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Query: UNIPROT:P10721 (
c-kit
)
6,575
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Signals provided by the erythropoietin (Epo) receptor are essential for the development of red blood cells, and at least 15 distinct signaling factors are now known to assemble within activated Epo receptor complexes. Despite this intriguing complexity, recent investigations in cell lines and retrovirally transduced murine fetal liver cells suggest that most of these factors and signals may be functionally nonessential. To test this hypothesis in erythroid progenitor cells derived from adult tissues, a truncated Epo receptor chimera (EE372) was expressed in transgenic mice using a
GATA-1
gene-derived vector, and its capacity to support colony-forming unit-erythroid proliferation and development was analyzed. Expression at physiological levels was confirmed in erythroid progenitor cells expanded ex vivo, and this EE372 chimera was observed to support mitogenesis and red blood cell development at wild-type efficiencies both independently and in synergy with
c-Kit
. In addition, the activity of this minimal chimera in supporting megakaryocyte development was tested and, remarkably, was observed to approximate that of the endogenous receptor for thrombopoietin. Thus, the box 1 and 2 cytoplasmic subdomains of the Epo receptor, together with a tyrosine 343 site (each retained within EE372), appear to provide all of the signals necessary for the development of committed progenitor cells within both the erythroid and megakaryocytic lineages.
...
PMID:A minimal cytoplasmic subdomain of the erythropoietin receptor mediates erythroid and megakaryocytic cell development. 1055 47
Optimal production of red cells in vivo requires collaboration between
c-Kit
, erythropoietin receptor (Epo-R), and
GATA-1
. However, the mechanism(s) of collaboration remain unclear. Utilizing an embryonic stem cell-derived erythroid progenitor cell line from mice deficient in
GATA-1
, we have examined the role of
c-Kit
and Epo-R in erythroid cell proliferation, survival, and differentiation. In the absence of
GATA-1
, we demonstrate an essential role for
c-Kit
in survival and proliferation of erythroid progenitors via the regulation of Bcl-2 expression. In addition, we demonstrate that Epo-R and Stat5 are regulated by a second, novel mechanism. We demonstrate that
c-Kit
stimulation by stem cell factor is essential for the maintenance of Epo-R and Stat5 protein expression, which results in significantly enhanced Bcl-x(L) induction and survival of erythroid progenitors in response to Epo stimulation. Restoration of
GATA-1
function results in terminal erythroid maturation and up-regulation of Epo-R and Bcl-x(L) expression, leading also to significantly enhanced survival of terminally differentiating erythroid progenitors in the presence of only Epo. These results demonstrate that
c-Kit
and Epo-R have unique role(s) during distinct phases of erythroid maturation, and both stem cell factor and Epo contribute to the regulation of the Epo-R-Stat5-Bcl-x(L) pathway to ensure optimal survival, proliferation, and differentiation of erythroid progenitors.
...
PMID:A novel mechanism of cooperation between c-Kit and erythropoietin receptor. Stem cell factor induces the expression of Stat5 and erythropoietin receptor, resulting in efficient proliferation and survival by erythropoietin. 1104 82
A multipotent immature myeloid cell population was produced from a basic fibroblast growth factor (bFGF)-dependent hematopoietic stem cell line, A-6, when cultured with stem cell factor (SCF) replacing bFGF. Those cells were positive for stem cell markers,
c-kit
and CD34, and a myeloid cell marker, F4/80. Some cell fractions were also positive for Mac-1, a macrophage marker or Gr-1, a granulocytic maker, but negative for an erythroid marker TER119. They also showed the expression of mRNA for the myeloid-specific PU.1 but did not that for the erythroid-specific
GATA-1
. Among various cytokines, interleukin-3 (IL-3) induced erythroid precursor cells that expressed the erythroid-specific
GATA-1
and beta-major globin. The quantitative analysis showed that erythroid precursor cells were newly produced from the immature myeloid cells by cultivation with IL-3. SCF and IL-3 induced stepwise generation of erythroid precursor cells from an A-6 hematopoietic stem cell line.
...
