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)

A new hematopoietic growth factor (Steel factor) has been identified which stimulates erythroid proliferation both in vitro and in vivo. We evaluated the influence of recombinant Steel factor on hemoglobin synthesis in peripheral blood (PB) BFU-E-derived cells from normal donors by radioimmunoassay (RIA) and compared it with stimulation with GM-CSF and interleukin-3 (IL-3). Only Steel factor stimulated a significant increase in BFU-E-derived colony size and a significant increase in fetal hemoglobin (HbF) in BFU-E-derived erythroblasts from 0.49% +/- 0.27% to 6.33% +/- 1.11% in serum-deprived media and from 1.88% +/- 0.24% to 11.17% +/- 0.91% in serum. To determine whether this influence on hemoglobinization also occurred in sickle cell disease, we studied 13 patients with sickle cell disease. In serum-deprived conditions, there was a significant increase in the number and size of BFU-E-derived colonies with Steel factor that was dose-dependent. In addition, the proportion of HbF in progenitor-derived cells increased by 66% from 4.1% +/- 0.6% to 6.8% +/- 1.2% with Steel factor. In serum-containing conditions studied in 12 patients, the increase in percentage of HbF was even greater, from 10.7% +/- 0.9% in control cultures to 22.5% +/- 2.6% with Steel factor. These increases in percentage of HbF were significant and dose-dependent. An increase in percentage of HbF was observed in erythroblasts harvested on day 11, 14, and 18 of culture. A decrease in mean picograms of total Hb per cell after coculture with Steel factor was noted, suggesting that growth kinetics influenced complete hemoglobinization. In serum-deprived conditions, picograms of HbF per cell was not affected by Steel factor, and in serum-containing conditions that augment in vitro HbF production it was enhanced. Thus, Steel factor stimulated a significant increase in percentage of HbF in erythroid cells from normal donors and patients with SCA in vitro.
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PMID:Influence of steel factor on hemoglobin synthesis in sickle cell disease. 137 91

Reactivation of fetal hemoglobin (HbF, alpha 2 gamma 2) synthesis was previously reported in normal human adult erythroblast colonies ("bursts") generated by erythroid progenitors (BFU-E) in fetal calf serum-supplemented (FCS+) semisolid cultures stimulated with erythropoietin (Ep). Our studies focused on the reactivation of HbF synthesis in normal adult erythroid bursts generated by peripheral blood mononuclear cells (PBMCs) seeded in FCS+ methylcellulose culture. Reactivation is almost totally suppressed when (a) PBMCs are grown in optimized FCS- culture, or (b) PBMCs are first stringently depleted of monocytes and then plated in FCS+ medium (ie, BFU-E growth in FCS+ Mo- culture). In both experimental conditions, the proliferation of lymphocytes and macrophages interspersed among colonies is drastically reduced, and the cloning efficiency of granulocyte-macrophage (GM) progenitors is sharply diminished. In either case, addition of biosynthetic GM colony-stimulating factor (GM-CSF) induces a dose-related increase of HbF synthesis up to the level in FCS+ culture, with even more elevated values on delayed addition of Ep. A dose-related increase was also observed in erythroblast clones generated by highly purified BFU-E. These results suggest that reactivation of HbF synthesis in normal adults is at least in part mediated by GM-CSF. Furthermore, they imply intriguing hypotheses on the mechanism(s) of perinatal Hb switching. Finally, they raise the possibility of reactivation of HbF synthesis in beta-thalassemia and sickle cell anemia by GM-CSF therapy.
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PMID:Granulocyte-macrophage colony-stimulating factor reactivates fetal hemoglobin synthesis in erythroblast clones from normal adults. 247 26

