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)

In order to clarify the mechanism of the effect of erythropoietin (Epo) on the fetal haemoglobin (HbF) phenotype of peripheral erythrocytes, we studied the dose-response effect of Epo on HbF production by erythroid precursors derived from the peripheral blood of normal adult individuals and grown in a two-phase liquid culture system. The proportion of HbF out of the total haemoglobin (Hb) content (%HbF) was dependent on the duration of exposure to Epo; on day 6 it comprised up to 15%, but dropped to < 2% on day 14. Both cell yield and cellular Hb content were markedly increased by high (1 U/ml) Epo, compared to normal physiological (20-50 mU/ml) levels, but neither the initial nor final %HbF were dependent on the increased Epo dose. However, when cells grown with high Epo were transferred on day 7 to low Epo, their progeny contained by day 14 a higher %HbF as compared to cells that were continuously exposed to high Epo. This was accompanied by acceleration and synchronization of their maturation process, as evidenced by their morphology, density and size, and restriction on cell multiplication, as indicated by the lower cell yield. These results are consistent with the following model. As early erythroid precursors, with relatively high HbF, mature under steady-state levels of Epo, HbA production predominates and HbF is diluted. However, when such precursors are switched from high to low levels of Epo they undergo a synchronized, accelerated maturation which shortens the period of HbA production, leading to a decreased Hb content and a relatively high proportion of HbF. This mechanism may contribute to the elevated HbF observed following Epo administration (due to short half-life of Epo in vivo), and might also explain the HbF-augmenting effect of Epo administered together with hydroxyurea observed in patients with sickle cell anaemia.
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PMID:Reducing erythropoietin in cultures of human erythroid precursors elevates the proportion of fetal haemoglobin. 752 30

Butyrate analogues have been shown to increase fetal hemoglobin (HbF) production in vitro and in vivo. Sodium phenylbutyrate (SPB), an oral agent used to treat individuals with urea-cycle disorders, has been shown to increase HbF in nonanemic individuals and in individuals with sickle cell disease. We have treated eleven patients with homozygous beta thalassemia (three transfusion dependent) and one sickle-beta-thalassemia patient with 20 g/d (forty 500-mg tablets) of SPB for 41 to 460 days. All patients showed an increase in the percent of F reticulocytes associated with treatment, but only four patients responded by increasing their Hb levels by greater than 1 g/dL (mean increase, 2.1 g/dL; range, 1.2 to 2.8 g/dL). None of the transfusion-dependent thalassemia subjects responded. Increase in Hb was associated with an increase in red blood cell number (mean increase, 0.62 x 10(12)/L), and mean corpuscular volume (mean increase, 6 fL). Changes in percent HbF, absolute HbF levels, or alpha- to non-alpha-globin ratios as measured by levels of mRNA and globin protein in peripheral blood did not correlate with response to treatment. Response to treatment was not associated with the type of beta-globin mutation, but baseline erythropoietin levels of greater than 120 mU/mL was seen in all responders and only two of eight nonresponders to SPB. Compliance with treatment was greater than 90% as measured by pill counts. Side effects of the drug included weight gain and/or edema caused by increase salt load in 2/12, transient epigastric discomfort in 7/12, and abnormal body odor in 3/12 subjects. Two splenectomized patients who were not on prophylactic antibiotics developed sepsis while on treatment. We conclude that SPB increases Hb in some patients with thalassemia, but the precise mechanism of action is unknown.
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PMID:Oral sodium phenylbutyrate therapy in homozygous beta thalassemia: a clinical trial. 752 72

