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Query: UMLS:C0002871 (
anemia
)
52,094
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
GATA transcription factors are required for the differentiation of diverse cell types in several species. Recent evidence suggests that their biologic activities may be modulated through interaction with multitype zinc finger proteins, such as
Friend of GATA-1
(
FOG
) and U-shaped (Ush). In cell culture,
FOG
cooperates with the hematopoietic transcription factor GATA-1 to promote erythroid and megakaryocytic differentiation. We show here that mice lacking
FOG
die during mid-embryonic development with severe
anemia
.
FOG
-/- erythroid cells display a marked, but partial, blockage of maturation, reminiscent of GATA-1- erythroid precursors. In contrast to GATA-1 deficiency, however, megakaryocytes fail to develop in the absence of
FOG
. Although the
FOG
-/- erythroid phenotype supports the proposed role of
FOG
as a GATA-1 cofactor in vivo, the latter finding points to a pivotal, GATA-1-independent requirement for
FOG
in megakaryocyte development from the bipotential erythroid/megakaryocytic progenitor. We speculate that
FOG
and other
FOG
-like proteins serve as complex cofactors that act through both GATA-dependent and GATA-independent mechanisms.
...
PMID:Failure of megakaryopoiesis and arrested erythropoiesis in mice lacking the GATA-1 transcriptional cofactor FOG. 955 47
Haematopoietic development is regulated by nuclear protein complexes that coordinate lineage-specific patterns of gene expression. Targeted mutagenesis in embryonic stem cells and mice has revealed roles for the X-linked gene Gata1 in erythrocyte and megakaryocyte differentiation. GATA-1 is the founding member of a family of DNA-binding proteins that recognize the motif WGATAR through a conserved multifunctional domain consisting of two C4-type zinc fingers. Here we describe a family with X-linked dyserythropoietic
anaemia
and thrombocytopenia due to a substitution of methionine for valine at amino acid 205 of GATA-1. This highly conserved valine is necessary for interaction of the amino-terminal zinc finger of GATA-1 with its essential cofactor,
FOG-1
(for
friend of GATA-1
; refs 9-12). We show that the V205M mutation abrogates the interaction between Gata-1 and Fog-1, inhibiting the ability of Gata-1 to rescue erythroid differentiation in an erythroid cell line deficient for Gata-1 (G1E). Our findings underscore the importance of
FOG-1
:Gata-1 associations in both megakaryocyte and erythroid development, and suggest that other X-linked anaemias or thrombocytopenias may be caused by defects in GATA1.
...
PMID:Familial dyserythropoietic anaemia and thrombocytopenia due to an inherited mutation in GATA1. 1070 Jan 80
A new mutation is described in the X-linked gene GATA1, resulting in macrothrombocytopenia and mild dyserythropoietic features but no marked
anemia
in a 4-generation family. The molecular basis for the observed phenotype is a substitution of glycine for aspartate in the strictly conserved codon 218 (D218G) of the amino-terminal zinc finger loop of the transcription factor GATA1. Zinc finger interaction studies demonstrated that this mutation results in a weak loss of affinity of GATA1 for its essential cofactor
FOG1
, whereas direct D218G-GATA1 binding to DNA was normal. The phenotypic effects of this mutation in the patients' platelets have been studied. Semiquantitative RNA analysis, normalized for beta-actin messenger RNA, showed extremely low transcription of the GATA1 target genes GPIbbeta and GPIX but also a significantly lower expression of the nondirectly GATA1-regulated Gsalpha gene, suggestive of incomplete megakaryocyte maturation. In contrast, GPIIIa expression was close to normal in agreement with its early appearance during megakaryocyte differentiation. Flow cytometric analysis of patient platelets confirmed the existence of a platelet population with abnormal size distribution and reduced GPIb complex levels but with normal GPIIIa expression. It also showed the presence of very immature platelets lacking almost all membrane glycoproteins studied (GPIbalpha, GPIbbeta, GPIIIa, GPIX, and GPV). Patients' platelets showed weak ristocetin-induced agglutination, compatible with the disturbed GPIb complex. Accordingly, electron microscopy of the patients' platelets revealed giant platelets with cytoplasmic clusters consisting of smooth endoplasmic reticulum and abnormal membrane complexes. In conclusion, GATA1 mutations can lead to isolated X-linked macrothrombocytopenia without
anemia
.
...