We tested various shunt systems for pressure/flow characteristics and long-term reliability. In addition, we used a model to simulate activities of daily life postural changes, blood and airway pressure changes and their impact on CSF pressure and flow through various ventriculo-peritoneal shunt systems. In the recumbent position, the changes in flow rate and CSF pressure depended on the valve resistance. Various valves showed deviations from the pressure/flow characteristics claimed for them and proved to be unreliable during long-term perfusion. The flow rate increased in the head-up position. Negative intracranial CSF pressure was due to the continued flow through the shunt system afforded by the siphon effect. The siphon effect was so marked in the upright position that valves of various kinds and with various resistances did not make any significant difference in the resulting intracranial pressure (ICP). The shunt systems, however, differed in the maximum flow rate in the upright position, leading to a different steep fall in ICP following elevation of the body. Ball-and-spring valves had the highest flow rates (> 500 ml/h), leading to negative ICP within seconds. Diaphragm valves, and especially the self-adjusting diaphragm valve, demonstrated a slower drop in ICP, taking several minutes to reach negative ICP. ASD and SCD, however, did prevent any siphoning effects, leading to an ICP within the corresponding valve opening/closing pressure range. Our results demonstrate that in most patients there is no significant difference in various different shunting systems as long as the patient is mobile.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Is there a reasonable differential indication for different hydrocephalus shunt systems? 762 78

Sickle cell anemia (SS) patients can be divided into two sub-populations according to peripheral HbF levels. Patients with low (< 9%) HbF levels (LFSS) are characterized by an increased number of circulating BFU-E in active DNA synthesis, and release of burst promoting activity (BPA) by unstimulated low density (LD) adherent cells. In contrast, circulating BFU-E from SS patients with high (> 9%) HbF levels (HFSS) are normal in number, largely in resting phase, and their LD cells do not release BPA-like activity. More recently further heterogeneity has been found among these two groups. In LFSS patients GM-CSF is constitutively produced by unstimulated monocytes. In contrast, HFSS patients' adherent cell depletion increases cycling of BFU-E in culture. CM from HFSS patients inhibits BFU-E expression in culture. Hence, LD adherent cells from HFSS patients may release an inhibitory factor(s). The nature of this factor has to be determined. In addition, there are distinct subpopulations of BFU-E responsiveness to growth factor (GM-CSF, IL-3): a) LFSS patients have a homogeneous BFU-E population, equally responsive to GM-CSF and IL-3; b) HFSS patients, in addition to this subpopulation, have a subset of BFU-E dependent exclusively on IL-3 which is 20 to 40% of the total number of circulating BFU-E. This is similar to BFU-E from normal individuals. Hence, LFSS BFU-E represent an actively proliferating population, equally responsive to GM-CSF and IL-3, controlled by at least constitutively produced GM-CSF and possibly other factors. These observations suggest a significant modification in BFU-E behavior in the subset of SS patients with low HbF levels and high hemopoietic stress. The heterogenous regulation of BFU-E in SS disease seems to be an epiphenomenon of HbF levels, and not vice-versa.
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PMID:Early circulating erythroid progenitors (BFU-E) in sickle cell anemia. 768 1

Sickle cell anaemia (SS) patients with low (< 9%) HbF levels (LFSS) are characterized by an increased number of circulating BFU-E in active DNA synthesis, and release of burst promoting activity (BPA) by unstimulated low density (LD) adherent cells. In contrast, circulating BFU-E from SS patients with high (> 9%) HbF levels (HFSS) are normal in number, largely in resting phase, and their LD cells do not release BPA-like activity. We report now that in LFSS patients, adherent cell depletion decreases BFU-E growth in culture and apparent BFU-E cycling. Furthermore, addition of conditioned media (CM) from LD cells of LFSS patients restored cycling BFU-E expression in culture. Neutralization analysis with anti-GM-CSF antibody demonstrated that GM-CSF is, at least, one factor responsible for BPA activity present in this CM. Thus, GM-CSF is constitutively produced by unstimulated monocytes in LFSS patients. In contrast, HFSS patients' adherent cell depletion increases cycling of BFU-E in culture. CM from HFSS patients inhibits BFU-E expression in culture. Hence, LD adherent cells from HFSS patients may release a yet unknown inhibitor factor(s). In addition, we report a distinct response pattern in SS patients' BFU-E to growth factor (GM-CSF, IL-3): (a) LFSS patients have a BFU-E population, equally responsive to GM-CSF and IL-3; (b) HFSS patients, have a subset of BFU-E exclusively dependent on IL-3 (20-40% of the circulating BFU-E). This pattern is very similar to that of normal BFU-E. In conclusion, BFU-E from LFSS patients represent an actively proliferating population, equally responsive to GM-CSF and IL-3, controlled by constitutively produced GM-CSF, suggesting a unique BFU-E behaviour in SS patients with low HbF levels and high haemopoietic stress. The heterogeneous regulation of BFU-E in SS disease seems to be the epiphenomenon of HbF levels, and not vice versa.
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PMID:Inhomogeneity of the circulating BFU-E regulation in sickle cell anaemia: accessory cells properties and BFU-E growth factor response pattern. 769 29

