Survival of murine carrier erythrocytes injected via peritoneum

Carrier-red blood cells (C-RBC) can be administered by intraperitoneal injection (IP) in mice, and C-RBC survive in circulation as well as cells administered by intravenous injection (IV). There was no difference in the 24 hr post-injection organ distribution of normal RBC and C-RBC, an indication of the normalcy of C-RBC. Approximately 25% of the C-RBC remain in circulation 14 days post-injection indicating a 20-day half-life for C-RBC in mice. This alternate injection method for RBC also allows for extravascular targeting of RBC to peritoneal macrophages.     

Oxidative insult in sheep red blood cells induced by T-butyl hydroperoxide: the roles of glutathione and glutathione peroxidase

Three different types of red blood cells (RBC) were used: (i) RBC from sheep having genetically high GSH (ii) RBC from sheep with genetically low GSH and (iii) RBC from high-GSH sheep treated with CDNB to deplete GSH. Incubation of these RBC with t-butyl hydroperoxide (tBHP, 3 mM) for 10 min caused the formation of TBARS, oxidation of haemoglobin and degradation and aggregation of membrane proteins in RBC from low-GSH sheep and GSH-depleted RBC. By contrast, RBC from high-GSH sheep (normal RBC) did not show the degradation and aggregation of membrane proteins within the first 10 min. Dithiothreitol (DTT) was highly effective in preventing the tBHP-mediated oxidation of haemoglobin, the formation of TBARS and the degradation and aggregation of membrane proteins in both normal RBC and low-GSH RBC. However, DTT did not provide protection in GSH-depleted RBC or normal RBCs in the presence of 1.5 mM mercaptosuccinate (MCS), a potent inhibitor of GSH peroxidase (GSHPx). The ability of GSH to prevent the oxidation of haemoglobin and the degradation and aggregation of membrane proteins was abolished in the presence of MCS. These results indicate that the protective function of DTT involves a GSH-dependent mechanism. Both GSH and GSHPx play key roles in this enzymatic system. In the light of the complete protection of RBC against oxidation induced by tBHP in the presence of DTT or GSH, the GSH/GSHPx system appears to act directly as a tBHP scavenger. The activities of four well-known antioxidants, Butylated hydroxytoluene, ascorbate, alpha-tocopherol and desferrioxamine were also tested in this study to cast further light on the role of free radical scavenging in protection from tBHP mediated free radical insult.     

Effect of Type of Red Blood Cells on Antistreptolysin O Titer

Antistreptolysin O (ASO) titers were determined on 117 human sera with rabbit, human, and sheep red blood cells (RBC) as the indicator system in the ASO tube test. The titers of 65% of the sera were one dilution step higher when a 5% suspension of sheep RBC was used instead of a 5% suspension of rabbit RBC. Titers were one dilution step higher in 42.7% of the sera when a 5% suspension of human RBC was used instead of a 5% suspension of rabbit RBC. The best comparability of titers was between a 5% suspension of human RBC and a 2.5% suspension of sheep RBC.     

Studies of the antigenicity and immunogenicity of bromelain-pretreated red blood cells

The effects of the proteolytic enzyme bromelain (Br) on the antigenicity and immunogenicity of sheep and mouse red blood cells (RBC) have been investigated. The results presented support the previous claim that there are antigens present on Br RBC that are not present in an exposed form on untreated RBC and that Br RBC have lost some of the antigens present on the surface of normal RBC. The susceptibility of Br RBC to osmotic lysis was very similar to that of normal RBC, implying that the modified RBC were not more fragile than normal RBC. Injection of mice with Br mouse-RBC did not increase the unusually high "background" number of cells producing IgM antibodies against Br mouse-RBC and mice did not mount delayed-type hypersensitivity reactions against Br mouse-RBC, either before or after sensitizing injections of Br mouse-RBC. However, mouse-RBC and Br mouse-RBC elicited similar antibody responses in rabbits and guinea pigs. Although mice appeared unresponsive to Br mouse-RBC injections, delayed-type hypersensitivity responses and antibody production in primary and secondary responses were of similar levels irrespective of whether sheep-RBC or Br sheep-RBC were used as immunogens. From these studies it appears that mice have B-cells producing antibodies against the "new" antigens on Br mouse-RBC, but there are no T-cells that respond to these antigens by way of "helper" activity in antibody production or by way of cell-mediated immune reactions.     

