UMLS:C0002871 - FACTA Search

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Query: UMLS:C0002871 (anemia)
52,094 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Mutations at the dominant white spotting (W) and Steel (Sl) loci in mouse exert deleterious effects on three migratory cell lineages (primordial germ cells, melanocytes and hematopoietic stem cells) resulting in loss of pigmentation, reduced fertility and anemia. The W locus encodes the c-kit protein tyrosine kinase (TK) receptor. More recently, the Sl locus has been shown to encode a ligand for c-kit, which is variously known as mast cell growth factor (MGF), stem cell growth factor and c-kit ligand. Here we report an in situ hybridization analysis comparing the expression profiles of MGF and c-kit transcripts during mouse embryogenesis. The data are consistent with the c-kit receptor-ligand complex providing a homing mechanism during stem cell migration in early development and in stem cell proliferation, differentiation, or survival in late development. In the nervous system, an unexpected and complex pattern of expression is uncovered that suggests involvement of the W and Sl gene products in the organization of the neural tube and brain.
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PMID:Embryonic RNA expression patterns of the c-kit receptor and its cognate ligand suggest multiple functional roles in mouse development. 171 75

Mouse strains carrying mutations at the Dominant White Spotting (W) locus or the Steel (Sl) locus are anemic and display defects in pigmentation and gametogenesis. In W mutants the anemia is due to a deficiency of hemopoietic stem cells and, in Sl mutants, to a deficiency of supporting stromal cells in the bone marrow. The W locus encodes the c-kit proto-oncogene product, a cell surface receptor with protein-tyrosine kinase activity, and the Sl locus encodes its ligand, a hemopoietic cytokine known variously as Steel factor (SLF), mast cell growth factor, stem cell factor, and Kit ligand. SLF can synergize with a number of other cytokines to stimulate growth of hemopoietic progenitors in vitro and stimulates blood cell production in vivo in animals. Here we review the biological activities of SLF, with particular emphasis on its effects on hemopoietic stem and progenitor cells. We also discuss present knowledge of the molecules involved in SLF-triggered signal transduction, and speculate on potential therapeutic applications for SLF in human disease.
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PMID:The kit receptor and its ligand, steel factor, as regulators of hemopoiesis. 172 56

Although the proliferative effects of hematopoietic cytokines on erythroid progenitors are well known, parameters that influence the initiation of expression of specialized or lineage-restricted genes are not clear. We have studied the acquisition of erythroid-differentiative features from enriched populations of human early erythroid progenitors (burst-forming unit-erythroid [BFUe]) in suspension culture and the influence of several cytokines on this process. In suspension cultures containing no erythropoietin (Epo), we have found that kit ligand (KL) in synergy with interleukin-3 not only increases the proliferation of cells and of progenitors but also consistently amplifies a population of cells that contain globin within 1 week. Our experiments suggest that neither extraneously provided nor endogenously produced Epo is critical for the generation of globin-synthesizing cells. Globin-producing cells generated mostly from late BFUe or pre-CFUe with a CD34-/EP-1+ phenotype in this system do not all express a well-coordinated erythroid program accompanied by heme or glycophorin A expression and most die maintaining an immature state. Therefore, conditions that are responsible for initiation of globin expression in these cells are not sufficient to carry them to terminal maturation. The data point to an expanded target cell population for KL, as they suggest an influence of KL on survival and/or amplification of late erythroid cells previously thought to be influenced only by Epo. Our results in aggregate are of relevance to the physiology of normal erythropoiesis and the role of Epo and KL in the initial stages of lineage-restricted gene expression. In addition, they provide insight into the understanding of anemia in W and Steel mutants in which expansion of the late erythroid progenitor pool, normally dependent on the synergistic action of KL and Epo, is curtailed.
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PMID:Kit ligand in synergy with interleukin-3 amplifies the erythropoietin-independent, globin-synthesizing progeny of normal human burst-forming units-erythroid in suspension cultures: physiologic implications. 767 8

W/Wv and S1/S1d mice with macrocytic anemias are a potential model for human inherited pure red cell anemia, called Diamond-Blackfan anemia (DBA). The W mutation involves the gene for c-kit, and the S1 mutation the gene for the kit ligand, called mast cell growth factor, steel factor, or stem cell factor. Since many children with DBA respond to treatment with corticosteroids, we administered steroids to these genetically anemic mice, to determine whether they might provide a model for the human disease. There was no improvement in the murine anemia, consistent with other evidence suggesting that mutations in kit or steel may not be involved in Diamond-Blackfan anemia.
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PMID:Lack of effect of corticosteroids in W/Wv and S1/S1d mice: these strains are not a model for steroid-responsive Diamond-Blackfan anemia. 768 5

