UMLS:C0002895 - FACTA Search

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Query: UMLS:C0002895 (sickle cell disease)
11,747 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A somewhat simplified modification of a previously described method for the measurement of red cell membrane phosphorylation by ATP has been devised. Phosphorylation of membranes was linear with time for only 5-10 min, and linearity with membrane concentration was observed only when assays were limited to short incubation times. Protein kinase activity of hereditary spherocytosis (HS) membranes was found to be normal. However, the average phosphorylation after 60 min incubation was less in HS membranes than in normal membranes. Findings similar to those in HS membranes were observed in sickle cell disease. The Km of red cell protein kinase for ATP is approximately 10(-5) M. Membrane phosphate binding sites are not saturated in either HS or normal membranes after 1 hr incubation with ATP. Approximately 27% of phosphorylating activity is lost after 1 hr incubation at 37 degrees C. GTP is a very inefficient phosphate donor. Under the conditions of measurement employed, the enzyme is slightly stimulated by 1 muM cAMP, but is not stimulated by 1 muM cGMP. Dephosphorylation of red cell membranes after labeling occurs at a similar rate in HS as in normal membranes. Although a mild abnormally in membrane phosphorylation is observed in HS, this could not be demonstrated to be due to a decrease in protein kinase activity or in alterations of its kinetic properties. The abnormally seen is not specific for HS.
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PMID:Human red cells protein kinase in normal subjects and patients with hereditary spherocytosis, sickle cell disease, and autoimmune hemolytic anemia. 18 65

The statistical relationships among the glycolytic intermediates (GI)) of the Embden-Meyerhof pathway, adenine nucleotides (ANs) and various hematological measures were estimated for 34 sickle cell anemia patients. Heterogeneity in linear and quadratic regressions of hemoglobin and hematocrit, both singly and jointly, on the GI and AN variables implied 1) that any single formula to standardize optical density measures of the GIs and ANs on a per gram hemoglobin or per liter cell water basis would not uniformly remove hemoglobin and hematocrit effects: 2) that ignoring significant hematological effects could bias the estimates of correlation among GIs and ANs; and 3) that hemoglobin and hematocrit measures do not reflect the same source of variability. The correlations among the GIs and ANs, after adjustment for hematological variability, were analyzed by path analysis to determine which of five proposed path models for cause and effect relationships were compatible with the data. AMP had a greater influence on ADP (coefficient of determination (CD) = 23%) than all the GIs together, while G6P and ADP influenced ATP variability the most (CD = 33% and 12%). The contributions of unknown factors to ADP and ATP variability were large for all models (CD = 56--77%) possibly due to stress of sickle cell disease. The path model with AMP and the four GIs (G6P, F6P, FDP, DHAP) influencing ADP variation, and the same GIs and ADP influencing ATP was the model most compatible with the data.
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PMID:A path analysis of the causal relationships between red cell glycolytic intermediates, ADP and ATP in sickle cell anemia. 59 96

In the rabbit, a p59 protein included in the untransformed, non-DNA binding, "8-9S," steroid receptor complexes binds heat shock protein M(r) approximately 90,000 (hsp90). Sequence data [Lebeau, M. C., Massol, N., Herrick, J., Faber, L. E., Renoir, J. M., Radanyi, C. & Baulieu, E. E. (1992) J. Biol. Chem. 267, 4281-4284] and hydrophobic cluster analysis delineate, from the N terminus, two successive domains closely related to the immunosuppressant FK506 binding immunophilin FKBP (FK506 binding protein), consistent with recent purification of the human p56 immunophilin cognate protein by FK506 affinity chromatography [Yem, A. W., Tomasselli, A. G., Heinrikson, R. L., Zurcher-Neely, H., Ruff, V. A., Johnson, R. A. & Deibel, M. R., Jr. (1992) J. Biol. Chem. 267, 2868-2871]. The first FKBP-like domain demonstrates all structural characteristics known to be necessary for immunosuppressant binding and for peptidylprolyl cis-trans isomerase (rotamase) activity. Hence, p59 is a "hsp binding immunophilin" (HBI). It is thus speculated that hsp binding immunophilin may help the assembly/disassembly mechanisms involved in steroid receptor trafficking and activity and participate in the poorly understood hsp90 function. ATP/GTP binding likely occurs within the second FKBP-like domain, near the FK506 binding site on the FKBP template. A third domain detected by the hydrophobic cluster analysis method is distantly structurally related to the two first FKBP-like domains and is followed by the C-terminal part of the protein, which contains a calmodulin binding consensus sequence. Hsp binding immunophilin may be involved in a number of immunological, endocrinological, and chaperone-mediated pathways.
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PMID:An immunophilin that binds M(r) 90,000 heat shock protein: main structural features of a mammalian p59 protein. 163 Nov 18