The effects of heme, when added as the ferric chloride salt, hemin, on human erythroid cells grown in a two-phase liquid culture system were studied. When added together with erythropoietin, on initiation of the second phase of the culture, hemin greatly accelerated hemoglobin (Hb) accumulation in these cells. The effect was greater during their early stages of maturation, suggesting that heme availability is then a rate-limiting step for Hb synthesis. Hemin increased preferentially the production of fetal Hb (HbF) compared with adult Hb; this was associated with a selective twofold elevation in gamma-mRNA levels. Using succinylacetone, a potent inhibitor of heme synthesis, we showed that exogenously supplied hemin could be incorporated into the de novo formed Hb. Therefore, the mechanism of hemin action may be several fold, including effects on globin gene transcription and posttranslational events, eg, supplying the prosthetic group for Hb assembly. Hemin increased HbF of cells derived from patients with sickle cell anemia and beta-thalassemia as well as that of cells from normal donors. Moreover, when added in combination with other HbF-augmenting agents such as the cytotoxic drug, hydroxyurea, a synergistic effect was obtained, with considerably less cytotoxicity than with hydroxyurea alone. These results have clinical potential in light of the ameliorating effect that increased HbF has in patients with genetic diseases of the beta-globin chain and raise the possibility of combined treatment with hemin and other drugs now being used to treat these diseases.
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PMID:Hemin-induced acceleration of hemoglobin production in immature cultured erythroid cells: preferential enhancement of fetal hemoglobin. 753 86

Hydroxyurea (HU) and recombinant human erythropoietin (rHuEpo) have been used in several studies to elevate Hb F level in sickle cell disease (SCD) patients and hence to ameliorate the clinical presentations of the disease. The treatment protocol and doses have varied in the different studies. We studied the effects of HU+rHuEpo combination therapy in sickle cell anaemia (SCA patients) to investigate the Hb F manipulation and hence treatment of SCA. Six patients with severe SCA were selected for treatment with HU (20-25 mg/kg body weight) and rHuEpo (400-800 U/kg body weight) combination therapy for 4 weeks followed by HU (20-25 mg/kg body weight) maintenance therapy for 6 months to 1 year. Iron and folic acid were administered during HU+rHuEpo treatment. Signs, symptoms and complications were recorded to obtain the severity index. Only patients with a severity index > or = 6 were included in the study. Haematological and biochemical parameter values, Hb A2, Hb F, Hb F distribution, Hb F cells, bilirubin level and reticulocyte count were assessed at least on 2-3 occasions prior to initiation of the therapy protocol to establish baseline values. During the treatment period, the clinical presentations were monitored and the estimation of the laboratory parameters was carried out every 4-8 weeks. The results of these parameters during HU and rHuEpo combination therapy and HU maintenance therapy were compared with baseline values using paired t test. The elevation in the level of Hb F, Hb F cells, total haemoglobin, red cell count and MCV were significant (p < 0.005), while reticulocyte count and total bilirubin were significantly decreased (p < 0.05). Each patient showed an individual pattern of Hb F elevation. The increase in Hb F level was correlated with the haematological and biochemical parameters using the General Linear Model Programme of Statistical Analysis System. In general, the clinical presentation improved as Hb F level increased in each patient. In addition, the positive correlation with the haematological parameters and negative correlation with reticulocytes and total bilirubin confirmed the beneficial effect of elevated Hb F level on reducing red cell haemolysis. No correlation could be demonstrated between the pretreatment Hb F level and the increase in Hb F during the treatment period. Daily doses of HU with a single intravenous rHuEpo and iron supplementation elevate Hb F and Hb F cells in SCA patients. The Hb F level can be maintained high on HU therapy alone.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:The pharmacological manipulation of fetal haemoglobin: trials using hydroxyurea and recombinant human erythropoietin. 754 19

Present concepts of the mechanism of reactivation of synthesis of fetal hemoglobin (HbF) in the adult under conditions of erythropoietic stress are briefly reviewed. Since HbF can be considered an effective natural antisickling agent, the reactivation of its synthesis in patients with sickle cell anemia as a desirable therapeutic goal has been extensively explored since the discovery in 1982 that 5-azacytidine increases HbF levels in the baboon. Hydroxyurea (HU) has become the most widely used agent, although its effectiveness in increasing HbF levels and the number of F cells is highly variable. Recent investigations are cited showing that other agents such as butyrate, and the addition of recombinant hemopoietic growth factors, such as erythropoietin and stem cell factor, especially in combination with HU, offer important therapeutic possibilities. Transacting nuclear proteins are briefly discussed as possibly having a future role in the efforts of stimulating gamma-chain synthesis.
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PMID:Fetal hemoglobin reactivation in baboon and man: a short perspective. 767 51

