UMLS:C0026986 - FACTA Search

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Query: UMLS:C0026986 (myelodysplastic syndrome)
14,926 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The GM-CSF receptor belongs to the cytokine receptor superfamily. The high-affinity receptors of this class are lacking intrinsic tyrosine kinase domains. The GM-CSF receptor consists of alpha and beta subunits. The beta subunit is shared with the receptors of IL-3 and IL-5. In addition to the membrane bound forms the receptors have been found to possess soluble isoforms. Since retroviral infection of the human GM-CSF dependent cell line, TF-1, leads to factor independent growth by increased expression of the GM-CSF receptor alpha chain in a subgroup of infected clones, we were interested in studying the role of this chain in human AML. Further considering that a point mutation in the extracellular domain of the erythropoietin receptor, also a member of the cytokine receptor superfamily, resulted in constitutive activation of a murine cell line, we investigated the possibility that a point mutation of the GM-CSF receptor was responsible for autonomous growth of AML cells. We sequenced a segment of the receptor coding for the extracellular domain of the alpha subunit. cDNA was prepared from peripheral blood or bone marrow cells from 24 patients with AML, from four patients with MDS and from three human myeloid cell lines. The region of interest was amplified with two rounds of PCR reactions with nested primers, covering five overlapping fragments, and directly sequenced using a non-radioactive technique. No point mutations were found in the investigated samples. Thus, point mutations in this segment of the GM-CSF receptor gene do not seem to play an important role in the transformation process of human acute leukemia.
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PMID:Absence of point mutations in the extracellular domain of the alpha subunit of the GM-CSF receptor in a series of patients with acute myeloid leukemia (AML). 784 15

Ineffective erythropoiesis due to an impaired response to erythropoietin (EPO) is a prominent abnormality in myelodysplastic syndromes (MDS). The growth factor kit ligand (KL) may restore the in vitro erythroid colony-forming response to EPO in a subset of patients. The inability of MDS erythroid progenitors to react properly to EPO and/or KL has not been resolved. We have investigated erythropoietin receptor (EPO-R) and KL receptor (c-kit) expression in 15 cases of MDS by FACS analysis. The percentage of bone marrow cells expressing the EPO-R from patients with MDS were comparable to normal marrow. No apparent correlation was found between the number of MDS cells coexpressing the EPO-R and CD34 and impaired erythroid response. C-kit was expressed in most MDS patients, including those not responding to KL in EPO-induced cultures. In nine MDS cases the different splice variants of the EPO-R were analyzed. MDS cells, like normal marrow, expressed the full length EPO-R. These results show that impaired erythroid response in MDS cannot be explained by a quantitative lack of receptors for EPO or KL and that most likely suppression of erythroid response is caused by defective receptor signalling following ligand binding, representing a functional defect within the receptor itself or at a level downstream of the receptor.
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PMID:Erythropoiesis in myelodysplastic syndrome: expression of receptors for erythropoietin and kit ligand. 864 63

The human erythropoietin receptor (EpoR) gene has been cloned and characterized. Very few EpoR genetic abnormalities have been reported so far. Polycythemia vera (PV) is characterized by low/normal serum erythropoietin (Epo) levels with proposed Epo hypersensitivity. Myelodysplastic syndromes (MDS) are characterized by refractory anemia with variable serum Epo levels. Several reports have suggested EpoR abnormalities in both types of stem cell disorders. We analyzed DNA obtained from peripheral blood mononuclear cells of seven healthy controls, 20 patients with myeloproliferative disorders (MPD, 11 patients with PV, five agnogenic myeloid metaplasia with myelofibrosis, four essential thrombocytosis) and eight patients with refractory anemia with ringed sideroblasts (RARS), an MDS variant. The DNA was digested with four restriction enzymes (BamHI, Bgl II, Sacl and HindIII), followed by Southern blot, using a 32P radiolabeled probe, containing 1.5 kb of the human EpoR cDNA. All 20 MPD patients and seven out of the eight MDS patients demonstrated a restriction pattern which was identical to the seven normal controls, as well as to the erythroid cell line K562, and also consistent with the expected restriction map, for all four enzymes tested. One RARS patient had a normal pattern with three enzymes but a different one with HindIII. The HindIII 12 kb large band was replaced by a faint 12 kb band and a new (about 9 kb) band appeared. The EpoR restriction map and the normal pattern obtained with the other three enzymes suggest that this patient has a 3 kb upstream deletion in one allelic EpoR gene. The same molecular pattern was detected in the patient's sister, who suffers from anemia with mild bone marrow (BM) dyserythropoiesis and plasmacytosis. Northern blot analysis showed that the patient's BM RNA carried normal EpoR message. This familial pattern may represent polymorphism. However, the patient's very high serum Epo level, her resistance to treatment with recombinant Epo, and the abnormally low growth rate of in vitro erythroid cultures, suggesting poor response to Epo in this MDS patient as well as the hematological abnormalities in her sister, support the speculation that the different EpoR gene might serve as a genetic predisposing marker and potentially could be involved (probably via post-transcriptional mechanisms and by an interaction with other factors or cytokines) in the pathogenesis. Our data suggest that the EpoR is intact in MPD and in most patients with RARS. One RARS patient had a familial different genetic structure, which could represent polymorphism. However, we can speculate also that it might be involved in the pathogenesis of the disease.
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PMID:Analysis of the erythropoietin receptor gene in patients with myeloproliferative and myelodysplastic syndromes. 870 17