PMID:Stem cell factor and interleukin-3 induce stepwise generation of erythroid precursor cells from a basic fibroblast growth factor-dependent hematopoietic stem cell line, A-6. 1135 42
We have recently described a subset of the multipotent progenitor pool that contains a common lymphoid progenitor. This subset of cells is lineage negative and expresses
c-kit
and Sca-1, but lacks expression of Thy 1.1 (Thyneg). Based on the observation that lethally irradiated mice transplanted with these cells die from anemia unless supported with competitor marrow, we hypothesized that these progenitors lacked erythroid potential. We analyzed the erythroid potential of these cells by transplanting them into mice allelic at the hemoglobin locus and compared their erythroid potential with the Thy-1.1low (Thylow) subset that contains hematopoietic stem cells. We also performed CFU-C assays in methylcellulose containing recombinant cytokines and determined erythroid contribution to colonies using in situ benzidine staining. Donor-derived hemoglobin was observed following transplant of Thyneg cells, even though 19 of 20 of these animals died from anemia. In contrast, recipients of Thylow cells showed complete donor-derived engraftment 30 days following transplant. While approximately 60% of day 4 colonies derived from Thyneg cells expressed hemoglobin, by day 11 less than 5% were hemoglobinized. In contrast, greater than 70% of the Thylow subset contained hemoglobinized cells at the end of the observation period. A similar transient appearance of myeloid progeny was also observed in colonies derived from c-kitlow Thyneg lymphoid progenitor cells. We conclude that these studies demonstrate commitment to the lymphoid lineage at the Thylow-to-Thyneg interface, and that the loss of erythroid and myeloid potential is gradual rather than abrupt. Hemoglobinized colonies may be undergoing apoptosis because of down-regulation of
GATA-1
or because of a death signal from surrounding nonerythrocytic cells.
...
PMID:Observations of residual differentiation potential during lineage commitment. 1145 3
The combinatorial interaction among transcription factors is believed to determine hematopoietic cell fate. Stem cell leukemia (SCL, also known as TAL1 [T-cell acute lymphoblastic leukemia 1]) is a tissue-specific basic helix-loop-helix (bHLH) factor that plays a central function in hematopoietic development; however, its target genes and molecular mode of action remain to be elucidated. Here we show that SCL and the
c-Kit
receptor are coexpressed in hematopoietic progenitors at the single-cell level and that SCL induces
c-kit
in chromatin, as ectopic SCL expression in transgenic mice sustains
c-kit
transcription in developing B lymphocytes, in which both genes are normally down-regulated. Through transient transfection assays and coimmunoprecipitation of endogenous proteins, we define the role of SCL as a nucleation factor for a multifactorial complex (SCL complex) that specifically enhances
c-kit
promoter activity without affecting the activity of myelomonocytic promoters. This complex, containing hematopoietic-specific (SCL, Lim-only 2 (LMO2),
GATA-1
/GATA-2) and ubiquitous (E2A, LIM- domain binding protein 1 [Ldb-1]) factors, is tethered to DNA via a specificity protein 1 (Sp1) motif, through direct interactions between elements of the SCL complex and the Sp1 zinc finger protein. Furthermore, we demonstrate by chromatin immunoprecipitation that SCL, E2A, and Sp1 specifically co-occupy the
c-kit
promoter in vivo. We therefore conclude that
c-kit
is a direct target of the SCL complex. Proper activation of the
c-kit
promoter depends on the combinatorial interaction of all members of the complex. Since SCL is down-regulated in maturing cells while its partners remain expressed, our observations suggest that loss of SCL inactivates the SCL complex, which may be an important event in the differentiation of pluripotent hematopoietic cells.
...
PMID:The SCL complex regulates c-kit expression in hematopoietic cells through functional interaction with Sp1. 1223 53
GATA-1
is essential for the development of erythroid and megakaryocytic lineages. We found that
GATA-1
gene knockdown female (
GATA-1
.05/X) mice frequently develop a hematopoietic disorder resembling myelodysplastic syndrome that is characterized by the accumulation of progenitors expressing low levels of
GATA-1
. In this study, we demonstrate that
GATA-1
.05/X mice suffer from two distinct types of acute leukemia, an early-onset
c-Kit
-positive nonlymphoid leukemia and a late-onset B-lymphocytic leukemia. Since
GATA-1
is an X chromosome gene, two types of hematopoietic cells reside within heterozygous
GATA-1
knockdown mice, bearing either an active wild-type
GATA-1
allele or an active mutant
GATA-1
.05 allele. In the hematopoietic progenitors with the latter allele, low-level
GATA-1
expression is sufficient to support survival and proliferation but not differentiation, leading to the accumulation of progenitors that are easily targeted by oncogenic stimuli. Since such leukemia has not been observed in
GATA-1
-null/X mutant mice, we conclude that the residual
GATA-1
activity in the knockdown mice contributes to the development of the malignancy. This de novo model recapitulates the acute crisis found in preleukemic conditions in humans.
...
PMID:Leukemogenesis caused by incapacitated GATA-1 function. 1557 84
Eosinophil lineage-committed progenitors (EoPs) are phenotypically isolatable in the steady-state murine bone marrow. Purified granulocyte/monocyte progenitors (GMPs) gave rise to eosinophils as well as neutrophils and monocytes at the single cell level. Within the short-term culture of GMPs, the eosinophil potential was found exclusively in cells activating the transgenic reporter for
GATA-1
, a transcription factor capable of instructing eosinophil lineage commitment. These
GATA-1
-activating cells possessed an IL-5Ralpha(+)CD34(+)
c-Kit
(lo) phenotype. Normal bone marrow cells also contained IL-5Ralpha(+)CD34(+)
c-Kit
(lo) EoPs that gave rise exclusively to eosinophils. EoPs significantly increased in number in response to helminth infection, suggesting that the EoP stage is physiologically involved in eosinophil production in vivo. EoPs expressed eosinophil-related genes, such as the eosinophil peroxidase and the major basic protein, but did not express basophil/mast cell-related mast cell proteases. The enforced retroviral expression of IL-5Ralpha in GMPs did not enhance the frequency of eosinophil lineage read-outs, whereas IL-5Ralpha(+) GMPs displayed normal neutrophil/monocyte differentiation in the presence of IL-5 alone. Thus, IL-5Ralpha might be expressed specifically at the EoP stage as a result of commitment into the eosinophil lineage. The newly identified EoPs could be the cellular target in the treatment of a variety of disorders mediated by eosinophils.