Hydroxyurea (HU), an inhibitor of DNA synthesis, has been shown to increase fetal hemoglobin (HbF) levels in patients with sickle cell anemia and in some patients with beta-thalassemia. However, until now there have not been good in vitro model systems that simulate this effect for study of the molecular and cellular mechanism(s) involved in perturbing the normal ontogeny of the globin genes. We analyzed the cellular effects of HU using a two-phase liquid culture procedure (Fibach et al: Blood 73:100, 1989) in which human peripheral blood-derived progenitor cells undergo proliferation and differentiation. HU was found to have multiple effects on these cultured cells: (1) an increase in the proportion of HbF produced; (2) a decrease in cell number due to inhibition of cell proliferation; (3) an increase in hemoglobin content per cell (mean corpuscular hemoglobin [MCH]); and (4) an increase in cell size (mean corpuscular volume). The extent of these effects was related to the HU dose and time of addition. When added to cell cultures from normal individuals, 4 days following their exposure to erythropoietin (EPO), 100 mumol/L HU caused a 1.3- to 3.5-fold increase in the proportion of HbF, from 0.4% to 5.2% (mean 1.6) in untreated to 1.5% to 8.2% (mean 3.1) in HU-treated cultures and a 45% +/- 10% increase in MCH but only a 25% +/- 7% decrease in cell number on day 13. Cultures of cells derived from five patients with sickle cell anemia have shown a twofold to fivefold increase in the percentage of Hb F following addition of HU while four patients with beta-thalassemia showed a 1.3- to 6.2-fold increase. We believe that this primary cell culture procedure should prove useful in studying the cellular and molecular mechanisms of pharmacologic induction of HbF and might provide a valuable predictive assay system for evaluation of the response of individual patients with hemoglobinopathies to HU and similar agents.
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PMID:Hydroxyurea increases fetal hemoglobin in cultured erythroid cells derived from normal individuals and patients with sickle cell anemia or beta-thalassemia. 768 Sep 23

A two-phase liquid-culture system was used to substantially amplify and differentiate erythroblasts, starting with mononuclear cells from the blood of normal adults, newborn infants, and patients with sickle cell anemia. After the first 7 days (phase 1), in medium plus fetal bovine serum (FBS) alone, or in combination with stem cell factor (SCF) or conditioned medium (CM), the cell number was unchanged, and the cells all looked like lymphocytes. These cells were then diluted into medium with erythropoietin (Ep) alone, with Ep and either SCF or CM, or in methylcellulose with the same factors (phase 2). After 14 days in liquid phase 2 with SCF and Ep, the cell numbers increased an average of 30-fold in the sickle, 24-fold in the newborn, and 4-fold in the normal adult cultures; almost all the cells were erythroblasts and erythrocytes. SCF in phase 1 increased the number of late progenitors (CFU-E) assayed in methylcellulose, with the largest number in sickle, followed by newborn cultures and then adult cultures. We conclude that erythroid progenitor cells survive for at least 7 days without Ep (but with FBS). Progenitor cells are amplified, particularly with SCF. Later in culture, SCF with Ep increases the final number of differentiated erythroid cells. Both the early and the late effects of SCF are most effective in sickle, followed by newborn cultures and then adult cultures.
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PMID:Stem cell factor amplifies newborn and sickle erythropoiesis in liquid cultures. 768 24

The primary pathophysiological event in the erythrocytes of individuals with the various sickle syndromes is the intracellular aggregation or polymerization of sickle haemoglobin (HbS). The extent of polymerization is determined by the intracellular haemoglobin composition (% HbS and % HbS A, A2 and F), concentration (MCHC and % of dense cells) and oxygen saturation, as well as minor factors such as intracellular pH and DPG concentration. Intracellular HbS polymerization leads to a marked decrease in the flexibility or rheological properties of the sickle erythrocytes and obstruction in various microcirculatory beds, as well as chronic anaemia. Other abnormalities in the properties of the sickle erythrocytes, including membrane abnormalities, changes in ion fluxes and volume and endothelial adhesion, result from acute and chronic oxygen-linked polymerization events and may, in turn, modify polymerization. However, within a good approximation, many aspects of sickle cell disease pathophysiology--for example variations in anaemia among the different sickle syndromes--can be explained in terms of differences in polymerization tendency. Thus, the effects of alpha-thalassaemia can be explained with reference to changes in MCHC and syndromes with high HbF are understandable in terms of the sparing effect of HbF on polymerization. Recent therapeutic approaches to sickle cell disease focus on attempts to reduce intracellular HbS polymerization by altering the haemoglobin molecules, erythrocyte properties, or the distribution of intracellular haemoglobin species. The last, through pharmacological elevation of HbF, has become the central focus of much laboratory and clinical research in recent years. Agents such as hydroxyurea (with or without recombinant erythropoietin) and butyrate compounds elevate HbF (and reduce HbS) in a majority of sickle erythrocytes, thus decreasing intracellular polymerization. Current prospective protocols are designed to see if these changes cause clinical improvement at acceptable doses. Other treatment strategies, including bone marrow transplantation and possible gene replacement therapies, are also under active clinical or laboratory investigation.
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PMID:Sickle cell disease pathophysiology. 835 18