High activity antioxidant enzymes protect flying-fox haemoglobin against damage: an evolutionary adaptation for flight?

Flying-foxes are better able to defend haemoglobin against autoxidation than non-volant mammals such as sheep. When challenged with the common physiological oxidant, hydrogen peroxide, haemolysates of flying-fox red blood cells (RBC) were far less susceptible to methaemoglobin formation than sheep. Challenge with 1-acetyl-2-phenylhydrazine (APH) caused only half as much methaemoglobin formation in flying-fox as in ovine haemolysates. When intact cells were challenged with phenazine methosulfate (PMS), flying-fox RBC partially reversed the oxidant damage, and reduced methaemoglobin from 40 to 20% over 2 h incubation, while ovine methaemoglobin remained at 40%. This reflected flying-fox cells’ capacity to replenish GSH fast enough that it did not deplete beyond 50%, while ovine RBC GSH was depleted to around 20%. The greater capacity of flying-foxes to defend haemoglobin against oxidant damage may be explained in part by antioxidant enzymes catalase, superoxide dismutase and cytochrome-b ₅ reductase having two- to four-fold higher activity than in sheep (P < 0.001). Further, their capacity to limit GSH depletion to 50% and reduce methaemoglobin (in the presence of glucose), despite ongoing exposure to PMS may result from having ten-fold higher activity of G6PD and 6PGD than sheep (P < 0.001), indicating the presence of a very efficient pentose phosphate pathway in flying-foxes.     

Immunosuppression by spleen cells from Moloney leukemia. III. Evidence for a suppressor cell that is not the leukemic, virus-producing cell.

Spleens of mice bearing MuLV (Moloney)-induced leukemia contain cells that inhibit the antibody response of normal syngeneic lymphocytes to sheep RBC in Marbrook cultures. In order to determine whether these immunosuppressive cells are virus-infected tumor cells or normal cells we pretreated leukemic spleen cell suspensions with syngeneic mouse antiserum to Moloney leukemia antigen(s) (plus complement) and with rat anti-Moloney serum (plus complement). The cytotoxic treatment killed approximately 20% to 30% and 60% to 70% of the cells, respectively. The remaining viable cell population was tested for MuLV production (in an infectious center assay on S+L-fibroblasts), for lethal effect on newborn mice, and for immunosuppressive activity. After the treatment with anti-Moloney sera the number of MuLV-releasing cells decreased 10-fold and the leukemogenic potential in vivo decreased 100-fold as compared to leukemic spleen cells pretreated with nonimmune mouse and rat sera (plus complement). In contrast, the ability of the antisera-treated cells to inhibit anti-SRBC response remained undiminished. This indicates that, in part, the immunosuppressive cells in the leukemic spleen are normal, noninfected cells, involved, perhaps, in immune regulation.     

Chromium-51 labeling of sheep red blood cells.

The failure of sheep red blood cells (RBCs) labeled with Chromium-51 (Cr-51) using the ascorbic acid technique to act as a suitable intravascular marker of blood volume in a septic sheep model prompted us to investigate the technique of radiolabeling sheep erythrocytes with this isotope. Consequently, we studied thirteen sheep in which the labeling efficiency of Cr-51 as sodium chromate and hemoglobin typing was determined for each animal. Mean Cr-51 labeling efficiency of sheep RBCs was 67.5% (n = 13). Although 5 of the 13 sheep were discovered to have two types of hemoglobin (Hb) as determined by electrophoresis, overall labeling efficiency of sheep RBCs was determined to be independent of the type of hemoglobin present. However, when two types of Hb were present (Hb-A and Hb-B), Cr-51 had a higher affinity for Hb-B (80%) than Hb-A (20%) even though both Hb types are present in similar proportions (Hb-A = 53%, Hb-B = 46%). The results of this study indicate that sheep RBCs express a lower labeling efficiency for Cr-51 than do human RBCs and that Cr-51 has a higher affinity for Hb-B than for Hb-A when both hemoglobin types are present. This difference is noteworthy when interpreting Cr-51 RBC data in experimental sheep models. Furthermore, caution should be exercised when extrapolating established human protocols to animal models.     

