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Query: UMLS:C0023418 (
leukemia
)
93,477
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Expression of the
transcription factor GATA-1
, which regulates several erythroid specific genes and possibly also some megakaryocytic genes, has been previously detected in normal erythroblasts, megakaryocytes, and basophils, and in some myeloid cell lines. It has been suggested that GATA-1 may be first expressed in a common progenitor and then further activated during erythroid-megakaryocytic and basophilic differentiation and repressed during myeloid maturation. We investigated GATA-1 mRNA expression in highly purified leukemic blasts representing different lineages and stages of myeloid differentiation and in a recently established leukemic cell line, GF-D8, which exhibits morphological, cytochemical and immunophenotypic characteristics of early myeloid progenitor cells. We found GATA-1 expression in five of five myeloid and in one megakaryocytic blast crisis of CML, in four of six cases of myelomonocytic leukemias (M4 according to FAB classification), in one case of erythroleukemia (M6), whereas lymphoid blast crisis of CML and all other FAB groups were completely negative. In addition, a low level of GATA-1 mRNA was also expressed by the GF-D8 cell line. These data further support the hypothesis that GATA-1 expression may occur not only in erythroid and megakaryocytic progenitors, but also in early myeloid progenitors, and then be further regulated during lineage-specific maturation.
Leukemia
1994 Jun
PMID:Expression of GATA-1 mRNA in human myeloid leukemic cells. 820 77
The transcriptional activator, Tax, of human T-cell
leukemia
virus (HTLV-I) has been considered to interact with cellular proteins to act on target enhancer motifs. Using oligodeoxyribonucleotides containing the tax-responsive element (TAXRE) of the HTLV-I enhancer, we have cloned multiple cDNAs coding for TAXRE-binding proteins (TAXREB), and determined the cDNA and the deduced 200-amino-acid sequences for TAXREB302. The recombinant protein binds to the enhancer DNA by specific interaction to the CRE-like sequence. A single 1.8-kb species of mRNA was detected in cultured cells, as well as in normal human tissues, especially brain and skeletal muscle. The 22-kDa native protein was detected in the cultured-cell lysate by immunoblotting analysis. TAXREB302 does not have structural features common to the CRE-binding protein or activating transcription factor (CREB/ATF) family, but has homology to chicken erythroid transcription factor (
Eryf1
or GATA-1), suggesting a possible protein-protein interaction.
...
PMID:Cloning of a cDNA encoding a DNA-binding protein TAXREB302 that is specific for the tax-responsive enhancer of HTLV-I. 795 72
The Wilms' tumor protein, WT1, represses transcription from several growth factor genes. WT1 transcription is regulated in erythroid and myeloid lineages by the
transcription factor GATA-1
. Using a sensitive, isotopic duplex RT-PCR procedure amplifying WT1 or GATA-1 together with beta-actin as the internal control in a single reaction mix, we quantitated the expression of WT1 and GATA-1 mRNA of 16 patients with myelodysplastic syndrome (MDS), 56 with acute myeloid leukemia (AML) and 22 with acute lymphoblastic leukemia (ALL). K562 was used as reference positive control for this cell line expresses both WT1 and GATA-1. Among MDS patients, increased WT1 expression was found in refractory anemia with excess blast (RAEB) and RAEB in transformation (RAEB-T) subtypes compared to the normal controls, whereas WT1 expression in refractory anemia (RA) was not different from the normal control level. All of AML cases of subtypes M0, M1, M2 and M3 expressed WT1 more than three times the normal WT1 level. Subtypes M4 to M7 showed significantly lower WT1 levels than M1 to M3 and AML cases with CD14+ expressed less WT1 than CD14-. Higher than normal WT1 levels were also expressed in cases of ALL.
