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)

The effects of amino acids, several aromatic compounds, and peptides on the gelation and solubility of deoxyhemoglobin S have been studied. The aromatic amino acids (tryptophan, phenylalanine, and possibly tyrosine) significantly inhibited the rate of gel formation and increased solubility. The dipeptide L-Thr-L-Phe, the tripeptide L-Lys-L-Phe-L-Phe, and various phenylalanine analogues (hydrocinnamic acid, phenethylamine, benzamine, and amphetamine) also inhibited gelation. However, aromaticity is not a sufficient condition for inhibiting gelation as shown by the fact that several aromatic compounds (acetylsalicylic acid, salicyclic acid, aniline, and phenol) enhanced gelation. Surprisingly, several oligopeptides (betaS1--12, betaS4--8, betaS3--13, and betaS4--10) also enhanced gelation. All of these additives follow the supersaturation relationship that the delay time for gelation is proportional to the ratio of the total hemoglobin concentration to the solubility of deoxyhemoglobin S to the nth power (n approximately 35). A possible mechanism for the action of these inhibitors is considered in terms of a specific site of interaction on the hemoglobin molecule. Although none of these compounds may prove to be efficacious in treatment of sickle cell anemia, they should yield information about the structure and process of formation of the deoxyhemoglobin S gel.
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PMID:Inhibition of sickle hemoglobin gelation by amino acids and related compounds. 72 8

We have determined the beta S haplotypes in 709 patients with sickle cell anemia, 30 with SC disease, 91 with S-beta-thalassemia, and in 322 Hb S heterozygotes from different countries. The methodology concerned the detection of mutations in the promoter sequences of the G gamma- and A gamma-globin genes through dot blot analysis of amplified DNA with 32P-labeled probes, and an analysis of isolated Hb F by reversed phase high performance liquid chromatography to detect the presence of the A gamma T chain [A gamma 75(E19)Ile----Thr] that is characteristic for haplotype 17 (Cameroon). The results support previously published data obtained with conventional methodology that indicates that the beta S gene arose separately in different locations. The present methodology has the advantage of being relatively inexpensive and fast, allowing the collection of a vast body of data in a short period of time. It also offers the opportunity of identifying unusual beta S haplotypes that may be associated with a milder expression of the disease. The numerous blood samples obtained from many SS patients living in different countries made it possible to compare their hematological data. Such information is included (as average values) for 395 SS patients with haplotype 19/19, for 2 with haplotype 17/17, for 50 with haplotype 20/20, for 2 with haplotype 3/3, and for 37 with haplotype 31/31. Some information on haplotype characteristics of normal beta A chromosomes is also presented.
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PMID:Beta S haplotypes in various world populations. 157 73

The relative proportions of gamma chains of human fetal haemoglobin G gamma, A gamma 75 Ileu (A gamma I) and A gamma 75 Thr (A gamma T) were investigated in homogeneous populations of patients in Algeria exhibiting sickle cell disease and in patients in Algeria and Sardinia with beta-thalassaemia. The restriction site haplotypes within the beta gene cluster were known. The results suggest a tight genetic regulation of the G gamma/A gamma + G gamma ratio (G gamma ratio) which is associated with the G gamma Hind III site of polymorphism (p less than 0.0001). From the present results and those in the literature the high G gamma ratio is associated with the presence of 3 polymorphic restriction sites: Xmn1 5' to the G gamma gene, Hind III in the G gamma IVS II and Hinc II in the psi beta gene. Familial studies showed that the expression of the A gamma alleles is genetically determined. The wide variation of the A gamma T/A gamma T + A gamma I ratio (A gamma ratio) between families is most probably related to the various haplotypes bearing the A gamma I alleles.
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PMID:Genetic control of the proportion of gamma chains of human fetal haemoglobin. 243 Feb 59

A newly developed HPLC procedure (1) was used to study the percentages of G gamma and A gamma chains in the Hb F from newborn and patients with sickle cell anemia. The method gives data comparable to those obtained with a more laborious chemical procedure. However, the presence of the A gamma T chain, i.e., the A gamma chain with an Ile replaced by Thr substitution at position 75, interferes with the determination of the G gamma to A gamma ratio because the A gamma T and G gamma chains have the same chromatographic mobility.
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PMID:The determination of the percentages of G gamma and A gamma chains in human fetal hemoglobin by HPLC. 615 3

