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Defective assembly of membrane proteins in erythroid precursors of beta- thalassemic mice (1994)

Yuan, J ; Rubin, E ; Aljurf, M ; [et al.]

American Society of Hematology

In: Blood. 1994; 84(2): 632-637. Published 1994 Jul 15. doi: 10.1182/blood.v84.2.632.632.

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Publication Date: 1994-07-15

Description: beta-Thalassemic mice provide a useful model for studying the pathophysiology of human beta-thalassemia in that one can perform experiments that are difficult to perform in humans. The ease of access to beta-thalassemic mouse marrow provided the opportunity to explore the cause of the ineffective erythropoiesis that characterizes severe beta-thalassemia in mouse and man. We hypothesized that the accumulation of excess alpha-globin might interfere with the normal assembly of red blood cell (RBC) membrane proteins, thus contributing to the severe intramedullary lysis. Femoral marrow was obtained from normal and beta-thalassemic mice, and RBC precursors were purified (〉 90%) by panning and harvesting CD45- cells. The assembly of RBC membrane proteins was assessed by observing immunofluorescence patterns obtained on fixed permeabilized precursors using rabbit polyclonal antibodies directed against human spectrin, and band 4.1, and murine band 3. The distribution of the proteins was shown with a fluorescein- tagged goat antirabbit antibody. In contrast to normal mice, about 30% of intermediate and late stage erythroblasts in beta-thalassemic mice appear abnormal. Neither spectrin nor band 4.1 formed crisp rim fluorescence in these erythroid precursors of thalassemic mice, whereas assembly of band 3 appeared normal. Therefore, the assembly of membrane skeletal proteins is abnormal in murine beta-thalassemic erythroid precursors perhaps because of the deposition of unmatched alpha-globin chains.

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Myosin content and distribution in human neonatal erythrocytes are different from adult erythrocytes (1991)

Colin, FC ; Schrier, SL

American Society of Hematology

In: Blood. 1991; 78(11): 3052-3055. Published 1991 Dec 01. doi: 10.1182/blood.v78.11.3052.3052.

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Publication Date: 1991-12-01

Description: Neonatal erythrocytes (N-RBC) are different from adult erythrocytes (A- RBC). N-RBC are larger, less deformable, and undergo enhanced spontaneous and drug-induced endocytosis. The reticulocyte population of N-RBC is also different, consisting primarily of the youngest (R1) reticulocytes that are motile and capable of receptor-mediated endocytosis. Processes such as motility could require a contractile system. Myosin, a contractile protein, was identified in both A-RBC and N-RBC. We proposed to compare myosin content and distribution in A-RBC and N-RBC by immunofluorescence and enzyme-linked immunosorbent assay (ELISA) using a monospecific polyclonal rabbit antimyosin. There was bright immunofluorescence on 44% of N-RBC with some heterogeneity contrasting with a barely detectable fluorescence on A-RBC. ELISA measurements showed that A-RBC had 4,315 myosin copies/RBC, whereas N- RBC had 10,855 copies/RBC (or 2.5 times as much). ELISA measurements of white ghosts showed that A-ghosts contained 1,250 copies of myosin/RBC (29% of total) whereas N-ghosts contained 3.4 times as much at 4,320 copies/RBC (39% of total). Therefore, N-RBC not only have more myosin, but the amount that is membrane-associated is disproportionately increased. It is proposed that such differences in amount and distribution of myosin could account for some of the unusual properties of neonatal RBC indicated.

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Globin-chain specificity of oxidation-induced changes in red blood cell membrane properties (1992)

Schrier, SL ; Mohandas, N

American Society of Hematology

In: Blood. 1992; 79(6): 1586-1592. Published 1992 Mar 15. doi: 10.1182/blood.v79.6.1586.1586.