Human autologous rosette-forming cells. III. Binding of erythrocytes from different species to the T-cell receptors for autologous red blood cells

Spontaneous rosette formation in humans is restricted to a subpopulation of the circulating T cells. We have previously shown that the interaction between lymphocytes and autologous red blood cells (auto-RBC) is not mediated by a self-recognition mechanism, since allogeneic (allo-) RBC bind to T cells through the same receptors. In this work, we have extended these observations to thymocytes. Using a mixed-rosette assay in which one type of erythrocyte was identified by FITC labeling, we have shown that almost all the thymocytes which attached auto-RBC could also fix allo-RBC. However, as for the peripheral blood lymphocytes (PBL), binding of human RBC to thymocytes occurred with varying affinities according to the erythrocyte's origin. In order to further study the specificity of the erythrocyte to lymphocyte binding in rosette formation, PBL were mixed with auto-RBC and erythrocytes of xenogeneic (xeno-) origin. Although very disparate incidences of rosettes were found according to the species from which the RBC were derived, most of the autorosetting lymphocytes also had receptors for xeno-RBC. In addition, preincubation of PBL with monoclonal antibody OKT11A (directed against the sheep RBC receptors on T cells) completely abrogated rosette formation with all the erythrocytes tested (human auto- and allo-, sheep, pig, and rabbit) except mouse RBC. Taken together these data strongly suggest that human auto- or allo-, as well as sheep or some other xeno-RBC, bind to T lymphocytes by a single receptor and that the combining sites are expressed with different densities or varying affinities depending upon the RBC's origin. Therefore, spontaneous autorosettes may represent T lymphocytes having high-affinity receptors for sheep RBC.     

Occurrence of hemolytic activity in the skin secretion of the caecilian siphonops paulensis.

The skin secretion of the caecilian Siphonops paulensis (SpSS) induces a time-and dose-dependent hemolytic response on red blood cells (RBC). When RBC from various animals species were subjected to the action of SpSS, a range of sensitivities was evident, sheep erythrocytes being the most susceptible, human, mouse and rabbit having moderate susceptibility, cow, snake and toad erythrocytes being more resistant, while S. paulensis RBC were entirely resistant. The hemolytic activity of SpSS was inhibited at temperatures higher than 60 degrees C. Both trypsin- and chymotrypsin-treated SpSS were ineffective in inducing RBC lysis. The treatment of SpSS with sheep RBC ghosts reduced its activity. There is no phospholipase activity in the SpSS.     

Oxidative status of valinomycin-resistant normal, beta-thalassemia and sickle red blood cells

Exposure of red blood cells (RBC) to the K+ -ionophore valinomycin (val), causes loss of KCl and water, resulting in cell dehydration, manifested by increased cell density. While almost all normal val-treated RBC dehydrate, in sickle cell anemia (SCA) a portion of the RBC fail to dehydrate and maintain a light density, indicating the existence of val-resistant (val-res) RBC. In thalassemia and sickle cell disease (SCD), although the primary lesion is in the globin genes, damage to the RBC is partly mediated by oxidative stress. We previously showed that such RBC are under oxidative stress, having more reactive oxygen species (ROS) and less reduced glutathione than normal RBC. We now report a relationship between the phenomenon of val-res and the RBC oxidative status: Treatment with oxidants that increase ROS, also increased the frequency of val-res cells. Val-res cells had higher oxidative status than other RBC in the sample. Similar to SCA, thalassemic blood has more val-res cells than does normal blood. Val-res cells in thalassemic and sickle blood showed a higher oxidative status than normal val-res cells. Thus, oxidative stress might be involved in generation of val-res cells. Further studies are required to elucidate the origin and significance of these cells.     