...
PMID:Identification of eosinophil lineage-committed progenitors in the murine bone marrow. 1595 40
Stem cell factor (SCF), erythropoietin (Epo), and
GATA-1
play an essential role(s) in erythroid development. We examined how these proteins interact functionally in G1E cells, a
GATA-1
(-) erythroblast line that proliferates in an SCF-dependent fashion and, upon restoration of
GATA-1
function, undergoes
GATA-1
proliferation arrest and Epo-dependent terminal maturation. We show that SCF-induced cell cycle progression is mediated via activation of the Src kinase/c-Myc pathway. Restoration of
GATA-1
activity induced G1 cell cycle arrest coincident with repression of
c-Kit
and its downstream effectors Vav1, Rac1, and Akt. Sustained expression of each of these individual signaling components inhibited
GATA-1
-induced cell cycle arrest to various degrees but had no effects on the expression of
GATA-1
-regulated erythroid maturation markers. Chromatin immunoprecipitation analysis revealed that
GATA-1
occupies a defined Kit gene regulatory element in vivo, suggesting a direct mechanism for gene repression. Hence, in addition to its well-established function as an activator of erythroid genes,
GATA-1
also participates in a distinct genetic program that inhibits cell proliferation by repressing the expression of multiple components of the
c-Kit
signaling axis. Our findings reveal a novel aspect of molecular cross talk between essential transcriptional and cytokine signaling components of hematopoietic development.
...
PMID:Repression of c-kit and its downstream substrates by GATA-1 inhibits cell proliferation during erythroid maturation. 1602 8
A hierarchical hematopoietic development with myeloid versus lymphoid bifurcation has been proposed downstream of the multipotent progenitor (MPP) stage, based on prospective isolation of progenitors capable of generating only myeloerythroid cells (common myeloid progenitor, CMP) or only lymphocytes (common lymphoid progenitor, CLP). By utilizing
GATA-1
and PU.1 transcription factor reporters, here we identified progenitor populations that are precursors for either CMPs or CLPs. Two independent populations expressing either
GATA-1
or PU.1 resided within the CD34(+)Sca-1(+)
c-Kit
(+) MPP fraction. The
GATA-1
(+) MPP displayed potent myeloerythroid potential without giving rise to lymphocytes, whereas the PU.1(+) MPP showed granulocyte/monocyte/lymphoid-restricted progenitor activity without megakaryocyte/erythroid differentiation. Furthermore,
GATA-1
(+) and PU.1(+) MPPs possessed huge expansion potential and differentiated into the original CMPs and CLPs, respectively. Thus, the reciprocal activation of
GATA-1
and PU.1 primarily organizes the hematopoietic lineage fate decision to form the earliest hematopoietic branchpoint that comprises isolatable myeloerythroid and myelolymphoid progenitor populations.
...
PMID:Reciprocal activation of GATA-1 and PU.1 marks initial specification of hematopoietic stem cells into myeloerythroid and myelolymphoid lineages. 1837 71
Our previous studies showed that EDRF1 influenced expression of alpha-globin mRNA and synthesis of hemoglobin in K562 cells and modulated self-renewal of K562 cells. To illuminate the function of EDRF1 in K562 cells, sense and antisense EDRF1 constructs were prepared and transfected into K562 cells. By using microarray and dot blot assay, 60 cytokine receptors and some oncogenes sharing important functions in cell proliferation and differentiation were investigated. The results of this study demonstrated that IL-6 receptor, GM-CSF receptor, c-Jun/c-Fos, c-Myc and
c-kit
genes were regulated by antisense EDRF1 expression. The regulation was confirmed by RNA blot assay.
GATA-1
mRNA expression was modulated by EDRF1 gene transfection. Electrophoretic mobility shift assay suggested that the DNA-binding activity of
GATA-1
was remarkably inhibited in K562 cells expressing EDRF1 antisense gene. DNA binding activity of NF-E2 was at the same level as control experiment. Therefore EDRF1 may play a role in erythroid proliferation and differentiation by affecting the interaction between
GATA-1
and its cis-elements.
...
PMID:Antisense EDRF1 gene inhibited GATA-1 transcription factor DNA-binding activity in K562 cells. 1875 52
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