PMID:Platelet characteristics in patients with X-linked macrothrombocytopenia because of a novel GATA1 mutation. 1141 66
GATA1 is the X-linked transcriptional activator required for megakaryocyte and erythrocyte differentiation. Missense mutations in the N-terminal zinc finger (Nf) of GATA1 result in abnormal hematopoiesis, as documented in four families: the mutation V205M leads to both severe macrothrombocytopenia and dyserythropoietic anemia, D218G to macrothrombocytopenia and mild dyserythropoiesis without
anemia
, G208S to macrothrombocytopenia and R216Q to macrothrombocytopenia with beta-thalassemia. The three first GATA1 mutants display a disturbed binding to their essential transcription cofactor
FOG1
, whereas the fourth mutant shows an abnormal direct DNA binding. In this study, we describe a new family with deep macrothrombocytopenia, marked
anemia
and early mortality, if untreated, due to a different GATA1 mutation (D218Y) in the same residue 218 also implicated in the above mentioned milder phenotype. Zinc finger interaction studies revealed a stronger loss of affinity of D218Y-GATA1 than of D218G-GATA1 for
FOG1
and a disturbed GATA1 self-association. Comparison of the phenotypic characteristics of patients from both families revealed that platelet and erythrocyte morphology as well as expression levels of the platelet GATA1-target gene products were more profoundly disturbed for the hemizygote D218Y mutation. The D218Y allele (as opposed to the D218G allele) was not expressed in the platelets of a female carrier while her leukocytes showed a skewed X-inactivation pattern. We conclude that the nature of the amino acid substitution at position 218 of the Nf of GATA1 is of crucial importance in determining the severity of the phenotype in X-linked macrothrombocytopenia patients and possibly also in inducing skewed X inactivation.
...
PMID:Different substitutions at residue D218 of the X-linked transcription factor GATA1 lead to altered clinical severity of macrothrombocytopenia and anemia and are associated with variable skewed X inactivation. 1180 23
The hematopoietic, zinc-finger protein
FOG-1
is essential for the development of the erythroid and megakaryocytic lineages.
FOG-1
's function in hematopoiesis is dependent on its ability to interact with the transcription factor GATA-1.
FOG-1
has also been observed to interact with the corepressor molecule C-terminal binding protein (CtBP) through a peptide motif shared by all
FOG
family members. In this study, we confirmed that
FOG-1
and CtBP interact by coimmunoprecipitation. We further demonstrate that a
FOG-1
mutant unable to interact with CtBP has increased erythropoietic (but not megakaryocytic) rescue (relative to the wild type) of a
FOG-1
(-/-) cell line. To analyze further the physiological role of the
FOG-1
-CtBP interaction, we generated knock-in mice that express a
FOG-1
variant unable to bind CtBP. Surprisingly, these mice are normal and fertile. Furthermore, erythropoiesis at all stages of development is normal in these mice. Erythrocyte production is similar in mutant and wild-type mice even under conditions of erythropoietic stress stimulated by either exogenously added erythropoietin or phenylhydrazine-induced
anemia
. Thus, despite conservation of the
FOG
-CtBP interaction site, the in vivo function of
FOG-1
in erythroid development is not affected by its inability to interact with the corepressor CtBP.
...
PMID:Interaction between FOG-1 and the corepressor C-terminal binding protein is dispensable for normal erythropoiesis in vivo. 1194 Jun 69
Association of GATA-1 and its cofactor
Friend of GATA-1
(
FOG-1
) is essential for erythroid and megakaryocyte development. To assess functions of GATA-1-
FOG-1
association during mouse development, we used the GATA-1 hematopoietic regulatory domain to generate transgenic mouse lines expressing a mutant GATA-1, which contains a substitution of glycine 205 for valine (V205G) that abrogates its association with
FOG-1
. We examined whether the transgenic expression of mutant GATA-1 rescues GATA-1 germ line mutants from embryonic lethality. In high-expressor lines we observed that the GATA-1(V205G) rescues GATA-1-deficient mice from embryonic lethality at the expected frequency, revealing that excess GATA-1(V205G) can eliminate the lethal
anemia
that is due to GATA-1 deficiency. In contrast, transgene expression comparable to the endogenous GATA-1 level resulted in much lower frequency of rescue, indicating that the GATA-1-
FOG-1
association is critical for normal embryonic hematopoiesis. Rescued mice in these analyses exhibit thrombocytopenia and display dysregulated proliferation and impaired cytoplasmic maturation of megakaryocytes. Although
anemia
is not observed under steady-state conditions, stress erythropoiesis is attenuated in the rescued mice. Our findings reveal an indispensable role for the association of GATA-1 and
FOG-1
during late-stage megakaryopoiesis and provide a unique model for X-linked thrombocytopenia with inherited GATA-1 mutation.
...
PMID:Transgenic rescue of GATA-1-deficient mice with GATA-1 lacking a FOG-1 association site phenocopies patients with X-linked thrombocytopenia. 1465 85
The transcription factor GATA-1, together with its cofactor
FOG-1
, regulates erythropoiesis and megakaryocytopoiesis. Mutations in the DNA or
FOG-1
binding sites of its N-terminal zinc finger result in different illnesses. Alterations of the
FOG-1
face are responsible for dyserythropoietic anemia with thrombocytopenia while R216Q, the only mutation identified in the DNA face, induces X-linked thrombocytopenia with thalassemia (XLTT). The former disorder has been studied in detail whereas little is known about the latter since only one family has been investigated. We studied a second family with an R216Q, showing that XLTT and dyserythropoietic anemia with thrombocytopenia, even if different clinical entities, are closely related disorders. In both cases, patients present mild dyserythropoiesis, red cell hemolysis, severely defective maturation of megakaryocytes, macrothrombocytopenia with alpha-granule deficiency, and abnormalities of the cytoplasmic membrane system. However, a thalassemia minor phenotype has only been described in patients with XLTT whereas severe
anemia
and thrombocytopenia with evident defects of platelet composition and function may be observed only in dyserythropoietic anemia with thrombocytopenia.