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Publication Date: 1992-03-15

Description: We have previously shown that excess unpaired alpha- and beta-globin chains in severe alpha- and beta-thalassemia interacting with the membrane skeleton induce different changes in membrane properties of red blood cells (RBCs) in these two phenotypes. We suggest that these differences in membrane material behavior may reflect the specificity of the membrane damage induced by alpha- and beta-globin chains. To further explore this hypothesis, we sought in vitro models that induce similar membrane alterations in normal RBCs. We found that treatment of normal RBCs with phenylhydrazine produced rigid and mechanically unstable membranes in conjunction with selective association of oxidized alpha-globin chains with the membrane skeleton, features characteristic of RBCs in severe beta-thalassemia. Methylhydrazine, in contrast, induced selective association of oxidized beta-globin chains with the membrane skeleton and produced rigid but hyperstable membranes, features that mimicked those of RBCs in severe alpha- thalassemia. These findings suggest that consequences of oxidation induced by globin chains are quite specific in that those agents that cause alpha-globin chain accumulation at the membrane produce rigid but mechanically unstable membranes, whereas membrane accumulation of beta- globin chains results in rigid but mechanically stable membranes. These in vitro experiments lend further support to the hypothesis that membrane-associated alpha- and beta-chains induce oxidative damage to highly specific different skeletal components and that the specificity of this skeletal damage accounts for the differences in material membrane properties of these oxidatively attacked RBCs and perhaps of alpha- and beta-thalassemic RBCs as well.

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Oxidative red blood cell membrane injury in the pathophysiology of severe mouse beta-thalassemia (1992)

Advani, R ; Rubin, E ; Mohandas, N ; [et al.]

American Society of Hematology

In: Blood. 1992; 79(4): 1064-1067. Published 1992 Feb 15. doi: 10.1182/blood.v79.4.1064.bloodjournal7941064.

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Publication Date: 1992-02-15

Description: In severe human beta-thalassemia, the pathophysiology relates to accumulation of excess alpha-globin chains at the membrane. One hypothesis is that membrane-associated alpha-globin by virtue of it's iron or hemichromes produces oxidation of adjacent membrane proteins. The availability of a mouse model of severe beta-thalassemia, as well as a transgenic (thalassemic-sickle) mouse that expresses 12% of human beta s-chain, has allowed us to study the effect of graded accumulation of alpha-chains at the red blood cell (RBC) membrane on the clinical status of the animal and on the material properties of its RBCs. Proteins from control, beta-thalassemic, and transgenic mouse RBC membranes were analyzed for evidence of oxidation, as measured by thiol- disulfide exchange chromatography, which detects intramolecular sulfhydryl oxidation. Ratios of oxidized globin to protein 7 were calculated and increased amounts were seen in thalassemic mice as compared with control mice and transgenic mice. Furthermore, there were increased amounts of thiol-free protein 4.1 in the thalassemic mice, compared with very small amounts in the control mice and intermediate amounts in the transgenic mice. Membrane mechanical stability as assessed by ektacytometry showed that the thalassemic mouse RBCs were markedly unstable. Transgenic mouse RBCs showed intermediate levels of membrane instability compared with the controls. We propose that this oxidized globin, in conjunction with oxidized protein 4.1, accounts (at least in part) for membrane instability. A 12% increase in beta s- globin chain synthesis (by decreasing excess globin available) confers considerable protection against both oxidative damage and the consequent membrane instability.

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Globin-chain specificity of oxidation-induced changes in red blood cell membrane properties (1992)

Schrier, SL ; Mohandas, N

American Society of Hematology

In: Blood. 1992; 79(6): 1586-1592. Published 1992 Mar 15. doi: 10.1182/blood.v79.6.1586.bloodjournal7961586.

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Publication Date: 1992-03-15

Description: We have previously shown that excess unpaired alpha- and beta-globin chains in severe alpha- and beta-thalassemia interacting with the membrane skeleton induce different changes in membrane properties of red blood cells (RBCs) in these two phenotypes. We suggest that these differences in membrane material behavior may reflect the specificity of the membrane damage induced by alpha- and beta-globin chains. To further explore this hypothesis, we sought in vitro models that induce similar membrane alterations in normal RBCs. We found that treatment of normal RBCs with phenylhydrazine produced rigid and mechanically unstable membranes in conjunction with selective association of oxidized alpha-globin chains with the membrane skeleton, features characteristic of RBCs in severe beta-thalassemia. Methylhydrazine, in contrast, induced selective association of oxidized beta-globin chains with the membrane skeleton and produced rigid but hyperstable membranes, features that mimicked those of RBCs in severe alpha- thalassemia. These findings suggest that consequences of oxidation induced by globin chains are quite specific in that those agents that cause alpha-globin chain accumulation at the membrane produce rigid but mechanically unstable membranes, whereas membrane accumulation of beta- globin chains results in rigid but mechanically stable membranes. These in vitro experiments lend further support to the hypothesis that membrane-associated alpha- and beta-chains induce oxidative damage to highly specific different skeletal components and that the specificity of this skeletal damage accounts for the differences in material membrane properties of these oxidatively attacked RBCs and perhaps of alpha- and beta-thalassemic RBCs as well.