Experimental erythrocyte autoantibodies. V. Induction and suppression of red blood cell autoantibodies in mice injected with rat bromelain-treated red blood cells

Mice injected with rat red blood cells (RBC), or rat bromelain-treated (brom) RBC, produce RBC autoantibodies and suppressor cells that specifically inhibit the autoimmune response without inhibiting the net production of antibodies against rat RBC. It has been investigated whether suppressor cells induced by injections of rat RBC are effective in preventing autoantibody production induced by rat brom RBC and vice versa. Autoantibodies were induced in C3H mice by weekly ip injections, each 0.2 ml, of a 6% suspension of rat RBC or rat brom RBC. Autoantibody production was assayed using Coombs' test. Suppressor cells were present in the spleens of mice positive in Coombs' tests and were shown by intravenous injections of 40 X 10(6) viable cells per mouse into untreated syngeneic mice 18 hr before the first injection of rat RBC or rat brom RBC. Autoantibodies eluted from mice positive in Coombs' tests after injections of rat RBC or brom RBC were absorbed by either type of rat RBC but not by RBC from sheep. This suggests that rat RBC and rat brom RBC display antigens that are similar, if not identical, to autoantigens on the mouse RBC. Spleen cells from mice injected with rat RBC suppressed autoantibodies induced by both rat RBC and rat brom RBC. In contrast, spleen cells from mice injected with rat brom RBC suppressed autoantibodies induced by rat brom RBC but not those induced by unmodified rat RBC. This differential suppression may be due to the removal from rat RBC, by bromelain, of a suppressor site and/or autoantigens of some specificities. Thus rat brom RBC may not induce the total range of specificities of autoantibodies, and of suppressor cells, induced by rat RBC.     

Haemolysis of human and sheep red blood cells in glycerol media: the effect of pH and the role of band 3

Haemolysis of red blood cells (RBC) in glycerol media may be measured spectrophotometrically. The haemolytic process in a rapid phase obeys a first order rate law. The rate constant expresses the rate of haemolysis. To gain a better understanding of the mechanism of haemolysis in glycerol media, the effects of pH and band 3 inhibitors on the rate of haemolysis in human and sheep RBC were observed. Over the pH range used (pH 5.8-10.0), the rate of haemolysis decreased with increase in pH in sheep RBC. By contrast, the rate of haemolysis increased from pH 5.8 to 6.4 and decreased above pH 6.4 in human RBC. The different effects of pH on the rate of haemolysis are due to inhibition of glycerol permeability by H(+) in human RBC but not in sheep RBC. This is supported by the different effects of temperature and Cu(2+) on the rate of haemolysis in human and sheep RBC. We did not observe complete inhibition of haemolysis by the classical band 3 inhibitor, 4, 4'-diisothiocyanatostilbene-2,2'-disulfonic acid (DIDS). Another band 3 inhibitor 4,4'-dinitrostilbene-2,2'-disulfonic acid (DNDS) showed only weak inhibition. Phenylgloxal (PG), another band 3 inhibitor, had no effect whatsoever on the rate of haemolysis. These results indicate that the anion pathway of band 3 is not the preferred route of transport of glycerol in mammalian RBC.     

Oxidative status of valinomycin-resistant normal, β-thalassemia and sickle red blood cells

Exposure of red blood cells (RBC) to the K⁺-ionophore valinomycin (val), causes loss of KCl and water, resulting in cell dehydration, manifested by increased cell density. While almost all normal val-treated RBC dehydrate, in sickle cell anemia (SCA) a portion of the RBC fail to dehydrate and maintain a light density, indicating the existence of val-resistant (val-res) RBC. In thalassemia and sickle cell disease (SCD), although the primary lesion is in the globin genes, damage to the RBC is partly mediated by oxidative stress. We previously showed that such RBC are under oxidative stress, having more reactive oxygen species (ROS) and less reduced glutathione than normal RBC. We now report a relationship between the phenomenon of val-res and the RBC oxidative status: Treatment with oxidants that increase ROS, also increased the frequency of val-res cells. Val-res cells had higher oxidative status than other RBC in the sample. Similar to SCA, thalassemic blood has more val-res cells than does normal blood. Val-res cells in thalassemic and sickle blood showed a higher oxidative status than normal val-res cells. Thus, oxidative stress might be involved in generation of val-res cells. Further studies are required to elucidate the origin and significance of these cells.     