Myelodysplastic syndromes are clonal diseases of the hematopoietic stem cell with normal or increased bone marrow cellularity and peripheral cytopenias. Pathophysiology of these diseases is complex with frequent ras mutations, a growth defect of immature progenitors mainly erythroid progenitors, and increased apoptosis of differentiated cells. This growth defect could be linked to (1) a resistance to hematopoietic cytokine stimulation although, erythropoietin receptor expression and functionality are normal and/or (2) increased susceptibility to apoptosis due to overexpression of the death domain receptor Fas on CD34+, CD33+ and GPA+ cells. Stromal cells are thought to produce increased quantities of inhibitory cytokines such as TNF-alpha, TGF-beta, IFN gamma et IL-1. Better understanding of MDS pathophysiology is required for applying adequate therapy either blocking apoptosis or stimulating hematopoiesis.
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PMID:[Physiopathology of myelodysplastic syndromes]. 1208 71

Primary familial and congenital polycythemia (PFCP), inherited as an autosomal dominant trait, has been reported to be associated with mutations in the gene encoding the erythropoietin receptor (EpoR). The clinical features include the presence of isolated erythrocytosis, low erythropoietin (Epo) levels, normal hemoglobin-oxygen dissociation curve, hypersensitivity of erythroid progenitors to exogenous Epo in vitro and no progression to leukemia or myelodysplastic syndrome. Less than 15% of PFCP families have an identifiable EPOR mutation. Abnormalities of other genes are therefore likely responsible for the phenotype of the majority PFCP patients. In this study we report a family segregating PFCP with an autosomal dominant pattern of inheritance, where 7 of 14 members of the family were affected in four generations. This family was studied previously and an EPOR mutation was ruled out by sequencing and by genetic means. Here, we confirmed by linkage analysis that the disease phenotype was not linked to the Epo and EPOR genes. We then performed a genomewide screen with 410 polymorphic markers at average spacing 7.67 cM to locate the chromosomal region responsible for PFCP. We identified a region in 7q22.1-7q22.2 with a suggestive LOD score of 1.84, from our data this is the most likely location of a candidate region responsible for PFCP in this family.
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PMID:Possible primary familial and congenital polycythemia locus at 7q22.1-7q22.2. 1463 47

The IMiDs represent a new proprietary class of thalidomide analogues that possess greater potency and less toxicity than the parent compound. As a group, these agents share the pharmacologic property of modulating cellular response to ligand activation, the precise biologic effect of which is cell lineage and stimulant-dependent. Lenalidomide (CC-5013; Revlimid), a second generation IMiD, has shown significant erythropoietic activity in patients with lower risk MDS that have failed or are not candidates for recombinant erythropoietin treatment. Unlike cytokine therapy, lenalidomide suppresses select MDS clones and enhances erythropoietin receptor signaling to restore erythropoiesis. Activity is greatest in patients with interstitial deletions involving chromosome 5q31.1. A multicenter phase II study reported a 76 % overall transfusion response rate in transfusion-dependent patients with deletion 5q, with 67 % achieving transfusion independence after a median interval of 4.6 weeks of treatment. Cytogenetic responses were observed in 73% of patients with complete cytogenetic remission in 45% patients. Both transfusion response and cytogenetic response frequency were independent of karyotype complexity, raising excitement that this new treatment strategy might favorably alter the natural history of disease in higher risk patients with deletion 5q. Lenalidomide was approved by the U.S. Food and Drug Administration on December 27, 2005, for the treatment of IPSS Low and intermediate-1 risk MDS patients with del(5q) abnormality. A phase III Intergroup trial (ECOG 2905) will test the capacity to potentiate erythropoietin response by comparing response to lenalidomide monotherapy to the combination of darbepoetin and lenalidomide in non-deletion 5q MDS patients.
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PMID:Immunomodulatory drugs (IMiDs): a new treatment option for myelodysplastic syndromes. 1707 50