1. Our findings of a low total magnesium content in the dense fraction (over 1.118 g ml-1) of sickle cell anaemia (SS) red cells seemed inconsistent with the low Mg2+ permeability and outward Mg2+ gradient seen in normal red cells, and prompted studies of the Mg2+ permeability and equilibria in the SS cells. 2. Deoxygenation and sickling induced Mg2+ permeabilization in SS cells, supporting non-specificity of the sickling-induced cation permeabilization, previously described for Na+, K+ and Ca2+. The extent of Mg2+ permeabilization was comparable in SS cells with normal or high density. 3. Compared with normal-density SS cells and normal red cells, the dense SS cells showed a much larger increase in the fraction of ionized magnesium ([Mg2+]i) on deoxygenation, resulting in [Mg2+]i levels sufficient to reverse the normal inward direction of the transmembrane Mg2+ gradient. 4. The molar ratio of 2,3-diphosphoglycerate (2,3-DPG) to haemoglobin was markedly reduced in the dense SS cells. Since 2,3-DPG and ATP are the main cytoplasmic Mg2+ buffers, their further reduction upon binding to deoxyhaemoglobin accounts for the high [Mg2+]i in the deoxygenated dense SS cells; the resulting outward electrochemical Mg2+ gradient, together with sickling-induced Mg2+ permeabilization, could explain the decreased total magnesium content of these cells. 5. The above findings suggested that the documented low sodium pump fluxes in dense SS cells may result from an increased Mg2+:ATP ratio, which is known to inhibit Na(+)-K+ exchange fluxes through the sodium pump. If so, deoxygenation, by increasing the Mg2+:ATP ratio, should inhibit the pump further, whereas increasing ATP should relieve the inhibition. Experiments designed to test this possibility showed that in these dense SS cells, the ouabain-sensitive K(86Rb) influx was low in oxygenated cells, was reduced further by deoxygenation, but was substantially increased after treatment with inosine, pyruvate and phosphate to increase their organic phosphate pool. These results were thus consistent with such a mechanism for Na+ pump inhibition in the dense SS cells.
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PMID:Deoxygenation permeabilizes sickle cell anaemia red cells to magnesium and reverses its gradient in the dense cells. 221 97

Platelet activation at sites of enmeshed sickled red cells in the microcirculation may contribute to platelet plug formation and microinfarction in sickle cell anemia. To test this hypothesis platelets from 116 sickle cell anemia patients free of crisis, 32 patients with crisis, 16 convalescents within 1 week of crisis, and 180 normal controls were studied. Platelets store 90% of their ADP in dense secretory granules. During activation ADP is secreted and permanently lost from the cell. This leads to a decrease in cellular ADP concentration and a sharp rise in the ATP/ADP ratio. ATP and ADP were ethanol-extracted from platelet-rich plasma, measured in the luciferase-luciferin assay and expressed in nmoles per 10(8) cells. No adenine nucleotide differences were found in platelets from patients free of crisis compared with normal controls. The ADP concentration of platelets from patients in crisis was significantly lowered, indicating that in vivo platelet secretion of ADP had occurred. Total and released ADP was decreased from 2.69 to 1.66, and from 1.90 to 1.21 respectively, and the total ATP/ADP ratio was increased from 1.85 to 2.84 (P less than 0.001). ADP stores in platelets from convalescents were significantly different from sickle controls (P less than 0.001) but were less abnormal than ADP stores in platelets from crisis patients (P less than 0.01), indicating recovery. Total and released ADP was decreased to 1.97 and 1.31 respectively, and the ATP/ADP ratio was increased to 2.38. Platelets from patients in crisis were able to release their remaining granular ADP in response to thrombin as effectively as normal platelets. Thus significant platelet activation with ADP release occurs during acute sickle pain crisis. This might contribute to platelet plug formation and microvascular obstruction.
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PMID:Platelet activation during pain crisis in sickle cell anemia patients. 274 22