...
PMID:Effects of the R216Q mutation of GATA-1 on erythropoiesis and megakaryocytopoiesis. 1469 78
The proinflammatory cytokine tumor necrosis factor alpha (TNFalpha) has been linked to inflammation- and cancer-related
anemia
, which reduces both quality of life and prognosis of patients. The aim of this study was to reveal molecular mechanisms linked to the inhibition of erythroid differentiation by TNFalpha. In this study, we showed that the inhibition of erythropoietin (Epo)-mediated differentiation by TNFalpha lead to a downregulation of hemoglobin synthesis and was correlated to a modulation of key erythroid transcription factors. Thus, a reverse of the transcription factor GATA-1/GATA-2 balance normally present during erythropoiesis, as well as a downregulation of the cofactor of GATA-1,
friend of GATA-1
(
FOG-1
), and the coregulating transcription factor nuclear factor erythroid 2 (NF-E2) was observed after TNFalpha treatment. Moreover, we showed a reduction of GATA-1/
FOG-1
interaction due to a reduced transcription of GATA-1 and a proteasome-dependent
FOG-1
degradation after TNFalpha treatment. These changes led to an inhibition of erythroid gene expression including Epo receptor (EpoR), alpha- and gamma-globin, erythroid-associated factor (ERAF), hydroxymethylbilane synthetase (HMBS), and glycophorin A (GPA). An analysis of distinct signaling pathway activations then revealed an activation of p38 by TNF, as well as a corresponding involvement of this mitogen-activated protein kinase (MAPK) in the cytokine-dependent inhibition of erythroid differentiation. Indeed the p38 inhibitor, SB203580, abrogated the inhibitory effect of TNFalpha on the major erythroid transcription factor GATA-1 as well as erythroid marker expression in Epo-induced TF-1 cells. Overall, these data contribute to a better understanding of cytokine-dependent
anemia
, by giving first hints about key erythroid transcription factor modulations after TNFalpha treatment as well as an involvement of p38 in the inhibition of erythroid differentiation.
...
PMID:Tumor necrosis factor alpha inhibits erythroid differentiation in human erythropoietin-dependent cells involving p38 MAPK pathway, GATA-1 and FOG-1 downregulation and GATA-2 upregulation. 1880 1
How cell proliferation subsides as cells terminally differentiate remains largely enigmatic, although this phenomenon is central to the existence of multicellular organisms. Here, we show that GATA-1, the master transcription factor of erythropoiesis, forms a tricomplex with the retinoblastoma protein (pRb) and E2F-2. This interaction requires a LXCXE motif that is evolutionary conserved among GATA-1 orthologs yet absent from the other GATA family members. GATA-1/pRb/E2F-2 complex formation stalls cell proliferation and steers erythroid precursors towards terminal differentiation. This process can be disrupted in vitro by
FOG-1
, which displaces pRb/E2F-2 from GATA-1. A GATA-1 mutant unable to bind pRb fails to inhibit cell proliferation and results in mouse embryonic lethality by
anemia
. These findings clarify the previously suspected cell-autonomous role of pRb during erythropoiesis and may provide a unifying molecular mechanism for several mouse phenotypes and human diseases associated with GATA-1 mutations.
...
PMID:Direct binding of pRb/E2F-2 to GATA-1 regulates maturation and terminal cell division during erythropoiesis. 1951
The nuclear protein
FOG-1
binds transcription factor GATA-1 to facilitate erythroid and megakaryocytic maturation. However, little is known about the function of
FOG-1
during myeloid and lymphoid development or how
FOG-1
expression is regulated in any tissue. We used in situ hybridization, gain- and loss-of-function studies in zebrafish to address these problems. Zebrafish
FOG-1
is expressed in early hematopoietic cells, as well as heart, viscera, and paraspinal neurons, suggesting that it has multifaceted functions in organogenesis. We found that
FOG-1
is dispensable for endoderm specification but is required for endoderm patterning affecting the expression of late-stage T-cell markers, independent of GATA-1. The suppression of
FOG-1
, in the presence of normal GATA-1 levels, induces severe
anemia
and thrombocytopenia and expands myeloid-progenitor cells, indicating that
FOG-1
is required during erythroid/myeloid commitment. To functionally interrogate whether GATA-1 regulates
FOG-1
in vivo, we used bioinformatics combined with transgenic assays. Thus, we identified 2 cis-regulatory elements that control the tissue-specific gene expression of
FOG-1
. One of these enhancers contains functional GATA-binding sites, indicating the potential for a regulatory loop in which GATA factors control the expression of their partner protein
FOG-1
.
...
PMID:The role and regulation of friend of GATA-1 (FOG-1) during blood development in the zebrafish. 1972 19
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