Two children affected by severe aplastic anaemia and sickle cell anaemia rejected the allogeneic bone marrow transplantation from an HLA-matched unrelated volunteer and an HLA-identical sibling, respectively. In both cases a second transplant using granulocyte-colony stimulating factor (G-CSF) mobilized peripheral blood stem cells (PBSC) was performed. Donors were the HLA-haploidentical mother and the same HLA-identical sibling who was employed for the first marrow allograft, respectively. Treatment with G-CSF and PBSC collection were well tolerated. Both patients had engraftment of donor haemopoiesis and did not experience severe graft-versus-host disease. These cases confirm that PBSC transplant should be considered as a feasible treatment to reverse graft failure in paediatric patients.
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PMID:Recombinant human G-CSF-mobilized peripheral blood stem cells for second allogeneic transplant after bone marrow graft rejection in children. 860 13

Adhesion of sickle erythrocytes to vascular endothelium plays a central role in sickle cell disease complications. Cytokines and adhesion molecules are critically involved in the regulation of these adhesive processes. To analyze their role, IL-6, GM-CSF, sVCAM-1, sICAM-1, sE-Selectin, and sP-Selectin serum levels were determined in sickle cell patients under basic conditions and during vasoocclusive crisis. In nonsymptomatic patients a high serum level of sVCAM-1 was observed compared to controls. In patients having vasoocclusive crisis sVCAM-1 levels increased even more and seemed to correlate with crisis evolution.
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PMID:Enhanced levels of soluble VCAM-1 in sickle cell patients and their specific increment during vasoocclusive crisis. 880 48

The vaso-occlusive process (VOC) in sickle cell disease is of a complex nature. It involves intricate interactions between sickle red blood cells, endothelium and probably also leukocytes. As these interactions are regulated by cytokines, we analyzed the role of the potent neutrophil chemokine IL-8 by measuring serum levels in sickle cell patients during sickle cell crisis. These results were compared to nonsymptomatics and healthy controls. In patients having a vaso-occlusive crisis both HbSS and HbSC patients showed significantly enhanced serum IL-8 levels compared to healthy controls. Several of these patients showed extremely elevated serum IL-8 levels which were independent of the crisis inducing factor. Furthermore, a sickle cell patient with VOC as a complication of rhGM-CSF treatment similarly showed high IL-8 serum levels at crisis onset. Nonsymptomatic sickle cell patients serum IL-8 levels were comparable to healthy controls. These results implicate a role for IL-8 at or during (the initiation of) sickle cell crisis.
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PMID:Elevated IL-8 levels during sickle cell crisis. 985 44