Simple and accurate determination of bisphenol A in red blood cells prepared with basic glycine buffer using liquid chromatography-electrochemical detection

For an accurate determination of bisphenol A (BPA) in red blood cells (RBC), the effect of pH on the concentration of BPA was investigated. Also, BPA recovery using ferric heme, methemoglobin (metHb) and hematin, were investigated to confirm whether BPA binds to ferric heme. BPA recovery in hemolysate was high at alkaline pH and was very low at acidic pH where oxyHb changed to metHb. BPA recovery decreased dose-dependently in metHb and hematin, but inorganic iron ions did not influence the recovery. These results suggested that BPA could be bound to ferric heme in RBC. The use of glycine-NaOH buffer (pH 11) as well as plasma had the highest recovery (97%). BPA was not detected in red blood cells of healthy adult volunteers (n=6). In sheep blood contaminated with BPA, BPA was detected in both plasma and RBC (10 times lower than in plasma), indicating that BPA could have migrated from plasma into RBC.     

Membrane characteristics of old and Rauscher leukemia virus infected mouse red blood cells

Some membrane characteristics of normal and Rauscher leukemia virus (RLV)-infected mouse red blood cells (RBC) were compared, both with regard to total populations and young and old groups of cells. Osmotic fragility, density distribution of cells and agglutinability by poly- -lysine (pLys), concanavalin A (ConA), phytohemagglutinin (PHA) and soybean agglutinin (SBA), were examined. RBC from RLV-infected mice were agglutinated at a higher rate and to a higher degree than normal mice RBC by pLys and by the lectins PHA and ConA. These RBC were generally osmotically more resistant and contained a young cell population of unusually high specific gravity. Comparison of RBC from RLV-infected mice with old RBC from normal mice showed some common membrane characteristics. Similarly to old RBC, RBC from RLV-infected mice have a high specific gravity and high agglutinability by pLys. However, they differ in that the RBC from RLV-infected mice are osmotically more resistant and are agglutinated by ConA; they are also agglutinated at a higher rate by PHA.     

Bcl-2 antibodies induce hemoglobin release by red blood cells loaded with in vitro translated Bcl-2 and its cleaved fragment

Apoptosis induced by proteasome inhibitor in human THP-1 leukemia cells is associated with the cleavage of Bcl-2 into a shortened fragment, Bcl-2/Delta34. Both Bcl-2 and its cleaved fragment were located exclusively on the mitochondria of THP-1 cells. No translocation of Bcl-2 or Bcl-2/Delta34 to the cytosolic fraction was detected during apoptosis. Treatment of isolated mitochondria with recombinant caspase-3 induced the same cleavage of Bcl-2 in vitro and triggered the release of cytochrome c from the mitochondria. The ability of Bcl-2/Delta34 in regulating the opening of membrane "pores" was investigated using a sheep red blood cell (RBC) model with in vitro translated Bcl-2/Delta34 and Bcl-2 proteins. Bcl-2 and Bcl-2/Delta34 generated in vitro were relocated rapidly to sheep RBC but caused no hemoglobin release in either case. Addition of anti-Bcl-2 antibodies directly to the RBC that had been loaded with either Bcl-2 or Bcl-2/Delta34 resulted in a rapid release of hemoglobin from the blood cells. Treatment of the sheep RBC with anti-Bcl-2 or anti-sheep RBC antibodies alone did not trigger hemoglobin release from the RBC. Based on these findings, we proposed that, upon "enforced aggregation," both Bcl-2 and Bcl-2/Delta34 can form "pores" in membranes, which may contribute to the release of cytochrome c in apoptosis.     

Transport of erythrocytes by gliding cells ofMycoplasma mobile 163K

Gliding cells ofMycoplasma mobile 163K are able to transport attached sheep erythrocytes (RBC). The interaction between the mycoplasmas and the RBC was microscopically investigated with Nomarski interference-contrast microscopy and documented by microcine-matography and sequences of single-frame photomicrographs. Two morphological types of attachment are described, and the strength of interaction is calculated.     