Two human hemoglobins designed to inhibit the polymerization of sickle hemoglobin (Hb S; alpha 2 beta S2) have been produced. Mutations that disrupt the ability of Hb S to form polymers were introduced into the normal human beta-globin gene by site-specific mutagenesis. These mutations affect the axial and lateral contacts in the sickle fiber. The recombinant hemoglobin designated anti-sickling hemoglobin 1 (Hb AS1) contains the mutations beta 22 glutamic acid to alanine and beta 80 asparagine to lysine. Hb AS2 has the same beta 22 glutamic acid to alanine mutation combined with beta 87 threonine to glutamine. Human alpha- and beta AS-globin genes were separately fused downstream of beta-globin locus control region sequences and these constructs were coinjected into fertilized mouse eggs. Transgenic mouse lines that synthesize high levels of each anti-sickling hemoglobin were established and anti-sickling hemoglobins were purified from hemolysates and characterized. Both AS hemoglobins bind oxygen cooperatively and the oxygen affinities of these molecules are in the normal range. Delay time experiments demonstrate that Hb AS2 is a potent inhibitor of Hb S polymerization; therefore, locus control region beta AS2-globin gene constructs may be suitable for future gene therapy of sickle cell disease.
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PMID:Recombinant human hemoglobins designed for gene therapy of sickle cell disease. 793 4

Three novel recombinant mutants of sickle hemoglobin (Hb S, beta 6Glu-->Val) have been constructed to assess the role of proline at alpha 114 and threonine at beta 87 in the polymerization of deoxygenated Hb S. Using the hemoglobin expression system (pHE2) designed in our laboratory, four plasmids were expressed separately in Escherichia coli to produce the four recombinant hemoglobins: r Hb S (beta 6Glu-->Val); r Hb S-Chiapas (beta 6Glu-->Val, alpha 114Pro-->Arg); r Hb S-D-Ibadan (beta 6Glu-->Val, beta 87Thr-->Lys); and r Hb S-Chiapas-D-Ibadan (beta 6Glu-->Val, alpha 114Pro-->Arg, beta 87Thr-->Lys). The structural features of these four recombinant hemoglobins were analyzed by proton nuclear magnetic resonance spectroscopy, and were found to be similar to those of human normal adult hemoglobin (Hb A) under identical conditions. The recombinant hemoglobins were further investigated by measuring the oxygen-binding properties, which were found to be comparable to those of Hb A. Delay-time gelation studies of the three mutants of r Hb S were carried out in 1.8 M potassium phosphate (pH 7.34) by a temperature jump from 4 degrees C to 30 degrees C and an increase in delay time over that of r Hb S was observed, as well as an overall decrease in the polymerization of these three mutants of Hb S. A more detailed and quantitative investigation has also been carried out to determine the equilibrium solubility (Csat) in 0.1 M potassium phosphate (pH 7.35) at 25 degrees C of the three Hb S mutants as well as of mixtures of these mutants with Hb S versus mixtures of fetal hemoglobin (Hb F) and Hb A with Hb S. The inhibition of polymerization demonstrated in these experiments suggests that the interactions involving the two amino acid residues alpha 114Pro and beta 87Thr are very important to the formation of Hb S polymer, and modification of these amino acids results in an anti-sickling potential. Of particular interest is the inhibitory effect of alpha 114Pro-->Arg, which offers a novel opportunity to use an alpha-chain construct, in addition to a beta-chain construct in the same vector, in gene therapy for sickle cell anemia, with the objective of modifying a larger number of hemoglobin tetramers at a given level of expression.
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PMID:Roles of alpha 114 and beta 87 amino acid residues in the polymerization of hemoglobin S: implications for gene therapy. 891 2

The protein kinase Chk2, the mammalian homolog of the budding yeast Rad53 and fission yeast Cds1 checkpoint kinases, is phosphorylated and activated in response to DNA damage by ionizing radiation (IR), UV irradiation, and replication blocks by hydroxyurea (HU). Phosphorylation and activation of Chk2 are ataxia telangiectasia-mutated (ATM) dependent in response to IR, whereas Chk2 phosphorylation is ATM-independent when cells are exposed to UV or HU. Here we show that in vitro, ATM phosphorylates the Ser-Gln/Thr-Gln (SQ/TQ) cluster domain (SCD) on Chk2, which contains seven SQ/TQ motifs, and Thr68 is the major in vitro phosphorylation site by ATM. ATM- and Rad3-related also phosphorylates Thr68 in addition to Thr26 and Ser50, which are not phosphorylated to a significant extent by ATM in vitro. In vivo, Thr68 is phosphorylated in an ATM-dependent manner in response to IR, but not in response to UV or HU. Substitution of Thr68 with Ala reduced the extent of phosphorylation and activation of Chk2 in response to IR, and mutation of all seven SQ/TQ motifs blocked all phosphorylation and activation of Chk2 after IR. These results suggest that in vivo, Chk2 is directly phosphorylated by ATM in response to IR and that Chk2 is regulated by phosphorylation of the SCD.
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PMID:Ataxia telangiectasia-mutated phosphorylates Chk2 in vivo and in vitro. 1097 90

