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Query: UMLS:C0023418 (
leukemia
)
93,477
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Pluripotent stem cells derived from preimplantation embryos, primordial germ cells or teratocarcinomas are currently unique in undergoing prolonged symmetrical self-renewal in culture. For mouse embryonic stem (ES) cells, self-renewal is dependent on signals from the cytokine
leukaemia
inhibitory factor (LIF) and from either serum or bone morphogenetic proteins (BMPs). In addition to the extrinsic regulation of gene expression, intrinsic transcriptional determinants are also required for maintenance of the undifferentiated state. These include Oct4, a member of the POU family of homeodomain proteins and a second recently identified homeodomain protein,
Nanog
. When overexpressed,
Nanog
allows ES cells to self-renew in the absence of the otherwise obligatory LIF and BMP signals. Although
Nanog
can act independent of the LIF signal, a contribution of both pathways provides maximal self-renewal efficiency.
Nanog
function also requires Oct4. Here, we review recent progress in ES cell self-renewal, relate this to the biology of teratocarcinomas and offer testable hypotheses to expose the mechanics of ES cell self-renewal.
...
PMID:Self-renewal of teratocarcinoma and embryonic stem cells. 1537 75
Intrinsic regulators of the pluripotency of mouse ES (embryonic stem) cells include the homeodomain proteins Oct4 and the recently identified
Nanog
. When overexpressed,
Nanog
displays the unique attribute of robustly sustaining ES cell self-renewal in the absence of the otherwise requisite extracellular stimulation by LIF (
leukaemia
inhibitory factor) and BMP (bone morphogenetic protein). Here, we review our current understanding of the function of
Nanog
in pluripotent stem cells both in vitro and in vivo.
...
PMID:The homeodomain protein Nanog and pluripotency in mouse embryonic stem cells. 1624 59
Membrane-derived vesicles (MV) are released from the surface of activated eucaryotic cells and exert pleiotropic effects on surrounding cells. Since the maintenance of pluripotency and undifferentiated propagation of embryonic stem (ES) cells in vitro requires tight cell to cell contacts and effective intercellular signaling, we hypothesize that MV derived from ES cells (ES-MV) express stem cell-specific molecules that may also support self-renewal and expansion of adult stem cells. To address this hypothesis, we employed expansion of hematopoietic progenitor cells (HPC) as a model. We found that ES-MV (10 microg/ml) isolated from murine ES cells (ES-D3) in serum-free cultures significantly (i) enhanced survival and improved expansion of murine HPC, (ii) upregulated the expression of early pluripotent (Oct-4,
Nanog
and Rex-1) and early hematopoietic stem cells (Scl, HoxB4 and GATA 2) markers in these cells, and (iii) induced phosphorylation of MAPK p42/44 and serine-threonine kinase AKT. Furthermore, molecular analysis revealed that ES-MV express Wnt-3 protein and are selectively highly enriched in mRNA for several pluripotent transcription factors as compared to parental ES cells. More important, this mRNA could be delivered by ES-MV to target cells and translated into the corresponding proteins. The biological effects of ES-MV were inhibited after heat inactivation or pretreatment with RNAse, indicating a major involvement of protein and mRNA components of ES-MV in the observed phenomena. We postulate that ES-MV may efficiently expand HPC by stimulating them with ES-MV expressed ligands (e.g., Wnt-3) as well as increase their pluripotency after horizontal transfer of ES-derived mRNA.
Leukemia
2006 May
PMID:Embryonic stem cell-derived microvesicles reprogram hematopoietic progenitors: evidence for horizontal transfer of mRNA and protein delivery. 1663 19
By employing multiparameter sorting, we identified in murine bone marrow (BM) a homogenous population of rare (approximately 0.02% of BMMNC) Sca-1(+)lin(-)CD45- cells that express by RQ-PCR and immunohistochemistry markers of pluripotent stem cells (PSC) such as SSEA-1, Oct-4,
Nanog
and Rex-1. The direct electronmicroscopical analysis revealed that these cells are small (approximately 2-4 microm), posses large nuclei surrounded by a narrow rim of cytoplasm, and contain open-type chromatin (euchromatin) that is typical for embryonic stem cells. In vitro cultures these cells are able to differentiate into all three germ-layer lineages. The number of these cells is highest in BM from young (approximately 1-month-old) mice and decreases with age. It is also significantly diminished in short living DBA/2J mice as compared to long living B6 animals. These cells in vitro respond strongly to SDF-1, HGF/SF and LIF and express CXCR4, c-met and LIF-R, respectively, and since they adhere to fibroblasts they may be coisolated with BM adherent cells. We hypothesize that this population of Sca-1(+)lin(-)CD45- very small embryonic-like (VSEL) stem cells is deposited early during development in BM and could be a source of pluripotent stem cells for tissue/organ regeneration.