The present investigation was undertaken to search for soluble forms of the erythropoietin receptor in human serum using polyclonal antibody against an amino terminal peptide sequence in the extracellular domain. This sequence was located adjacent to the amino terminus at residues 25-38. When this antibody was used for Western blots of solubilized membranes from nucleated bone marrow cells, a protein consistent with native erythropoietin receptor was seen. Purified soluble ectodomain of the erythropoietin receptor displayed appropriate reactivity with this antibody. When sera from normal subjects and patients with a range of hematologic disorders were examined by Western blotting, a protein with a molecular mass of 34 Kd was detected in sera from patients with enhanced erythropoiesis including sickle cell anemia, thalassemia, and megaloblastic anemia. This protein was rarely detected in normal serum but appeared when normal subjects were treated with recombinant erythropoietin and disappeared after full treatment of patients with megaloblastic anemia due to vitamin B12 deficiency. The protein was not detected after myeloablation for bone marrow transplantation but appeared with marrow engraftment. Reactivity of this protein with the peptide antibody was competitively inhibited by the amino terminal peptide sequence. An additional 48 Kd protein was detected that showed minimal variation in intensity with differing degrees of erythropoietic activity. Detection of this protein could not be inhibited by the addition of synthetic peptide. Our findings indicate the presence of a soluble form of the erythropoietin receptor related to the extracellular domain that is highly correlated with enhanced erythropoiesis.
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PMID:Serum form of the erythropoietin receptor identified by a sequence-specific peptide antibody. 887 30

Studies on baboons and preliminary observations in three patients with sickle cell anemia (SS) suggested that high doses of pulse administered recombinant human erythropoietin (rHuEPO) stimulate F-reticulocyte production. We now report on the administration of rHuEPO in a double-blind format to ascertain frequency of response and potential precipitation of side effects. Ten patients were enrolled, but one was discontinued due to the indication of a blood transfusion. Of the other nine, five received rHuEPO in escalating doses (from 400 to 1,500 U per kg twice daily [BID] per week), alternating with a placebo, in blinded fashion. The second group, consisting of four patients, followed an identical protocol (except starting dose was 1,000 U/Kg, BID per week) and were iron supplemented during treatment. The criterion of response was a transient doubling (as a minimum) of the steady-state F-reticulocyte level. We found that none of the five patients in the first group responded to rHuEPO, and two of them became iron deficient, as judged by a significant decrease in ferritin. Of the second group, four patients responded with F-reticulocyte increases. In three patients, open label administration of rHuEPO confirmed the effect. We observed seven painful episodes during this study, two during the EPO administration and five during the placebo arm. Three patients were phlebotomized because the hemoglobin level increased 1.5 g/dL more than steady-state levels. Of the six patients followed-up by percent dense cell determinations, one exhibited increased levels during periods of the treatment, whereas the other five showed no change. No anti-rHuEPO antibodies were detected. We conclude that rHuEPO can stimulate F-reticulocyte response in some patients with sickle cell anemia, without apparent negative clinical side effects. The state of iron stores may be critical. Whether higher doses of rHuEPO and/or a different regimen might induce sustained F cells and fetal hemoglobin increases remains to be determined.
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PMID:F reticulocyte response in sickle cell anemia treated with recombinant human erythropoietin: a double-blind study. 841 6

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