Selective and potent triarylmethane blockers of the intermediate conductance calcium-activated potassium channel, IKCa1, have therapeutic use in sickle cell disease and secretory diarrhea and as immunosuppressants. Clotrimazole, a membrane-permeant triarylmethane, blocked IKCa1 with equal affinity when applied externally or internally, whereas a membrane-impermeant derivative TRAM-30 blocked the channel only when applied to the cytoplasmic side, indicating an internal drug-binding site. Introduction of the S5-P-S6 region of the triarylmethane-insensitive small conductance calcium-activated potassium channel SKCa3 into IKCa1 rendered the channel resistant to triarylmethanes. Replacement of Thr(250) or Val(275) in IKCa1 with the corresponding SKCa3 residues selectively abolished triarylmethane sensitivity without affecting the affinity of the channel for tetraethylammonium, charybdotoxin, and nifedipine. Introduction of these two residues into SKCa3 rendered the channel sensitive to triarylmethanes. In a molecular model of IKCa1, Thr(250) and Val(275) line a water-filled cavity just below the selectivity filter. Structure-activity studies suggest that the side chain methyl groups of Thr(250) and Val(275) may lock the triarylmethanes in place via hydrophobic interactions with the pi-electron clouds of the phenyl rings. The heterocyclic moiety may project into the selectivity filter and obstruct the ion-conducting pathway from the inside.
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PMID:Delineation of the clotrimazole/TRAM-34 binding site on the intermediate conductance calcium-activated potassium channel, IKCa1. 1142 65

The possible role of physiologic stress hormones in enhancing adhesion of sickle erythrocytes (SS RBCs) to endothelial cells (ECs) in sickle cell disease (SCD) has not been previously explored. We have now found that up-regulation of intracellular cyclic adenosine monophosphate (cAMP)-dependent protein kinase A (PKA) by epinephrine significantly increased sickle but not normal erythrocyte adhesion to both primary and immortalized ECs. Inhibition of serine/threonine phosphatases also enhanced sickle erythrocyte adhesion at least partially through a PKA-dependent mechanism. Adhesion was mediated through LW (intercellular adhesion molecule-4 [ICAM-4], CD242) blood group glycoprotein, and immunoprecipitation studies showed that LW on sickle but not on normal erythrocytes undergoes increased PKA-dependent serine phosphorylation as a result of activation. The major counter receptor for LW was identified as the alphavbeta3 integrin on ECs. These data suggest that adrenergic hormones such as epinephrine may initiate or exacerbate vaso-occlusion and thus contribute to the association of vaso-occlusive events with physiologic stress.
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PMID:Epinephrine acts through erythroid signaling pathways to activate sickle cell adhesion to endothelium via LW-alphavbeta3 interactions. 1530 66

Erythrocyte magnesium (Mg2+) deficiency has been demonstrated in sickle cell disease to contribute to erythrocyte dehydration, K loss, and thus sickling. No studies have assessed the functional properties of the Na/Mg exchanger in sickle cell disease. Using Mg(2+)-loaded erythrocytes, we measured Mg2+ efflux induced by extracellular Na+. We estimated that the Na/Mg exchanger had higher maximal velocity, higher affinity for Na+, and lower cooperativity for Mg2+ in sickle than in normal erythrocytes. The activity of the exchanger was markedly decreased by hypotonic and hypertonic conditions in normal erythrocytes but not in sickle erythrocytes. Studies of density-separated erythrocytes showed that the activity of the exchanger decreased as the mean cellular hemoglobin concentration increased in normal but not in sickle erythrocytes. Inhibition of protein kinase C (PKC) activity by calphostin C and chelerythrine increased the activity of the exchanger in normal but not in sickle erythrocytes. Inhibition of serine/threonine phosphatases did not affect the activity of the exchanger in either normal or sickle erythrocytes. Altogether, these data indicate that the Na/Mg exchanger is abnormally regulated in sickle erythrocytes. Therefore, Mg2+ depletion in sickle erythrocytes might be mediated by an up-regulated Na/Mg exchanger, possibly by dephosphorylation of the transporter or a closely associated regulator.
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PMID:Abnormal regulation of Mg2+ transport via Na/Mg exchanger in sickle erythrocytes. 1535 77

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