Immunological Identification of Blood Group Pk Antigen on
Normal Human Erythrocytes and
Isolation of Anti-P^k with Different Affinity

Rhnull human erythrocytes lack the antigens of the Rhesus blood-group system, have an abnormal shape, have an increased osmotic fragility, and are associated with mild chronic haemolytic anaemia. Rhnull erythrocytes also lack all antigens of the LW blood-group system, but the functional significance of this deficiency is unknown. We have identified, by immunoblotting with two mouse monoclonal antibodies (BS46 and BS56), the LW-active component(s) in normal human erythrocytes as a broad band of Mr 37 000-47 000 on SDS/polyacrylamide-gel electrophoresis. Treatment of intact human erythrocytes with endoglycosidase F preparation destroyed the epitopes recognized by antibodies BS46 and BS56, suggesting that one or more N-glycosidically linked oligosaccharides are required for the formation of the LW antigens. Estimation of the number of LW antigen sites per erythrocyte by using radioiodinated purified antibody BS46 gave average values of 4400 molecules/cell for Rh(D)-positive adult erythrocytes and 2835 molecules/cell for Rh(D)-negative adult erythrocytes. Like the Rh(D) polypeptide, the LW polypeptide(s) is (are) associated with the cytoskeleton of normal erythrocytes. These results suggest the possibility that the absence of the LW polypeptide may also contribute to the functional and/or morphological abnormalities of Rhnull erythrocytes.

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The complex of phosphatidylinositol 4,5-bisphosphate and calcium ions is not responsible for Ca(2+)-induced loss of phospholipid asymmetry in the human erythrocyte: a study in Scott syndrome, a disorder of calcium- induced phospholipid scrambling

Blood ◽

10.1182/blood.v86.5.1983.bloodjournal8651983 ◽

1995 ◽

Vol 86 (5) ◽

pp. 1983-1991 ◽

Cited By ~ 33

Author(s):

EM Bevers ◽

T Wiedmer ◽

P Comfurius ◽

J Zhao ◽

EF Smeets ◽

...

Keyword(s):

Lipid Vesicles ◽

Human Erythrocytes ◽

Mechanism Analysis ◽

Membrane Phospholipids ◽

Mole Percent ◽

Cellular Processes ◽

Phospholipid Asymmetry ◽

Dependent Cell ◽

Normal Human ◽

State Concentration

Elevation of cytoplasmic Ca2+ levels in human erythrocytes induces a progressive loss of membrane phospholipid asymmetry, a process that is impaired in erythrocytes from a patient with Scott syndrome. We show here that porcine erythrocytes are similarly incapable of Ca(2+)- induced redistribution of membrane phospholipids. Because a complex of phosphatidylinositol 4,5-bisphosphate (PIP2) and Ca2+ has been proposed as the mediator of enhanced transbilayer movement of lipids (J Biol Chem 269:6347,1994), these cell systems offer a unique opportunity for testing this mechanism. Analysis of both total PIP2 content and the metabolic-resistant pool of PIP2 that remains after incubation with Ca2+ ionophore showed no appreciable differences between normal and Scott erythrocytes. Moreover, porcine erythrocytes were found to have slightly higher levels of both total and metabolic-resistant PIP2 in comparison with normal human erythrocytes. Although loading of normal erythrocytes with exogenously added PIP2 gave rise to a Ca(2+)-induced increase in prothrombinase activity and apparent transbilayer movement of nitrobenzoxadiazolyl (NBD)-phospholipids, these PIP2-loaded cells were also found to undergo progressive Ca(2+)-dependent cell lysis, which seriously hampers interpretation of these data. Moreover, loading Scott cells with PIP2 did not abolish their impaired lipid scrambling, even in the presence of a Ca(2+)-ionophore. Finally, artificial lipid vesicles containing no PIP2 or 1 mole percent of PIP2 were indistinguishable with respect to transbilayer movement of NBD- phosphatidylcholine in the presence of Ca2+. Our findings suggest that Ca(2+)-induced redistribution of membrane phospholipids cannot simply be attributed to the steady-state concentration of PIP2, and imply that such lipid movement is regulated by other cellular processes.