Leukemia
2006 May
PMID:A population of very small embryonic-like (VSEL) CXCR4(+)SSEA-1(+)Oct-4+ stem cells identified in adult bone marrow. 1649 86
The reciprocal chromosomal translocation t(4;11) is correlated with infant, childhood, adult and therapy-related high-risk acute leukemia. Here, we investigated the biological effects of MLL.AF4, AF4.MLL or the combination of both reciprocal fusion proteins in a conditional in vitro cell culture model system. Several parameters like cell growth, cell cycling capacity, apoptotic behavior and growth transformation were investigated under physiological and stress conditions. Co-transfected cells displayed the highest resistance against apoptotic triggers, cell cycling capacity and loss-of-contact inhibition. These analyses were complemented by gene expression profiling experiments and specific gene signatures were established for each of the three cell lines. Interestingly, co-transfected cells strongly upregulate the homeobox gene
Nanog
. In combination with Oct4, the
Nanog
homeoprotein is steering maintenance of pluripotency and self-renewal in embryonic stem cells. Transcription of
Nanog
and other stem cell factors, like Oct4 and Bmi1, was verified in biopsy material of t(4;11) patient cells which express both reciprocal t(4;11) fusion genes. In conclusion, the presence of both reciprocal MLL fusion proteins confers biological properties known from t(4;11)
leukemia
, suggesting that each of the two fusion proteins contribute specific properties and, in combination, also synergistic effects to the leukemic phenotype.
...
PMID:Combined effects of the two reciprocal t(4;11) fusion proteins MLL.AF4 and AF4.MLL confer resistance to apoptosis, cell cycling capacity and growth transformation. 1713 Aug 30
Recently, we purified from adult murine bone marrow (BM) a population of CXCR4(+), Oct-4(+) SSEA-1(+), Sca-1(+) lin(-) CD45(-) very small embryonic-like (VSEL) stem cells and hypothesized that similar cells could be also present in human cord blood (CB). Here, we report that by employing a novel two-step isolation procedure -- removal of erythrocytes by hypotonic lysis combined with multiparameter sorting -- we could isolate from CB a population of human cells that are similar to murine BM-derived VSELs, described previously by us. These CB-isolated VSELs (CB-VSEL) are very small (3-5 micro m) and highly enriched in a population of CXCR4(+)AC133(+)CD34(+)lin(-) CD45(-) CB mononuclear cells, possess large nuclei containing unorganized euchromatin and express nuclear embryonic transcription factors Oct-4 and
Nanog
and surface embryonic antigen SSEA-4. Further studies are needed to see if human CB-isolated VSELs similar to their murine BM-derived counterparts are endowed with pluripotent stem cell properties.
Leukemia
2007 Feb
PMID:Morphological and molecular characterization of novel population of CXCR4+ SSEA-4+ Oct-4+ very small embryonic-like cells purified from human cord blood: preliminary report. 1713 17
Accumulating evidence demonstrates that adult tissues contain a population of stem cells that express early developmental markers such as stage-specific embryonic antigen and transcription factors Oct-4 and
Nanog
. These are the markers characteristic for embryonic stem cells, epiblast stem cells and primordial germ cells. The presence of these stem cells in adult tissues including bone marrow, epidermis, bronchial epithelium, myocardium, pancreas and testes supports the concept that adult tissues contain some population of pluripotent stem cells that is deposited in embryogenesis during early gastrulation. In this review we will discuss these data and present a hypothesis that these cells could be direct descendants of the germ lineage. The germ lineage in order to pass genes on to the next generations creates soma and thus becomes a 'mother lineage' for all somatic cell lineages present in the adult body.