A hemoglobin F (HbF) level between eight and nine percent divides sickle cell anemia (SS) patients into two populations, according to the kinetics of circulating burst forming units-erythroid (BFU-E), long term culture-initialing cells (LTC-IC), and cytokine plasma concentrations. The SS patients with HbF levels lower than 8-9% are more anemic (LFSS patients) than those with HbF levels higher than 8-9% who have less severe anemia (HFSS patients). We report here that the level of erythropoiesis [evaluated by the levels of soluble transferin receptors (sTfR)] is not identical in these two patient populations, supporting the idea that a different set of regulatory mechanisms might be required to maintain the two levels of increased hematopoiesis. The plasma sTfR concentration was increased in all SS samples compared with controls (P < 0.002) and sTfR levels were negatively correlated with peripheral HbF%. (r = -0.574, P < 0.002). Furthermore, sTfR levels were higher in LFSS than in HFSS patients. Erythropoietin (Epo) levels were increased in the plasma of LFSS individuals (range = 34-215 ml U/ml), while the values in HFSS patients were in the normal range (3-20 ml U/ml). Furthermore, we identify here stem cell factor (SCF) and transforming growth factor-beta (TGF-beta) as regulatory factors specifically affected by the presence of SS genotype and its level of severity. The plasma concentrations of SCF and TGF-beta were increased compared with normal controls and high levels of SCF (up to 7,000 pg/ml) were detected in LFSS patients. The latter also showed increased proportion of SCF+ CD34 enriched circulating cells (49%). Low SCF in HFSS patients is associated with elevated TGF-beta, suggesting a regulatory role of the latter on either SCF release or c-kit expression in progenitor cells. Occasional elevation of granulocyte macrophage-colony stimulating factor (G-CSF), interleukin (IL)-7, and macrophage inflammatory protein (MIP)-1alpha in plasma of SS patients is not specific because no relation to HbF could be demonstrated. All plasma tested for leukemia inhibitory factor (LIF) were negative. Data presented here, complementing previously published information, supports a model in which HFSS patients achieve a balance between inhibitory (TGF-beta) and stimulatory (SCF, IL-3) factors, resulting in moderate erythropoietic response. In contrast, in LFSS patients, low levels of TGF-beta and the increased release of GM-CSF and SCF maintain the intense erythropoiesis in response to higher erythropoietic stress, in these more severe patients.
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PMID:Circulating cytokines response and the level of erythropoiesis in sickle cell anemia. 992 1

There is great interest in the use of peripheral blood stem cells (PBSC) for allogeneic transplantation, based on the good results seen with autologous PBSC infusion. Reasonable caution exists regarding the use of allogeneic PBSC for transplantation because of donor toxicities due to rhG-CSF administration and the risk of graft-versus-host-disease (GVHD) in the recipient because of the large number of T-cell infused. We present preliminary data on allogeneic PBSC collections and transplantation in ten patients affected by advanced leukemia (eight patients), severe aplastic anemia (one patient) and sickle cell anemia (one patient). Seven donors were HLA-identical siblings, while the other three were mismatched for three, two and one locus, respectively. All donors received rhG-CSF at a dose of 12 micrograms/kg for a mean of 5 days. Leukaphereses were performed with the aim of collecting a minimum of 5 x 10(6)/kg (recipient's weight) CD 34+ cells. Collection timing was determined by monitoring CD 34+ cells in the donor's peripheral blood from the second day of rhG-CSF therapy. The PBSC collections yielded a mean of 10.05 x 10(8) MNCs/kg and of 10.48 x 10(6) CD 34+ cells/kg (recipient's weight). PBSC were immediately infused after collection in patients given myeloablative therapy. Engraftment was observed in each patient at a mean of 13.2 days for an absolute neutrophil count (ANC) more than 0.5 x 10(9)/L and of 26.5 days for a platelet count of more than 20 x 10(9)/L. Eight patients experienced no or moderate acute GVHD, whereas two patients died of grade 4 GVHD, notwithstanding GVHD prophylaxis with cyclosporine and prednisone. Two other patients died of viral and fungal infections, respectively, despite prophylaxis. The remaining six patients are alive between 58 and 430 days after transplant. Our results document that allogeneic PBSC are capable of engraftment after a myeloablative regimen. Controlled trials are necessary to compare the potential benefits of this approach with the results obtained in allogeneic bone marrow transplantation.
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PMID:Peripheral blood stem cell collection from healthy donors for allogeneic transplantation. 1016 49


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