Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0002895 (sickle cell disease)
11,747 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Although numerous studies have provided indirect evidence for enhanced platelet activity in sickle cell anaemia, little attention has been directed to examination of platelet alpha and dense granule release in the sickling disorders. We simultaneously measured by radioimmunoassay plasma levels of the alpha granule constituents beta-thromboglobulin (beta-TG) and platelet factor 4 (PF4) in 43 children with sickle cell anaemia in steady state and 24 patients during severe vaso-occlusive crisis. beta-TG levels during steady state (50 +/- 3.6 ng/ml, mean +/- SEM) were greater (P less than 0.001) than in normal controls (36 +/- 1.6), but there was no additional significant rise during crisis (55 +/- 5.9). PF4 levels were similar (P = 0.12) in both steady state (10 +/- 1.2 ng/ml) and crisis (9.3 +/- 2.3) to those of normal controls (6.0 +/- 0.8). The similarity of beta-TG/PF4 ratios in normal and sickle cell anaemia patients as well as the positive correlation (P less than 0.05) between platelet count and beta-TG and PF4 suggested that an artefactual in vitro platelet activation was responsible for some of the observed increased beta-TG and PF4 levels. Further evidence against enhanced platelet activity in these sickle cell patients included normal intraplatelet content of the dense granule constituent 5-HT and a normal ATP/ADP ratio. From this data we conclude that platelet activation in children with sickle cell anaemia appears minimal.
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PMID:Evidence against enhanced platelet activity in sickle cell anaemia. 622 55

Phosphorylation of erythrocyte membrane proteins was determined in patients with homozygous sickle cell disease. After incubation of ghosts with gamma-32P ATP, proteins were submitted to SDS-polyacrylamide gel electrophoresis. Three salient features appeared: (i) a decreased phosphorylation of spectrin bands; (ii) a significantly increased phosphorylation (P less than 0.001) of bands 4(5) and 4(8) in the absence of cAMP and (iii) a significantly increased phosphorylation (P less than 0.001) of bands 7 and 8, both in the absence and the presence of cAMP. Studies on reticulocyte rich blood showed that the first change appeared to be specifically related to the disease, whilst the second resulted from the rejuvenation of the red cell population. No definite conclusion could be drawn for the third alteration.
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PMID:Erythrocyte membrane phosphorylation in sickle cell disease. 629 28

Intracellular calcium regulates a number of membrane functions in the erythrocyte, including control of shape, membrane lipid composition and cation permeability. Measurement of total red cell calcium has yielded values between 5 and 15 nmol/ml cells, and these low values in part reflect the absence of Ca2+ -containing organelles. Most intracellular Ca2+ is bound and the low cell ionized Ca2+ concentration (approximately 0.2 microM) is maintained by a combination of low membrane permeability and a powerful Ca2+ -pump. This pump has been identified with a (Ca2+ + Mg2+)-stimulated ATPase, and both Ca2+ transport and ATP splitting are stimulated by calmodulin, a low molecular weight protein which binds Ca2+ avidly and activates many Ca2+ -dependent enzymes. Both high and low affinity kinetics for Ca2+ pumping have been demonstrated, depending on the extent of binding of calmodulin to the pump. A stoichiometry of either 1 or 2 Ca2+ ions pumped per ATP molecule split has been shown, and the value may vary with the level of intracellular Ca2+. Phenothiazines, such as chlorpromazine inhibit the Ca2+ -pump by antagonizing the increment in activity produced by calmodulin. The passive inward leak of Ca2+ into erythrocytes can be quantitated by 45Ca2+ uptake into red cells whose Ca2+ -pump has been inhibited. Estimates of the Ca2+ permeability, based on unidirectional influx, yield values many orders of magnitude lower than for nucleated cells. Influx of Ca2+ into human erythrocytes occurs by a facilitated diffusion process, which can be inhibited by phenothiazines and the cinchona alkaloids. Calcium affects many membrane functions including cation permeability, lipid composition and some cytoskeletal interactions which may determine cell shape. Any rise in intracellular Ca2+ activates a specific K+ channel which normally makes little contribution to K+ fluxes. Kinetic studies of this process demonstrate either high or low affinity Ca2+ -activation of K+ efflux, with low affinity of the channel to Ca2+ being the probable state in vivo. Propranolol is the best known activator of Ca2+ -stimulated K+ efflux, although the mechanism of stimulation is unclear. Like other tissues, red cells possess a Ca2+ -activated phosphoinositol phosphodiesterase. Although it has been suggested that the echinocytic shape change induced by Ca2+ is due to the hydrolysis of polyphosphoinositides, it seems more likely that this shape change results from an effect of Ca2+ on the macromolecular interactions of the cytoskeleton. Abnormal Ca2+ permeability may contribute to red cell destruction in a variety of diseases. For example, in sickle cell anemia a large Ca2+ influx occurs when cells are sickled under deoxy conditions, and moreover, the ability of the Ca2+ -pump to extrude the increment of cell Ca2+ is impaired. Thus, red cell Ca2+ is increased 3-7-fold above normal and this may contribute to the short survival of sickle red cells...
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PMID:Calcium ions, drug action and the red cell membrane. 629 89