The pathophysiological abnormalities leading to marrow failure and leukemogenesis in children with Fanconi anemia (FA) are not understood. We tested the hypothesis that the Fanconi anemia mutation results in insufficient production of hematopoietic growth factors by stromal cells by quantifying constitutive and induced production of interleukin-6 (IL-6), granulocyte-macrophage colony-stimulating factor (GM-CSF), granulocyte colony-stimulating factor (G-CSF), macrophage colony-stimulating factor (M-CSF), and steel factor (SF) by untransformed fibroblasts from eight patients with FA from five different families. While no abnormalities were noted in SF or M-CSF production, we noted substantial variability in IL-6, GM-CSF, and G-CSF responses of cells obtained from different FA patients. Responses ranged from blunting to augmentation when compared to normal controls. Because there was variation between fibroblast strains from affected members of two multiplex sibships, however, it is clear that neither augmentation nor blunting is a direct effect of the FA mutations. In addition, because there was discordance between the G-CSF responses and the GM-CSF and IL-6 responses, the abnormalities noted in IL-1 responsiveness must lie distal to IL-1 receptor function and to stimulus-response coupling pathways shared between the three cytokines.
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PMID:Constitutive and induced expression of hematopoietic growth factor genes by fibroblasts from children with Fanconi anemia. 769 32

Targeted mutagenesis studies were initiated to determine the normal biological function of the c-myb proto-oncogene. While heterozygous mice are phenotypically indistinguishable from their wild-type littermates, homozygous mutant fetuses die at approximately 15.5 days of gestation apparently due to anemia, which results from an inability to switch from embryonic yolk sac to fetal liver erythropoiesis. Studies are currently being done to determine the extent of hematopoietic abnormalities in the homozygous mutant fetuses. In vitro assays for hematopoietic colony-forming cells have been used to determine the frequency of both erythroid and myeloid progenitors in the fetal livers of wild-type, heterozygous, and homozygous mutant c-myb fetuses. The reduced number of erythroid progenitors was not unexpected considering the mutant fetus's pale color and reduced hematocrit. The dramatically reduced number of colonies derived from myeloid progenitors in the mutant fetuses in comparison to the number detected in phenotypically normal littermates suggests that expression of the c-myb proto-oncogene is critical for the proliferation and/or differentiation of early hematopoietic progenitors and possibly hematopoietic stem cells. Other possible explanations would include a hematopoietic progenitor migration problem from the yolk sac to the fetal liver or a defect in the microenvironment of the liver. Whether the lymphoid lineage is also adversely affected by the lack of c-myb expression remains to be determined. RT-PCR and Northern blot analyses were used in an attempt to identify downstream genes which may be directly or indirectly regulated by the Myb gene product. While the levels of expression of several genes involved in erythropoiesis (GATA-1, NF-E2, SCL, and EpoR) were reduced in the livers of homozygous mutant fetuses in comparison to phenotypically normal littermates and one gene, Kit ligand (KL), was expressed at higher levels in the mutant livers, these results must be viewed with caution. The livers of the mutant fetuses have been shown to be hypocellular in comparison to those of phenotypically normal littermates (35). It is possible that the Myb gene product is directly or indirectly modulating the expression of these genes. Conversely, the alteration in expression may be due to the reduced number or absence of specific hematopoietic lineages in the livers of the mutant fetuses. Differential display has also been used to identify putative novel genes that are involved in hematopoiesis. Preliminary studies suggest that this may be a powerful methodology to compare the expression pattern of genes in the fetal liver of wild-type, heterozygous, and homozygous mutant littermates at 14.5 days of gestation. To date nearly 60% of the partial cDNAs subcloned analyzed have been shown to be differentially expressed. More importantly, 75% of the differentially expressed cDNAs that have been sequenced appear to encode novel genes. Whether any of these novel genes are involved in the c-myb transcriptional cascade remains to be determined. Overall, analysis of the c-myb mutant fetuses have provided valuable insight into the biological function of this interesting proto-oncogene. The continued analysis of this resource will undoubtedly provide additional information concerning the role of the c-myb gene in hematopoiesis.
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PMID:Functional analysis of the c-myb proto-oncogene. 858 67