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Characterization and comparison of the red blood cell membrane damage in severe human alpha- and beta-thalassemia (1992)

Advani, R ; Sorenson, S ; Shinar, E ; [et al.]

American Society of Hematology

In: Blood. 1992; 79(4): 1058-1063. Published 1992 Feb 15. doi: 10.1182/blood.v79.4.1058.bloodjournal7941058.

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Publication Date: 1992-02-15

Description: The aim of the present work was to understand the pathophysiology of the severe human thalassemias as represented by beta-thalassemia intermedia and hemoglobin (Hb) H (alpha-thalassemia) disease. We have previously shown that the material properties of the red blood cell (RBC) and its membrane differ in severe alpha- and beta-thalassemia, and we now show that this difference is probably caused by accumulation of alpha-globin chains at the cytoskeleton in beta-thalassemia, whereas beta-globin chains are associated with the cytoskeleton in alpha- thalassemia. In both alpha- and beta-thalassemia, some of these globin chains have become oxidized as evidenced by loss of the free thiols. Furthermore, there is similar evidence of oxidation of protein 4.1 in beta-thalassemia, whereas beta-spectrin appears to be subject to oxidation in alpha-thalassemia. These observations support the idea that the association of partly oxidized globin chains with the cytoskeleton results in oxidation of adjacent skeletal proteins. The abnormality of protein 4.1 in beta-thalassemia is consistent with a prior observation, and is also in accord with the known importance of protein 4.1 in maintenance of membrane stability, a property that is abnormal in beta-thalassemic membranes.

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7

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Myosin content and distribution in human neonatal erythrocytes are different from adult erythrocytes (1991)

Colin, FC ; Schrier, SL

American Society of Hematology

In: Blood. 1991; 78(11): 3052-3055. Published 1991 Dec 01. doi: 10.1182/blood.v78.11.3052.bloodjournal78113052.

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Publication Date: 1991-12-01

Description: Neonatal erythrocytes (N-RBC) are different from adult erythrocytes (A- RBC). N-RBC are larger, less deformable, and undergo enhanced spontaneous and drug-induced endocytosis. The reticulocyte population of N-RBC is also different, consisting primarily of the youngest (R1) reticulocytes that are motile and capable of receptor-mediated endocytosis. Processes such as motility could require a contractile system. Myosin, a contractile protein, was identified in both A-RBC and N-RBC. We proposed to compare myosin content and distribution in A-RBC and N-RBC by immunofluorescence and enzyme-linked immunosorbent assay (ELISA) using a monospecific polyclonal rabbit antimyosin. There was bright immunofluorescence on 44% of N-RBC with some heterogeneity contrasting with a barely detectable fluorescence on A-RBC. ELISA measurements showed that A-RBC had 4,315 myosin copies/RBC, whereas N- RBC had 10,855 copies/RBC (or 2.5 times as much). ELISA measurements of white ghosts showed that A-ghosts contained 1,250 copies of myosin/RBC (29% of total) whereas N-ghosts contained 3.4 times as much at 4,320 copies/RBC (39% of total). Therefore, N-RBC not only have more myosin, but the amount that is membrane-associated is disproportionately increased. It is proposed that such differences in amount and distribution of myosin could account for some of the unusual properties of neonatal RBC indicated.

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Mechanisms of amphipath-induced stomatocytosis in human erythrocytes (1992)

Schrier, SL ; Zachowski, A ; Devaux, PF

American Society of Hematology

In: Blood. 1992; 79(3): 782-786. Published 1992 Feb 01. doi: 10.1182/blood.v79.3.782.bloodjournal793782.