Lenalidomide was approved by the US Food and Drug Administration (FDA) for treatment of transfusion-dependent lower-risk myelodysplastic syndrome patients with deletion (del) (5q) alone or with additional karyotype abnormalities. The approval was based on high rates of prolonged transfusion independence and complete cytogenetic response in this subset. In lower-risk non-del(5q) patients, meaningful erythroid responses also were reported with a low frequency of cytogenetic improvement, although inferior to that observed in the del(5q) patients. There is now a better understanding of the mechanism of the karyotype-dependent drug action, explaining the disparate response rates and frequency of myelosuppression. In del(5q) patients, lenalidomide suppresses the clone by inhibiting the nuclear sequestration of the haplodeficient cell cycle regulatory protein cdc25c, thereby promoting selective G2 arrest and apoptosis. In non-del(5q) patients, lenalidomide enhances erythropoietin receptor signaling. Future directions include use of biologic and molecular markers as predictive tools to select patients and use of combination strategies to overcome resistance to lenalidomide in del(5q) patients or enhance erythropoiesis in non-del 5 patients.
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PMID:Lenalidomide for treatment of myelodysplastic syndromes: current status and future directions. 2035 32

Thrombopoietin (TPO) receptor agonists represent a new approach for the treatment of thrombocytopenia, which may develop as a consequence of immune thrombocytopenia, chemotherapy treatment, chronic hepatitis C infection, or myelodysplastic syndromes. There are concerns that use of certain growth factors can hasten disease progression in some types of hematologic malignancies and solid tumors. In this study, expression of MPL (TPO-R) mRNA was examined in tumor cell lines, patient tumor samples (renal cell carcinoma, prostatic carcinoma, soft tissue and bony/cartilage sarcoma, colon cancer, and lymphoma), and normal tissues using microarray analysis and qRT-PCR. MPL mRNA is expressed at very low or undetectable levels compared with erythropoietin receptor (EPOR), human epidermal growth factor (ERBB2; HER2), and insulin-like growth factor-1 receptor (IGF1R) in these patient samples. These data suggest TPO-R agonists will likely preferentially stimulate proliferation and differentiation of cells of megakaryocytic lineage, potentially demonstrating their utility for correcting thrombocytopenia in clinical settings.
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PMID:Thrombopoietin receptor levels in tumor cell lines and primary tumors. 2131 60

Recombinant human erythropoietin (rhEPO) is arguably the most successful therapeutic application of recombinant DNA technology till date. It was isolated in 1977 and the gene decoded in 1985. Since then, it has found varied applications, especially in stimulating erythropoiesis in anemia due to chronic conditions like renal failure, myelodysplasia, infections like HIV, in prematurity, and in reducing peri-operative blood transfusions. The discovery of erythropoietin receptor (EPO-R) and its presence in non-erythroid cells has led to several areas of research. Various types of rhEPO are commercially available today with different dosage schedules and modes of delivery. Their efficacy in stimulating erythropoiesis is dose dependent and differs according to the patient's disease and nutritional status. EPO should be used carefully according to guidelines as unsolicited use can result in serious adverse effects. Because of its capacity to improve oxygenation, it has been abused by athletes participating in endurance sports and detecting this has proved to be a challenge.
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PMID:Erythropoietin use and abuse. 2247 Aug 58

Epigenetic silencing of the tumor suppressor gene p15Ink4b (CDKN2B) is a frequent event in blood disorders like acute myeloid leukemia and myelodysplastic syndromes. The molecular function of p15Ink4b in hematopoietic differentiation still remains to be elucidated. Our previous study demonstrated that loss of p15Ink4b in mice results in skewing of the differentiation pattern of the common myeloid progenitor towards the myeloid lineage. Here, we investigated a function of p15Ink4b tumor suppressor gene in driving erythroid lineage commitment in hematopoietic progenitors. It was found that p15Ink4b is expressed more highly in committed megakaryocyte-erythroid progenitors than granulocyte-macrophage progenitors. More importantly, mice lacking p15Ink4b have lower numbers of primitive red cell progenitors and a severely impaired response to 5-fluorouracil- and phenylhydrazine-induced hematopoietic stress. Introduction of p15Ink4b into multipotential progenitors produced changes at the molecular level, including activation of mitogen-activated protein kinase\extracellular signal-regulated kinase (MEK/ERK) signaling, increase GATA-1, erythropoietin receptor (EpoR) and decrease Pu1, GATA-2 expression. These changes rendered cells more permissive to erythroid commitment and less permissive to myeloid commitment, as demonstrated by an increase in early burst-forming unit-erythroid formation with concomitant decrease in myeloid colonies. Our results indicate that p15Ink4b functions in hematopoiesis, by maintaining proper lineage commitment of progenitors and assisting in rapid red blood cells replenishment following stress.
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PMID:The role of tumor suppressor p15Ink4b in the regulation of hematopoietic progenitor cell fate. 2335 17

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