Control (AA) and sickle cell anemia (SS) erythrocytes were loaded with Ca-chelator (Quin2 or Benz2) to increase the cellular exchangeable Ca2+ pool and to measure the Ca2+ exchange fluxes and the cytosolic ionized Ca2+ ([Ca]i) (Lew et al., 1982, Nature, 298, 478). The chelator incorporation induced a decrease in the ATP content which was smaller in SS than in AA cells and partially reversible upon reincubation in a chelator-free medium. The amount of trapped chelator was determined by two methods: 45Ca binding to the chelator in Ca-ionophore treated cells in Ca-EGTA buffers and [3H]Quin2 incorporation. A slight over-estimation of the chelator content was found with the second method but incorporation was the same in both types of cells. The kinetics of 45Ca equilibration and 45Ca release were used to measure Ca2+ fluxes and [Ca]i in oxygenated chelator-loaded cells. SS cells, as compared to AA cells, exhibited a moderate increase in Ca2+ fluxes (30-75%) but [Ca]i remained in the same range (about 20 nM). Thus the excess of Ca2+ found in SS cells is not available for the Ca2+ pump or the K+ channel a conclusion in agreement with that of Bookchin et al. (1984, Cell Calcium, 5, 277). Analysis of the 45Ca kinetics showed that in AA cells, exchangeable Ca2+ behaved as one compartment. In SS cells, the existence of a second slowly-exchangeable Ca2+ compartment was demonstrated. This latter (3-5 mumol/l cells) was independent of the concentration of the chelator and thus could represent exchangeable Ca2+ enclosed within the intracellular inside-out vesicles recently observed in SS cells (Williamson et al., 1984, J. Cell. Biol., 99, 430a). Alternatively, these two kinetic pools could reflect heterogeneity of the SS cell population.
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PMID:Compartmentalization of Ca2+ in sickle cells. 293 36

Pentoxifylline was shown to prevent sickling induced by deoxygenation of SS-genotype blood from sickle cell disease patients. It also prevents development of cell stiffness, based on decreased membrane fluidity. This effect is related to increased red cell ATP content, decreased potassium loss during sickling and decreased attachment of hemoglobin to the red cell membrane during sickling. There was no effect on osmotic fragility or mean corpuscular volume. There was some increase in pH of blood from patients in vasoocclusive crisis of sickle cell disease under the effect of pentoxifylline. The consideration is discussed that pentoxifylline may prevent vasoocclusive crisis, but may not abort an existing process.
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PMID:Studies on the vasoocclusive crisis of sickle cell disease IV. Mechanism of action of pentoxifylline (Trental). 317 2

Phenylalanine or tryptophan entrapped in small unilamellar liposomes was used to transport Phe or Trp across the red blood cell membrane. The incorporation of Phe or Trp into RBCs via liposomes markedly inhibited and reversed the in vitro sickling of deoxy Hb S. Furthermore, normal and SS RBCs loaded with Phe or Trp did not exhibit significant change in osmotic fragility, mechanical fragility, autohemolysis, and glycolysis when compared to untreated RBCs. In addition, the oxygen affinity measured as the P50 and concentrations of 2,3-DPG and ATP were not affected by the incorporation of Phe or Trp into AA or SS RBCs. These results demonstrate that this liposomal transport system which transferred Phe and Trp into intact RBCs did not have any adverse effect on RBC metabolism and function, and may have therapeutic implications in the treatment of sickle cell disease.
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PMID:Liposome-loaded phenylalanine or tryptophan as sickling inhibitor: a possible therapy for sickle cell disease. 367 19