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Characterization of prolidase activity in erythrocytes from a patient with prolidase deficiency: Comparison with prolidase I and II purified from normal human erythrocytes

Clinical Biochemistry ◽

10.1016/j.clinbiochem.2005.03.007 ◽

2005 ◽

Vol 38 (7) ◽

pp. 625-631 ◽

Cited By ~ 11

Author(s):

Gang Liu ◽

Kazuko Nakayama ◽

Yasuhiro Sagara ◽

Shiro Awata ◽

Koichi Yamashita ◽

...

Keyword(s):

Human Erythrocytes ◽

Prolidase Deficiency ◽

Prolidase Activity ◽

Normal Human

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Anaerobic Glycolysis in Normal Human Erythrocytes Incubated in Vitro with Sodium Salicylate

Clinical Science ◽

10.1042/cs0490375 ◽

1975 ◽

Vol 49 (5) ◽

pp. 375-384

Author(s):

N. Worathumrong ◽

A. J. Grimes

Keyword(s):

Sodium Salicylate ◽

Lactate Production ◽

Glucose Consumption ◽

Human Erythrocytes ◽

Anaerobic Glycolysis ◽

Initial Stimulus ◽

Sodium Efflux ◽

Normal Human ◽

Concentration Changes

1. Some effects of sodium salicylate upon anaerobic glycolysis have been studied in normal human erythrocytes incubated for up to 6 h at 37°C in autologous sera. 2. Both glucose consumption and lactate production were stimulated by concentrations of salicylate up to 60 mmol/l but at the highest concentration used (90 mmol/l) an initial stimulus was followed by inhibition of glycolysis. 3. Losses occurred of adenosine 5′-triphosphate (ATP), adenosine 5′-diphosphate (ADP) and adenosine 5′-phosphate (AMP) at higher concentrations of salicylate and there was a concomitant increase of inorganic phosphate. 4. Other phosphate esters underwent concentration changes at higher concentrations of salicylate that reflected inadequate concentrations of ATP for glycolysis. 5. The rates of sodium efflux from, and potassium influx into, erythrocytes were unaffected by the presence of salicylate at concentrations sufficient to stimulate glycolysis.

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A carbohydrate-deficient membrane glycoprotein in human erythrocytes of phenotype S-s-

Biochemical Journal ◽

10.1042/bj1650157 ◽

1977 ◽

Vol 165 (1) ◽

pp. 157-161 ◽

Cited By ~ 23

Author(s):

M J A Tanner ◽

D J Anstee ◽

P A Judson

Keyword(s):

Blood Group ◽

Arachis Hypogaea ◽

Human Erythrocyte ◽

Structure And Function ◽

Human Erythrocytes ◽

Erythrocyte Membranes ◽

Membrane Glycoprotein ◽

Blood Group Antigens ◽

And Function ◽

Normal Erythrocyte

1. We investigated the membranes of human erythrocytes which completely lack the blood-group antigens S and s (denoted as S-s-) as part of a study of the structure and function of the surface glycoproteins of the human erythrocyte. 2. The S-s-erythrocyte-membrane glycoprotein PAS-3 band was much less intensely stained in comparison with that of the glycoprotein from normal erythrocyte membranes. The S-s-membrane glycoprotein PAS-4 band also showed decreased staining. 3. Examination with the lectins from Maclura aurantiaca (Osage orange) and Arachis hypogaea (groundnut) showed that the PAS-3 glycoprotein of S-s-erythrocyte membranes lacked the receptors for these lectins that are present on glycoprotein PAS-3 from normal erythrocytes. 4. Radioiodination with lactoperoxidase showed the presence of the polypeptide of glycoprotein PAS-3 in S-s-cells, although it was more weakly labelled than the protein in the normal erythrocyte. 5. Our results show that the PAS-3 glycoprotein of S-s-erythrocytes is deficient in some of the carbohydrates present in the protein from normal erythrocytes. Glycoprotein PAS-4 of normal erythrocytes is shown to be a complex containing both glycoproteins PAS-1 and PAS-3.

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