Sickle cell anaemia red cells (SS) were reported to have a high Ca content and an increased Ca uptake on deoxygenation, but their Ca-pump activity was described as normal. This seemed puzzling because the saturated Ca-extrusion rate of the normal, high Ca-affinity Ca pump is about 10 mmol per 1 cells per h (refs 3, 4) and the highest sickling-induced Ca influx reported in SS cells and observed in ATP-depleted sickle-trait (SA) red cells never exceeded 0.2 mmol per 1 cells per h. Normal pump performance is, therefore, incompatible with Ca accumulation unless SS cells have abnormally high Ca-binding capacity. We provide here evidence which suggests that SS cells have normal Ca-buffering capacity and probably genetically normal Ca pumps, but that the sickling process causes progressive Ca-pump failure and a marked reduction in Ca:Ca exchange.
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PMID:Progressive inhibition of the Ca pump and Ca:Ca exchange in sickle red cells. 644 42

Protein kinase activities and membrane autophosphorylation reactions of normal and abnormal human erythrocytes were analyzed. Erythrocytes from patients with high reticulocytosis due to sickle cell anemia and other disorders (n = 13) exhibited elevated activities of total and membrane-bound cAMP-independent casein kinase and cAMP-stimulated histone kinase. Relative to normal controls (n = 10), the average total activities in these abnormal cells were increased 50% and 81%, respectively. The casein and histone kinase activities of normal and abnormal erythrocytes declined significantly with increasing age and buoyant density in Stractan density gradients. Casein kinase activity was highly correlated (r = 0.88; n = 23) with the percentage of reticulocytes in the fraction, consistent with either a progressive loss of activity in mature erythrocytes or an abrupt decline during reticulocyte maturation. The cAMP-independent and cAMP-stimulated autophosphorylation activities of isolated membranes also declined with increasing erythrocyte age. On average, the initial rate of spectrin labeling was 36% lower in ghosts from Stractan gradient bottom fractions, relative to ghosts from top fractions similarly incubated with gamma-32P-ATP. Incorporation into the "band 4.5 zone" (primarily labeling bands 4.8 and 4.9, mol wt 47,800 and 44,600) was also age-dependent. In membranes of unfractionated sickle cells, spectrin autophosphorylation was within normal limits, while 4.5 zone autophosphorylation was increased. Membranes from high reticulocytosis controls (vitamin B-12 deficiency) exhibited similar autophosphorylation patterns, suggesting that the altered autophosphorylation pattern of sickle cell membranes may be attributed to the predominance of very young cells.
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PMID:Protein kinases and membrane protein phosphorylation in normal and abnormal human erythrocytes: variation related to mean cell age. 683 Oct 46

The red cells' antioxidant defense mechanisms were compared between individuals with sickle cell disease and those with hemolytic anemia and reticulocytosis. In sickle cell disease, there was a significant increase in incubated Heinz body formation (p less than .001), a decrease in reduced glutathione concentration (p less than .01), an increase in glucose-6-phosphate dehydrogenase activity (p less than .01), and a decrease in glutathione reductase activity (p less than .005). The patients with sickle cell disease hd an absolute increase in the activity of the pentose shunt in the intact red cell after methylene blue stimulation (p less than .05) and in red cell hemolysates (p less than .0250. Heinz body formation (r = .75) and pentose shunt activity in red cell hemolysates (r = .83) were strongly related to the degree of reticulocytosis. Although there was a correlation between the pentose shunt activity in the stimulated red cell and in red cell hemolysates for the patients with hemolytic anemia (r = .58), stimulated shunt activity did not increase as the hemolysate shunt activity increased for the patients with sickle cell disease. There were very strong relationships between the ATP concentration and the reticulocyte count (r = .80) and the hemolysate pentose shunt activity (r = .77) in sickle cel disease. These data suggest that in spite of an absolute increase in stimulated pentose shunt activity, there Is a relative suppression of stimulated shunt activity in the youngest sickle erythrocytes. This may be related, in part, to the inhibitory effects of high concentrations of ATP on the activity of glucose-6-phosphate dehydrogenase.
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PMID:Impaired pentose phosphate shunt function in sickle cell disease: a potential mechanism for increased Heinz body formation and membrane lipid peroxidation. 688 Nov 34

