Purification of human erythroid colony-forming units and demonstration of specific binding of erythropoietin.

Sawada, Kenichi; Krantz, Sanford B.; Kans, J S; Dessypris, Emmanuel N.; Sawyer, Stephen T.; Glick, Alan D.; Civin, Curt I.

doi:10.1172/jci113080

Cited by 209 publications

(126 citation statements)

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“…The reason for this is most likely that whereas c-mpl appears to be expressed on primitive/multipotent progenitors [18][19][20], the EPO receptor might not be. In fact, previous studies have suggested that even the most primitive stages of erythroid progenitor cells might not yet express the EPO receptor [37,38].Based on these and other studies [5, 30,[33][34][35],39-431, we can conclude that TPO along with some other early-acting cytokines can promote viability of primitive HPC in the presence of little or no proliferation (Table 2). At least on Lin-Sca-1' bone marrow progenitor cells, TPO has a potent ability to promote viability of in vitro clonogenic and multipotent progenitor cells.…”

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confidence: 59%

“…However, unlike TPO, EPO had no effect on the viability of Lin-Sca-1' progenitors. The reason for this is most likely that whereas c-mpl appears to be expressed on primitive/multipotent progenitors [18][19][20] [37,38].…”

Section: Tpo Directly Promotes the In Vitro Viability Of Primitive Mumentioning

confidence: 99%

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confidence: 99%

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Thrombopoietin, a Direct Stimulator of Viability and Multilineage Growth of Primitive Bone Marrow Progenitor Cells

et al. 1996

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Abstract. Thrombopoietin (TPO), the ligand for c-mpl, has recently been demonstrated to be the primary regulator of megakaryocytopoiesis and platelet production. In addition, several studies have demonstrated that c-mpl is expressed on hematopoietic cell populations highly enriched in primitive progenitor cells. Here we summarize and discuss recent studies from our laboratory, as well as others, demonstrating that TPO has effects on primitive hematopoietic progenitor cells. When acting alone, TPO stimulates little or no growth, but promotes viability and suppresses apoptosis of murine multipotent (LinSca-1+) bone marrow progenitor cells in vitro. In addition, TPO directly and potently synergizes with other early acting cytokines (kit ligand, flu ligand and interleukin 3) to promote multilineage growth of the same progenitor cell population. Although it remains to be established whether TPO also acts on the long-term reconstituting pluripotent stem cells, these studies combined with progenitor cell studies in c-mpl-deficient mice, suggest that TPO, in addition to its key role in platelet production, might also have an important impact on early hematopoiesis. Stem Cells 1996;14(suppl 1):173-180 Cytokine Regulation of HematopoiesisHematopoiesis is a lifelong process involving the production of mature blood cells of all lineages from a pool of pluripotent long-term reconstituting stem cells (LTRC) capable of producing hematopoietic progenitor cells (HPC) with different proliferative as well as differentiation Correspondence: Dr. Sten Eirik W. Jacobsen, Blood Cell Growth Factors Laboratory, Hipple Cancer Research Center, 4100 South Kettering Boulevard, Dayton, OH 45439-2092, USA.Accepted for publication July 15, 1996. OAlphaMed Press 1066-5099/96/$5.00/0 potentials [l-31. The daily turnover of approximately lo'* cells in a normal adult human must be tightly regulated and involves, in part, a complex interaction between membrane-bound, as well as soluble stimulatory and inhibitory cytokines, and their corresponding receptors [I -31. In steady state, the most primitive hematopoietic stem cells are thought to be quiescent, and triggering their growth appears to require combined stimulation by multiple cytokines, whereas more committed progenitors frequently can be induced to proliferate by single cytokines [2, 31. Cytokines demonstrated to have activities on HPC can be classified based on distinct patterns of functional activities (Table 1) [2,3]. The first class of "colony-stimulating factors" (CSFs) is characterized by the unique ability of its members to efficiently stimulate the in vitro clonogenic growth of more committed progenitor cells when acting individually, and includes G-CSF, GM-CSF, M-CSF or CSF-I, interleukin 3 (IL-3), erythropoietin (EPO), IL-5 and IL-7. In addition, many of the CSFs can interact with cytokines of the other classes to synergistically enhance the growth of primitive HPC. The second class of "stem cell regulators" acts predominantly, but not exclusively, on primitive HPC, and includes t...