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Publication Date: 1992-02-01

Description: We studied stomatocytosis induced in human red blood cells (RBC) by vinblastine and chlorpromazine, monitoring the movements of spin- labeled phosphatidylcholine (PC*) and sphingomyelin (SM*) by electron spin resonance (ESR) spectroscopy. This technique allows determination of the fraction of labeled lipids, respectively, on the external leaflet, on the cytosol face, or trapped in endocytic vacuoles. Both vinblastine and chlorpromazine produce a time- and concentration- dependent stomatocytic shape change, which is paralleled by a shift of approximately 10% to 33% of outer leaflet SM* and PC* inward. Of this amount, 8% to 12% was trapped in endocytic vacuoles and 8% to 19% had flipped to the inner leaflet. Vanadate, while inhibiting the stomatocytosis, did not block the flip of either SM* or PC* to the inner leaflet. To explain the inhibiting effect of vanadate, as well as the adenosine triphosphate (ATP) requirement for drug-induced stomatocytosis, we propose the following model: (1) addition of amphipath partially scrambles the bilayer; and (2) the flop of phosphatidylserine (PS) and phosphatidylethanolamine (PE) to the outer leaflet provides substrate for the aminophospholipid translocase (APLT), which flips back PS and PE inward faster than PC or SM can diffuse outward--thereby producing inner layer expansion or stomatocytosis. This role of APLT accounts for the vanadate inhibition of amphipath stomatocytosis. However, the vanadate effect can be overcome by increasing the amphipath concentration, which at such levels probably passively expands the inner leaflet.

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Accelerated programmed cell death (apoptosis) in erythroid precursors of patients with severe beta-thalassemia (Cooley's anemia) [see comments] (1993)

Yuan, J ; Angelucci, E ; Lucarelli, G ; [et al.]

American Society of Hematology

In: Blood. 1993; 82(2): 374-377. Published 1993 Jul 15. doi: 10.1182/blood.v82.2.374.bloodjournal822374.

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Publication Date: 1993-07-15

Description: The profound and life-threatening anemia in patients with Cooley's anemia is ascribed primarily to intramedullary hemolysis (ineffective erythropoiesis), the cause of which is obscure. Based on prior morphologic data showing nuclear abnormalities, we hypothesized that accelerated apoptosis could occur in these erythroid precursors. The highly successful bone marrow (BM) transplantation program for patients with Cooley's anemia provided us with a unique opportunity to test this hypothesis. We obtained pretransplantation BM aspiration samples from patients undergoing BM transplantation in Pesaro, Italy and from their allogeneic donors. The erythroid precursors were isolated using ficoll sedimentation and then panning selecting fro CD45- cells. Cytospin and Giemsa staining showed that the separation provided greater than 90% erythroblasts. Five million of these erythroblasts were lysed and their DNA was isolated. There were obvious ladder patterns of DNA breakdown products in beta-thalassemia major samples, with less occurring in beta- thalassemia trait. Normal individuals showed only a slight smear of breakdown of DNA. These results indicate there is enhanced apoptosis in the erythroblasts in the BMs of Cooley's anemia patients. This finding might partially explain why most of these erythroblasts never survive to become mature erythrocytes.

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Defective assembly of membrane proteins in erythroid precursors of beta- thalassemic mice (1994)

Yuan, J ; Rubin, E ; Aljurf, M ; [et al.]

American Society of Hematology

In: Blood. 1994; 84(2): 632-637. Published 1994 Jul 15. doi: 10.1182/blood.v84.2.632.bloodjournal842632.

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Publication Date: 1994-07-15

Description: beta-Thalassemic mice provide a useful model for studying the pathophysiology of human beta-thalassemia in that one can perform experiments that are difficult to perform in humans. The ease of access to beta-thalassemic mouse marrow provided the opportunity to explore the cause of the ineffective erythropoiesis that characterizes severe beta-thalassemia in mouse and man. We hypothesized that the accumulation of excess alpha-globin might interfere with the normal assembly of red blood cell (RBC) membrane proteins, thus contributing to the severe intramedullary lysis. Femoral marrow was obtained from normal and beta-thalassemic mice, and RBC precursors were purified (〉 90%) by panning and harvesting CD45- cells. The assembly of RBC membrane proteins was assessed by observing immunofluorescence patterns obtained on fixed permeabilized precursors using rabbit polyclonal antibodies directed against human spectrin, and band 4.1, and murine band 3. The distribution of the proteins was shown with a fluorescein- tagged goat antirabbit antibody. In contrast to normal mice, about 30% of intermediate and late stage erythroblasts in beta-thalassemic mice appear abnormal. Neither spectrin nor band 4.1 formed crisp rim fluorescence in these erythroid precursors of thalassemic mice, whereas assembly of band 3 appeared normal. Therefore, the assembly of membrane skeletal proteins is abnormal in murine beta-thalassemic erythroid precursors perhaps because of the deposition of unmatched alpha-globin chains.

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