulocytes (reticulocytes as determined by BCB assay). The advantages and disadvantages of using DiOC1[3], AO, or pyronine Y as reticulocyte stains are discussed.     

Two monoclonal antibodies highly specific for the blood group N determinant

Two monoclonal IgM antibodies, 179K and 35/5F, obtained following immunization of mice with A₂,MN or O,MN human erythrocytes, agglutinate NN and MN red cells strongly, and MM erythrocytes weakly. As shown by hemagglutination inhibition and solid phase ELISA, both antibodies are highly specific for the blood group N determinant. They react with N glycoprotein, its amino-terminal glycopeptides and with Ss glycoprotein (glycophorin B), which carries the blood group N determinant. They fail to react with M glycoprotein, M glycoprotein-derived glycopeptides, or with internal glycopeptides derived from N glycoprotein. Reaction of the antibodies with N glycoprotein is abolished by desialylation, periodate oxidation/borohydride reduction, orN-acetylation of the glycoprotein. Thus, the antibodies are specific for an epitope which includes sialylated oligosaccharide chain(s) and is located in the region of the amino-terminal leucine residue of N glycoprotein. MMU^– erythrocytes, lacking both blood group N and Ss glycophorin are non-reactive. Agglutination of MMU⁺ erythrocytes by the anti-N antibodies occursvia interaction with glycophorin B and correlates with the Ss phenotype of red cells MM,S erythrocytes are usually more strongly, agglutinated than MM,ss cells. The agglutination of MM erythrocytes decreases markedly as the pH is increased from 6 to 8, while agglutination of NN red cells is much less affected by shifts in pH over this range. As a result, both monoclonal antibodies are highly anti-N specific typing reagents when the agglutination assay is carried out at pH 8.     

Microrheological characteristics of reticulocyte in vivo

Using the method of phenylhydrazine-induced anemia in rabbits, a mass of new reticulocytes, which synchronously grow, were got in vivo. The measurements of deformation index, orientation index, electrophoresis mobility etc. were performed for more than 72 h in the process of reticulocytes turning into red blood cells in vivo. There were obvious changes in the microrheological characteristics of reticulocytes in the course of turning into erythrocytes. The present study is significant in clinic for studying erythrocytes’ microrheological characteristics when there are a lot of reticulocytes in blood, and also important in basic theorem for studying reticulocytes microrheological characteristics. It makes up a deficiency in the study on microrheological characteristics of reticulocytes turning into new RBCs from reticulocytes during reticulocytes life span.     

39K nuclear magnetic resonance and a mathematical model of K+ transport in human erythrocytes

³⁹K nuclear magnetic resonance was used to measure the efflux of K⁺ from suspensions of human erythrocytes [red blood cells (RBCs)], that occurred in response to the calcium ionophore, A23187 and calcium ions; the latter activate the Gárdos channel. Signals from the intra- and extracellular populations of ³⁹K⁺ were selected on the basis of their longitudinal relaxation times, T ₁, by using an inversion- recovery pulse sequence with the mixing time, τ₁, chosen to null one or other of the signals. Changes in RBC volume consequent upon efflux of the ions also changed the T ₁ values so a new theory was implemented to obviate a potential artefact in the data analysis. The velocity of the K⁺ efflux mediated by the Gárdos channel was 1.19±0.40 mmol (L RBC)⁻¹ min⁻¹ at 37°C.     

NMR studies of malaria P nuclear magnetic resonance of blood from mice infected with Plasmodium berghei

High resolution ³¹P-NMR has been used for the non-invasive observation of metabolites and metabolic rates in blood of normal mice and of mice infected with Plasmodium berghei, the causative agent of malaria. ³¹P-NMR was used to quantitate levels of 2,3-diphosphoglycerate in whole cells as a function of the degree of parasitemia and yielded good agreement with the results of enzymatic assays. The time-dependence of ³¹P metabolites was monitored in both normal and infected erythrocytes, greater rates of decay of 2,3-diphosphoglycerate being observed in malarial blood which correlate with the level of parasitemia. Very high metabolic rates of infected cells render measurement of intracellular pH unreliable on freshly drawn whole blood. When appropriate measures are taken to avoid this complication, no difference is observed in the intracellular pH of parasitized and non-parasitized erythrocytes from infected animals. In both normal and parasitized mice the intraerythrocytic pH is more acidic than that of the suspending medium by 0.15 pH unit at 25°C. Unlike free-living protozoa, the parasitic protozoan Plasmodium does not contain detectable levels of phosphonates or polyphosphates, in either whole cells or perchloric acid extracts thereof.     

Characterization of red cell membrane proteins as a function of red cell density: annexin VII in different forms of hereditary spherocytosis

Fresh human blood samples were collected from healthy controls and splenectomized and unsplenectomized patients with hereditary spherocytosis due to band 3 or ankyrin and spectrin deficiency. The erythrocytes were separated into age-related fractions using self-forming Percoll density gradients. Membrane proteins were analysed by 2D electrophoresis and identified by mass spectrometry. Annexin VII was present in reticulocytes but was then lost as the cells matured. A different pattern was found in band 3-deficient samples: annexin VII was in fact present in both mature and immature red cell membranes. Cytoskeletal anomalies may then influence the turn-over of annexin VII during erythrocyte maturation.     

Rat red blood cell hexokinase purification,properties and age-dependence

Summary Rat erythrocytes, in contrast to red blood cells from other mammals, have been shown to contain only one hexokinase isozymic form identified as type I by chromatographic and kinetic properties. Rat reticulocytes contain 3.6-times the hexokinase activity found in mature erythrocytes but exactly the same isozyme. By a combination of ion-exchange chromatography, dye-ligand chromatography and high-pressure liquid chromatography the rat erythrocyte hexokinase was purified more than 84 000-fold to a specific activity of 143 units/mg protein and shown to be homogeneous by sodium dodecyl sulfate-gel electrophoresis. The native protein showed a molecular weight of 100 000 by gel-filtration and an apparent molecular weight of 98 000 under denaturating conditions in sodium dodecyl sulfate-gel electrophoresis. The isoelectric point was shown to be 6.3 pH units. This data provides evidence of only one form of hexokinase in the erythrocytes of a mammal.