The effects of 2,3-diphosphoglycerate (DPG) and other allosteric polyanions of the phosphate or sulfate ester class (inositol hexaphosphate (IHP), ATP, pyridoxamine-5'-phosphate (PMP), and inositol hexasulfate (IHS] on the solubility of deoxyhemoglobin S, and the oxygen affinity of Hb A were evaluated. Their effects on the saturation concentration (csat) indicated promotion of gelation in each case, according to the following order of molar effectiveness: IHP greater than IHS greater than DPG greater than ATP much greater than PMP. Four polybasic carboxylic acids (benzenetricarboxylate (trimesic acid), benzenetetracarboxylate (BTC), benzenepentacarboxylate (BPC), and benzenehexacarboxylate (BHC] were evaluated as well. Their order of molar effectiveness was: BHC greater than BPC greater than BTC much greater than trimesic acid. Both classes of polyanions influenced oxygen affinity in the same order as solubility. Overall, a good correlation existed between the negative charges of these nine allosteric polyanions at neutral pH and their effects on solubility and oxygen affinity. Because of its possible role in the pathophysiology of sickle cell disease, the effect of DPG on csat was examined over the pH range 6.5-7.6. While a decrease in csat was observed for DPG-saturated deoxyhemoglobin S throughout this range, the decrement observed in the physiological pH range (1.8 g/dl) was somewhat lower than that below neutral pH (3.0 g/dl); in either case the sickling tendency of SS red cells would be enhanced. Inasmuch as the intracellular concentration of DPG in sickle cell anemia may be elevated as much as 2-fold, maneuvers aimed at its reduction could be therapeutically beneficial.
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PMID:Deoxygenated sickle hemoglobin. Modulation of its solubility by 2,3-diphosphoglycerate and other allosteric polyanions. 405 63

Cyanate, which is in equilibrium with urea, combines with the alpha-amino group of the aminoterminal valine of hemoglobin in an irreversible, specific carbamylation reaction. Partial carbamylation (0.72 residues/hemoglobin tetramer) as determined by cyanate-(14)C incorporation or hydantoin analysis diminishes the in vitro sickling phenomenon. Since cyanate may react not only with hemoglobin but also with functional groups of other red blood cell proteins, the in vitro effect of cyanate was studied on sickle cells. Cells were incubated with 10 mM KCl (control) or 10 mM KNCO (carbamylated) for 1 hr, washed, and resuspended in autologous plasma. Glycolysis, ATP and 2,3-diphosphoglyceric acid (DPG) stability, autohemolysis, and osmotic fragility were not affected by carbamylation. Potassium loss in carbamylated cells (2.8 mmol/liter) was less than in control cells (9.0 mmol/liter). Pyruvate kinase activity of carbamylated cells was decreased ( approximately 25%) but the activities of other glycolytic enzymes were similar to those of control cells. Oxygen affinity of carbamylated sickle, normal, and DPG-depleted normal cells increased, and was a sensitive index of the degree and duration of reaction with cyanate. The reactivity of carbamylated cells to DPG was similar to control cells. DPG-depleted carbamylated cells regenerated DPG and increased the P(50) when incubated with pyruvate, inosine, and phosphate. The Bohr effect of normal and of sickle cells was not affected (Deltalog P(50)/Delta pH=-0.48 and -0.53, respectively) after carbamylation. The reserve buffering capacity of plasma offset the slightly diminished ( approximately 15%) CO(2) capacity of carbamylated cells so that whole blood CO(2) capacity, pH, and P(CO2) were normal. These studies provide further support for the potential clinical use of cyanate in treating and preventing the anemia and painful crises of sickle cell disease.
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PMID:The effects of cyanate in vitro on red blood cell metabolism and function in sickle cell anemia. 501 Nov 1

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