The interaction of the hormone erythropoietin and its receptor (EpoR) is though to be required for normal hematopoiesis. To define the role of EpoR in this process, the murine EpoR was disrupted by homologous recombination. Mice lacking the EpoR died in utero at embryonic day 11-12.5 with severe anemia. Embryonic erythropoiesis was markedly diminished, while fetal liver hematopoiesis was blocked at the proerythroblast stage. Other cell types known to express EpoR, including megakaryocytes, mast, and neural cells were morphologically normal. Reverse transcription-coupled PCR analysis of RNA from embryonic yolk sac, peripheral blood, and fetal liver demonstrated near normal transcripts levels for EKLF, thrombopoietin (Tpo), c-MPL, GATA-1, GATA-2, and alpha- and embryonic beta H1-globin but non for adult beta maj-globin. While colony-forming unit-erythroid (CFU-E) and burst-forming unit-erythroid (BFU-E) colonies were not present in cultures derived from EpoR-/- liver or yolk sac cells, hemoglobin-containing BFU-E colonies were detected in cultures treated with recombinant Tpo and Kit ligand or with Tpo and interleukin 3 and 11. Rescued BFU-E colonies expressed adult beta-globin and c-MPL and appeared morphologically normal. Thus, erythroid progenitors are formed in vivo in mice lacking the EpoR, and our studies demonstrate that a signal transmitted through the Tpo receptor c-MPL stimulates proliferation and terminal differentiation of these progenitors in vitro.
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PMID:Thrombopoietin rescues in vitro erythroid colony formation from mouse embryos lacking the erythropoietin receptor. 879 65

The c-KIT proto-oncogene encodes for a transmembrane receptor and is associated with maturation of several cell types, including germ cells. The ligand of the receptor has been identified as stem cell factor (SCF). Loss or alteration of the expression of either of these factors leads to anemia, albinism, and/or sterility in mice. We examined the expression of c-KIT and SCF by immunohistochemistry in specimens from normal and infertile human testis. All specimens were obtained in the evaluation of male subfertility. We were able to demonstrate staining for c-KIT in Leydig cells in all specimens. Normal testis stained for c-KIT in the cytoplasm of early spermatogenic cells, as well as the acrosomal granules of the round spermatids and the acrosome of testicular spermatozoa. However, staining in testis demonstrating maturation arrest failed to demonstrate acrosomal staining, and Sertoli-only specimens demonstrated staining for c-KIT in Leydig cells only. The results for SCF demonstrated an overall uniform staining of Leydig cells in all specimens. The intensity of staining of Sertoli cells increased from normal to maturation arrest to Sertoli-only specimens. Germ cell staining was consistently negative. We hypothesize that these staining patterns for SCF are due to either lack of staining of the receptor-ligand complex or overexpression of the kit ligand in tissue that does not express the kit receptor. It appears that the c-kit receptor is expressed in the acrosome of developing germ cells, as well as in Leydig cells and early spermatogenic cells, suggesting a role in the acrosome reaction, as well as germ cell maturation and differentiation.
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PMID:Expression of c-KIT and its ligand, stem cell factor, in normal and subfertile human testicular tissue. 888 3

The role of thrombopoietin (TpO) in regulations erythropoiesis is still controversial. This fact prompt us to present our own data. We found, that TpO is not able to replace erythropoietin (EpO) in stimulation of the growth of human erythroid colonies. TpO was found to be only a very weak costimulator of EpO dependent erythroid progenitors growth. This effect is however much weaker than those observed after costimulation with kit ligand or interleukin-3. The rationale for TpO application for treatment of anemia in humans seems therefore doubtful. This conclusion seems now to be supported by the results of the first trials performed in anemic patients.
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PMID:[The influence of thrombopoietin (TpO) on human erythropoiesis. In vitro studies--clinical implications]. 941 7

Myelodysplastic syndromes (MDS) may be accompanied by systemic mastocytosis. The mechanisms which play a role in the evolution of mastocytosis, however, are not well understood. We report on a case of refractory and anemia with ringed sideroblasts (RARS), and co-existing bone marrow mastocytosis. Compact mast cell (MC) infiltrates were detected in bone marrow sections by immunohistochemistry using an antibody to tryptase. In addition, the MC were found to express c-kit, the tyrosine kinase receptor for MGF (mast cell growth factor = stem cell factor, SCF). Activating point mutations in the kinase domain of c-kit (often found in mastocytosis) were not detectable. However, the mononuclear cells (MNC) of the bone marrow expressed mRNA specific for MITF, a transcription factor that regulates expression of c-kit and differentiation of MC. Surprisingly, the c-kit ligand SCF was found to augment expression of MITF mRNA in bone marrow MNC. Whether this augmentation represents a general response (preventing loss of growth factor receptor expression during cell maturation) common to all types of hemopoietic progenitors, or is confined to (some forms of) mastocytosis, remains unknown.
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PMID:Detection of mi transcription factor (MITF) mRNA in a case of myelodysplastic syndrome and bone marrow mastocytosis. 955 2

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