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Section: Tpo Directly Promotes the In Vitro Viability Of Primitive Mumentioning

confidence: 99%

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Thrombopoietin, a Direct Stimulator of Viability and Multilineage Growth of Primitive Bone Marrow Progenitor Cells

et al. 1996

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“…Epo supports the survival of late erythroid progenitors and enhances their proliferation and differentiation by binding to Epo receptor (Epor) (Krantz, 1991;Jelkmann, 2010;D'Andrea and Zon, 1990). Epo stimulates burst-forming unit-erythroid cells (BFU-e) expressing Epor on the surface, and successively colony-forming unit-erythroid cells (CFU-e), at sites of erythropoiesis (Broudy et al, 1991;Gregory and Eaves, 1978;Sawada et al, 1987). Further, mature erythrocytes are produced through proerythroblasts, erythroblasts, and reticulocytes.…”

Section: Introductionmentioning

confidence: 99%

Development of Erythroid Progenitors under Erythropoietin Stimulation inXenopus laevisLarval Liver

Okui¹,

Hosozawa²,

Kohama³

et al. 2016

Zoological Science

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“…A further negative selection and removal of contaminant cells with CD2, CD11b, CD16, and CD45 monoclonal antibodies was performed as previously described. 18,27 The day Ϫ1 BFU-Es were suspended in Iscove modified Dulbecco medium (IMDM) containing 20% heat-inactivated fetal calf serum (FCS), 5% heat-inactivated, pooled, human AB serum, 1% deionized bovine serum albumin (BSA), 5 ϫ 10 Ϫ5 M 2-mercaptoethanol, 10 g/mL insulin (Sigma, St Louis, MO), 2 U/mL erythropoietin (Amgen, Thousand Oaks, CA), 50 U/mL IL-3 (R&D Systems, Minneapolis, MN), 100 ng/mL SCF (Amgen), and streptomycin plus penicillin to generate ECFCs. After 5 days of culture the average purity of day Ϫ6 ECFCs was 60% or higher as measured by the plasma clot assay.…”

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Stem cell factor increases the expression of FLIP that inhibits IFNγ-induced apoptosis in human erythroid progenitor cells

Chung

Dai

Krantz

2003

Blood

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Interferon ␥ (IFN␥) acts on human erythroid colony-forming cells (ECFCs) to up-regulate Fas, without a demonstrable change of Fas ligand (FasL) or Fasassociated DD-containing protein (FADD) expression and activates caspase-8 plus caspase-3, which produce apoptosis. Our previous data showed that stem cell factor (SCF) reduced the inhibitory effect of IFN␥ on human ECFCs when both factors were present in the cultures. However, the mechanism by which SCF prevents IFN␥-induced apoptosis in ECFCs is unclear. In this study we used highly purified human ECFCs to investigate the mechanism of the effect of SCF on IFN␥-induced apoptosis. IntroductionFas (CD95/APO-1) is a prominent member of the death receptor family. Its cardinal death-signaling function is ensured by the presence of a cytoplasmic protein-protein interaction motif called the death domain (DD). 1 Clustering of Fas induces association of the cytoplasmic adaptor protein Fas-associated DD-containing protein (FADD) with the oligomerized DD of the receptor. 2,3 FADD in turn recruits the zymogen form of the initiator caspase-8/FADDlike interleukin 1 ␤ (IL-1␤)-converting enzyme (FLICE), 4-6 thus leading to the formation of the death-inducing signaling complex (DISC) that is the most receptor-proximal element of signal transduction by Fas. 7 Recruitment of the zymogen form of caspase-8 to the DISC leads to its autoproteolytic cleavage and the release of its active enzyme form in the cytosol, which initiates the cascade of caspase activation and apoptosis. One mechanism for inhibition of Fas-mediated apoptosis occurs through the action of FLICE-inhibitory protein (FLIP), a novel Fas pathway inhibitory protein, which acts as a dominant-negative caspase-8. 8,9 The inhibitory effects of interferon ␥ (IFN␥) on murine and human granulocyte-macrophage colony-forming units (CFUGMs), burst-forming units-erythroid (BFU-Es), and colonyforming units-erythroid (CFU-Es) in vitro have been reported by many investigators. [10][11][12][13][14][15][16][17] Experiments in our laboratory have shown that IFN␥ reduced erythroid colony formation, cell proliferation, and differentiation of highly purified human day Ϫ3 to day Ϫ6 BFU-Es in a dose-dependent manner and produced profound erythroblast apoptosis. 17 We also have shown that IFN␥ markedly increased the percentage of cells expressing Fas on the surface of human erythroid colony-forming cells (ECFCs) as well as the intensity of Fas expression on these cells and induced the upregulation and activation of caspase-8 and caspase-3 to produce apoptosis in human ECFCs. 18,19 Stem cell factor (SCF) has an essential role in the development of erythroid cells and affects intracellular signaling associated with proliferation, differentiation, and survival of erythroid progenitor cells. [20][21][22][23][24] Materials and methods Generation of ECFCsThis method has been previously described. 27 In brief, 400 mL of blood was obtained from healthy donors who signed consent forms approved by the Vanderbilt Committee for the Protection of Human S...

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Purification of human erythroid colony-forming units and demonstration of specific binding of erythropoietin.

Cited by 209 publications

References 34 publications

Thrombopoietin, a Direct Stimulator of Viability and Multilineage Growth of Primitive Bone Marrow Progenitor Cells

Thrombopoietin, a Direct Stimulator of Viability and Multilineage Growth of Primitive Bone Marrow Progenitor Cells

Development of Erythroid Progenitors under Erythropoietin Stimulation inXenopus laevisLarval Liver

Stem cell factor increases the expression of FLIP that inhibits IFNγ-induced apoptosis in human erythroid progenitor cells

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