The effects of cholesterol oxidation products in sickle and normal red blood cell membranes.

The oxysterol content in normal and sickle red blood cell (RBC) membranes was assessed using thin-layer chromatography and capillary gas chromatography/mass spectrometry. Several more oxysterols were present in sickle RBCs compared to normal RBCs. Sickle RBC membranes had a higher concentration of 5 alpha,6 alpha-epoxycholesterol, 5 alpha-cholestane-3 beta,5,6 beta-triol, 7-ketocholesterol and 19-hydroxycholesterol than normal RBC membranes. The increased oxysterols in sickle RBC may be an effect of the increased oxidative stress which occurs in sickle RBC membranes. Physical characteristics of normal and sickle RBC membrane ghosts with and without inserted oxysterols were examined by Fourier transform infrared spectroscopy. The data are consistent with a greater sterol content in sickle cells compared to normal RBC membranes, and a possible oxysterol-cholesterol synergism.     

Accurate determination of mean cell volume by isotope dilution in erythrocyte populations with variable deformability.

Variations in erythrocyte deformability and morphology lead to artifacts in electronic determinations of mean cellular volume (MCV) by the aperture-impedance method. The micropipette-aspiration technique loses accuracy when applied to severely aberrant cells such as dense sickle cells. A new light-scattering technique requires that the cells be capable of undergoing isovolumetric sphering. In contrast, the isotope-dilution (ID) method measures absolute mean volume and is free of artifacts associated with abnormal deformability or morphology. It does not depend on any algorithms or correction factors and does not subject the cells to any stringent processing, not even centrifugation. The ID method can be used to determine the mean volume of red cells in hypo- or hypertonic media or in the presence of pharmacologic agents. It requires no more than a 1-ml aliquot of suspended cells at a hematocrit of at least 30%. The cells can be readily recovered, washed, and reused. Using EDTA labeled with 57Co as an extracellular space marker we have used ID to determine the MCV of fractionated normal human red blood cells (RBC), unfractionated RBC containing SS hemoglobin, and RBC from four other mammalian species. In the case of human RBC obtained from eight normal donors, we obtained mean MCV values (+/- SD) of 83.6 +/- 3.0, 87.5 +/- 3.9, and 76.5 +/- 5.3 fl for unfractionated and top and bottom 10% density fractions, respectively. The value 83.6 is significantly lower than the generally accepted range of 89-91 indicated by electronic analyzers calibrated against spun microhematocrits. The discrepancy of about 7% can account for the difference between mean cell hemoglobin concentration (MCHC) data determined by a calibrated Coulter Counter and corresponding data obtained with paired samples using a cyanmethemoglobin procedure specified in NCCLS Standard H15-A and corrected for trapped plasma.     

Comparative studies of the protein composition of red blood cell membranes from eight mammalian species

The polypeptide pattern of red blood cell (RBC) membranes from cow, sheep, horse, rabbit, guinea pig, rat, mouse, analyzed by polyacrylamide gel electrophoresis, was compared to human RBC counterpart. Some qualitative and quantitative differences were noted. Among the high molecular weight components the bands 2.1- 2.3 appeared slightly decreased in rabbit and rat and increased in sheep RBC membranes. Band 3 appeared to have a higher molecular weight in the cow, guinea pig and mouse RBCs, and a lower molecular weight in the sheep RBCs. Band 4.1 from the RBC membranes of cow, sheep, rabbit and guinea pig was splitted into two sub-bands, while band 4.2 overlapped with band 4.1 in horse and guinea pig RBC membranes. There are marked differences in the number and position of bands in the 4.5 region, while band 4.9 is present in higher amounts in horse, rabbit and guinea pig RBC membranes. Band 6 (glyceraldehyde 3-phosphate dehydrogenase) was undetectable in horse, rat and mouse RBC membranes and was decreased in sheep, rabbit and guinea pig. There are also major differences in the region of band 7 and below ("post-7"). Band 8 was undetectable in horse, cow and guinea pig, and was in higher amounts in rat. A band corresponding to a molecular weight of about 22 kD in the "post-8" region was present only in guinea pig RBC membranes.