Leukemia
2007 May
PMID:A hypothesis for an embryonic origin of pluripotent Oct-4(+) stem cells in adult bone marrow and other tissues. 1734 15
Embryonic stem cells (ESCs) derived from the inner cell mass of blastocysts maintain their pluripotency through a complex interplay of different signaling pathways and transcription factors including
Leukemia
Inhibitory Factor (LIF), homeo-domain protein
Nanog
and POU-domain-containing transcription factor Oct3/4. LIF can maintain the self-renewal of mouse ESCs by activating the Jak/Stat3 pathway; however, it is dispensable for human ESCs.
Nanog
, a homeo-domain transcription factor alone is sufficient for sustaining the self-renewal of ESCs. Overexpression of
Nanog
by heterologous promoters can maintain self-renewal of human and mouse ESCs in the absence of LIF/Stat3 pathway. The mechanisms that control the expression of
Nanog
, however, remain poorly understood. In this report we demonstrate that retinol, the alcohol form of Vitamin A, can suppress the differentiation of ESCs by up-regulating the expression of
Nanog
. Retinol is mainly associated with differentiation through its active metabolite retinoic acid during early development of the embryo. The activation of
Nanog
by retinol is not mediated via retinoic acid signaling and appears to be independent of previously described LIF/Stat3, bone morphogenic proteins, Wnt/beta-catenin, and Oct3/4-Sox2 pathways. These studies therefore, reveal a previously unknown function of retinol and offer a model system to define alternate regulatory pathways that control the self-renewal of ESCs as well as to identify upstream "master" regulatory factors that are responsible for maintaining the integrity of stem cells.
...
PMID:Suppression of ES cell differentiation by retinol (vitamin A) via the overexpression of Nanog. 1745 18
Embryonic stem (ES) cells are pluripotent cells derived from the inner cell mass of blastocysts. Self-renewal of mouse ES cells depends on activation of Stat3 by
leukaemia
inhibitory factor (LIF) in collaboration with bone morphogenetic protein signalling. The transcription factor
Nanog
is essential in maintaining pluripotency but the mechanisms involved are poorly understood. Here we examine the functional interactions of
Nanog
with the Stat3 and NFkappaB pathways.
Nanog
and Stat3 were found to bind to and synergistically activate Stat3-dependent promoters. We also found that
Nanog
binds to NFkappaB proteins; however,
Nanog
binding inhibited transcriptional activity of NFkappaB proteins. Endogenous NFkappaB activity and target-gene expression increased during differentiation of ES cells. Overexpression of NFkappaB proteins promoted differentiation, whereas inhibition of NFkappaB signalling, either by genetic ablation of the Ikbkg gene or overexpression of the IkappaBalpha super-repressor, increased expression of pluripotency markers. We conclude that
Nanog
represses the pro-differentiation activities of NFkappaB and cooperates with Stat3 to maintain pluripotency.
...
PMID:Nanog maintains pluripotency of mouse embryonic stem cells by inhibiting NFkappaB and cooperating with Stat3. 1822 44
The defining activity of the homeodomain protein
Nanog
is the ability to confer cytokine-independent self-renewal upon ES (embryonic stem) cells in which it is overexpressed. However, the biochemical basis by which
Nanog
achieves this function remains unknown. In the present study, we show that
Nanog
dimerizes through a functionally critical domain. Co-immunoprecipitation of
Nanog
molecules tagged with distinct epitopes demonstrates that
Nanog
self-associates through a region in which every fifth residue is tryptophan. In vitro binding experiments establish that this region participates directly in self-association. Moreover, analytical ultracentrifugation indicates that, in solution,
Nanog
is in equilibrium between monomeric and dimeric forms with a K(d) of 3 muM. The functional importance of
Nanog
dimerization is established by ES cell colony-forming assays in which deletion of the tryptophan-repeat region eliminates the capacity of
Nanog
to direct LIF (
leukaemia
inhibitory factor)-independent self-renewal.
...
PMID:The pluripotency rheostat Nanog functions as a dimer. 1836 51
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