Leukemia
1999 Jun
PMID:WT1 and GATA1 expression in myelodysplastic syndrome and acute leukemia. 1036 Mar 78
Induction of specific gene expression may provide an alternative or a support to conventional cytotoxic chemotherapy of cancer, as well as to therapy for sickle cell diseases. In this respect, pharmacological induction of expression of the endogenous gamma-globin gene is a realistic approach to therapy of beta-globin disorders. Erythroid differentiation and inhibition of proliferation of the human CML K562 cell line was induced by guanosine 5'-triphosphate (GTP). The hemoglobin production in cells was correlated to an increase in alpha- and gamma-globin mRNA expression. At the transcriptional level, we showed that both the expression of the major erythroid
transcription factor GATA-1
(protein and mRNA) and its binding capacity to the gamma-globin gene promoter was transiently increased. Moreover, GTP moderately stimulated the gamma-globin gene promoter after 48 h of treatment. At the post-transcriptional level, GTP treatment led to a drastic increase of the gamma-globin mRNA half-life. This stabilizing effect of GTP was mediated via the 3'-untranslated region (3'-UTR) of the gamma-globin mRNA. In conclusion, mechanism of GTP-mediated differentiation of K562 cells is linked to an early activation of gamma-globin gene transcription followed by a stabilization of its mRNA.
Leukemia
2000 Sep
PMID:GTP-mediated differentiation of the human K562 cell line: transient overexpression of GATA-1 and stabilization of the gamma-globin mRNA. 1099 5
Children with Down syndrome have a 10-20-fold elevated risk of developing
leukemia
, particularly acute megakaryoblastic
leukemia
(AMKL). While a subset of pediatric AMKLs is associated with the 1;22 translocation and expression of a mutant fusion protein, the genetic alterations that promote Down syndrome-related AMKL (DS-AMKL) have remained elusive. Here we show that leukemic cells from every individual with DS-AMKL that we examined contain mutations in GATA1, encoding the essential hematopoietic transcription factor GATA1 (GATA binding protein 1 or
globin transcription factor 1
). Each mutation results in the introduction of a premature stop codon in the gene sequence that encodes the amino-terminal activation domain. These mutations prevent synthesis of full-length GATA1, but not synthesis of a shorter variant that is initiated downstream. We show that the shorter
GATA1 protein
, which lacks the N-terminal activation domain, binds DNA and interacts with its essential cofactor Friend of GATA1 (FOG1; encoded by ZFPM1) to the same extent as does full-length GATA1, but has a reduced transactivation potential. Although some reports suggest that the activation domain is dispensable in cell-culture models of hematopoiesis, one study has shown that it is required for normal development in vivo. Together, these findings indicate that loss of wildtype GATA1 constitutes one step in the pathogenesis of AMKL in Down syndrome.
...
PMID:Acquired mutations in GATA1 in the megakaryoblastic leukemia of Down syndrome. 1243 56
As many as 10% of infants with Down syndrome (DS) present with transient myeloproliferative disorder (TMD) at or shortly after birth. TMD is characterized by an abundance of blasts within the peripheral blood and liver, and notably undergoes spontaneous remission in the majority of cases. TMD may be a precursor to acute megakaryoblastic
leukemia
(AMKL), with an estimated 30% of TMD patients developing AMKL within 3 years. We recently reported that mutations in the
transcription factor GATA1
are associated with DS-AMKL. To determine whether the acquisition of GATA1 mutations is a late event restricted to acute leukemia, we analyzed GATA1 in DNA from TMD patients. Here we report that GATA1 is mutated in the TMD blasts from every infant examined. These results demonstrate that GATA1 is likely to play a critical role in the etiology of TMD, and mutagenesis of GATA1 represents a very early event in DS myeloid leukemogenesis.
...