The effect of short-term cryopreservation on metabolic, functional, and survival characteristics of erythrocytes from patients with sickle cell disease was examined. Post-thaw hemolysis of glycerolized sickle (SS) erythrocytes was greater (mean 12.9%) than in hemoglobin-AA cells (mean 4.7%). Freeze preservation had no apparent effect on red cell morphology, percent irreversibly sickled cells, and fetal hemoglobin content. There were modest reductions in ATP and 2,3-diphosphoglycerate in thawed, washed sickle erythrocytes (12.7% and 29.7%, respectively). However, the autologous survival of 51Cr-labelled SS red cells was not shortened by cryopreservation. The safety and efficacy of autotransfusion of cryopreserved red cells in alloimmunized sickle cell disease patients with anemic episodes unrelated to sickling need to be determined.
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PMID:Freeze preservation of sickle erythrocytes. 724 37

1. To trace the early development of the extensive functional membrane abnormalities found in sickle cell anaemia red cells which result from polymerization of haemoglobin S, we followed the effects on Ca and K transport of an in vitro sickling pulse in sickle cell trait (SA) red cells, whose membranes are initially normal.2. Sickling induced a progressively larger uptake of Ca in fed, starved and ATP-depleted SA cells, always substantially higher than that in normal (AA) red cells under comparable conditions. The fraction of ionized Ca within the SA cells, estimated from the equilibrium distribution of (45)Ca induced by the ionophore A23187 was about 0.4 of the total Ca content and similar in SA and AA cells.3. With ATP-depleted SA cells, Ca uptake (representing Ca permeability) was maximal during sickling and was only partially reduced towards normal after desickling. Net Ca uptake during sickling of fed or starved SA cells reverted to net Ca loss upon reoxygenation, irrespective of the Ca gradient, indicating full restoration of the low Ca permeability of the control conditions.4. Following desickling of both fed and starved SA cells, the rates of uphill extrusion of Ca gained during sickling were much smaller than those expected with normal Ca pumps operating at similar internal Ca concentrations.5. After 2 hr sickling ATP levels in starved SA cells were reduced by 50% regardless of the presence or absence of Ca in the medium; therefore sickling-induced Ca uptake was associated with no measurable consumption of ATP due to Ca-pump activity.6. With ATP-depleted SA cells, a Ca uptake of 2-3 mumole/l. cells elicited a maximal response of the K permeability system resulting in full equilibration of the K pools in the cell suspensions. Sickling of fed and starved SA cells produced a small increase in K permeability which was entirely independent of the presence or absence of Ca.7. Sickled forms persisted after reoxygenation only with ATP-depleted SA cells and were more frequent after sickling in the presence of Ca (about 20%) than in a Ca-free medium (about 4%).8. These findings show that initial sickling produces an increased Ca permeability whose extent and reversibility depends on the metabolic state of the cells, and a partial Ca-pump failure, which appears to be irreversible. We confirm a small sickling-related, reversible increase in K permeability but a Ca-dependent increase in K permeability does not occur unless the cells are fully depleted of ATP. The implications for sequential development of related abnormalities in SS cells are discussed.
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PMID:Effect of a 'sickling pulse' on calcium and potassium transport in sickle cell trait red cells. 726 94

Membrane protein phosphorylation was measured in intact normal and sickle erythrocytes, by determining the incorporation of 32Pi. The general pattern of radiolabeling is similar for normal and sickle cells, but sickle erythrocytes incorporate approximately twice as much 32P as normal cells, and the detailed distribution of label is altered. Sickle cells incorporate less of their 32P into spectrin band 2 and more into band 4.5 than do normal cells. Although irreversibly sickled cells do not incorporate more 32P than the general sickle cell population, the distribution of label among their membrane polypeptides is more abnormal. These differences between normal and sickle cells are seen throughout an 18-h incubation. All polypeptides become labeled at approximately the same rat. The differences in phosphorylation between sickle and normal cells cannot be attributed to relative cell age, ATP levels, or the rate of 32P labeling of the ATP pool. It appears that altered membrane phosphorylation is an intrinsic characteristic of sickle cell anemia.
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PMID:Membrane protein phosphorylation in intact normal and sickle cell erythrocytes. 739 Oct 25

Functional and metabolic characteristics of fresh and three-week stored erythrocytes from patients with sickle cell anemia were compared. The storage-related changes in ATP, 2,3-DPG, and P50 in sickle erythrocytes were similar to those in control (HbA) red blood cells. After storage in CPD, sickle erythrocytes maintained significantly higher levels of 2,3-DPG (mean 2.20 +/- 0.73 mM/ml RBC) than did control cells (mean 0.36 +/- 0.13 mM/ml RBC). The posttransfusion recovery and survival of stored SS erythrocytes in autologous recipients and in an animal test system were at least as good as those before storage. Tolerance of the storage lesion by sickle erythrocytes is probably related to their young mean cell age. These results also suggest that the option of autotransfusion should be explored for selected patients with sickle cell disease in special clinical settings.
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PMID:Viability and function of stored sickle erythrocytes. 743 53


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