PMID:Mutagenesis of GATA1 is an initiating event in Down syndrome leukemogenesis. 1256 Feb 15
Patients with Down syndrome (DS) frequently develop 2 kinds of clonal megakaryocytosis: a common, congenital, spontaneously resolving, transient myeloproliferative disorder (TMD) and, less commonly, childhood acute megakaryoblastic
leukemia
(AMKL). Recently, acquired mutations in exon 2 of GATA1, an X-linked gene encoding a transcription factor that promotes megakaryocytic differentiation, were described in 6 DS patients with AMKL. The mutations prevent the synthesis of the full-length GATA1, but allow the synthesis of a shorter
GATA1 protein
(GATA1s) that lacks the transactivation domain. To test whether mutated GATA1 is involved in the initiation of clonal megakaryoblastic proliferation or in the progression to AMKL, we screened 35 DS patients with either AMKL or TMD and 7 non-DS children with AMKL for mutations in exon 2 of GATA1. Mutations were identified in 16 of 18 DS patients with AMKL, in 16 of 17 DS patients with TMD, and in 2 identical twins with AMKL and acquired trisomy 21. Analysis revealed various types of mutations in GATA1, including deletion/insertions, splice mutations, and nonsense and missense point mutations, all of which prevent the generation of full-length GATA1, but preserve the translation of GATA1s. We also show that the likely mechanism of generation of GATA1 isoforms is alternative splicing of exon 2 rather than, or in addition to, alternative translation initiation, as was proposed before. These findings suggest that acquired intrauterine inactivating mutations in GATA1 and generation of GATA1s cooperate frequently with trisomy 21 in initiating megakaryoblastic proliferation, but are insufficient for progression to AMKL.
...
PMID:Mutations in exon 2 of GATA1 are early events in megakaryocytic malignancies associated with trisomy 21. 1264 31
Transient myeloid disorder is a unique self-regressing neoplasia specific to Down's syndrome. The
transcription factor GATA1
is needed for normal growth and maturation of erythroid cells and megakaryocytes. Mutations in GATA1 have been reported in acute megakaryoblastic
leukaemia
in Down's syndrome. We aimed to investigate changes in GATA1 in patients with Down's syndrome and either transient myeloid disorder (n=10) or acute megakaryoblastic
leukaemia
(n=6). We recorded mutations eliminating exon 2 from GATA1 in all patients with transient myeloid disorder (age 0-24 days) and in all with acute megakaryoblastic
leukaemia
(age 14-38 months). The range of mutations did not differ between patients with each disorder. Patients with transient myeloid disorder with mutations in GATA1 can regress spontaneously to complete remission, and mutations do not necessarily predict later acute megakaryoblastic
leukaemia
.
...
PMID:Acquired mutations in GATA1 in neonates with Down's syndrome with transient myeloid disorder. 1274 84
Acquired mutations in megakaryocyte
transcription factor GATA1
have recently been reported in Down syndrome (DS), transient myeloproliferative disorder (TMD), and acute megakaryoblastic
leukemia
(AMKL). To provide novel insight into GATA1 mutations in DS, genomic DNA was assayed from 12 AMKL and 4 TMD cases (including neonatal, prediagnosis samples in 4 of 16), neonatal blood spots from 21 DS children without clinically evident TMD or AMKL, and 62 non-DS cord blood samples, using techniques not previously employed with such samples. GATA1 mutations were present in all TMD and AMKL cases and at birth in 3 of 4 children without known clinical TMD, who later developed AMKL. They were present at birth in 2 of 21 DS neonates, who have not yet, but could still, develop AMKL (now 26 and 31 months). GATA1 mutations were not detected in 62 non-DS cord blood samples. In 4 AMKL patients multiple independent GATA1 mutations were observed. These data show GATA1 mutations occur in utero in most DS TMD and AMKL, that they may occur without clinical signs of disease, and that multiple separate GATA1 mutant clones can occur in an individual. The findings have implications for pathogenesis of DS TMD and AMKL and highlight parallels between DS AMKL and other childhood leukemias.
...
PMID:Natural history of GATA1 mutations in Down syndrome. 1465 75
Trisomy 21 [Down's syndrome (DS)] and mutations in
transcription factor GATA1
predispose neonates to a transient myeloproliferative disorder (TMD) and/or acute megakaryocytic
leukaemia
(AMKL). The role of trisomy 21 in their pathogenesis is unclear. We previously reported two rare neonates without DS who had TMD, one of whom progressed to AMKL. Trisomy 21 was detected only in blood cells at presentation with TMD/AMKL and disappeared with disease resolution. We now show that the blood cells at presentation of TMD harboured GATA1 genomic DNA mutations, suggesting a requirement for trisomy 21 in haematopoietic cells, rather than other cell types, for development of TMD/AMKL.
...
PMID:GATA1 mutation and trisomy 21 are required only in haematopoietic cells for development of transient myeloproliferative disorder. 1568 66
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