Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P10721 (c-kit)
6,575 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Analysis of the cellular/molecular basis of the early steps of hematopoietic proliferation and differentiation is hindered by the rarity of hematopoietic progenitors and stem cells (HP/HSC). The intensive efforts devoted to the development of purification methods for early HP and HSC, although initially largely unsuccessful, have recently provided a high level of HP/HSC yield and/or recovery. The methodology developed by our group, recently improved, provides not only virtually complete purification, but also abundant recovery of early HP/HSC such as colony forming units granulocyte/erythroid/macrophage/megakaryocyte (CFU-GEMM), burst forming units erythroid (BFU-E), CFU granulocyte/macrophage (CFU-GM)/CFU blast cells (CFU-B), and long-term culture initiating cells (LTC-IC) from adult peripheral and cord blood (CB). We have also developed a serum-free liquid suspension culture for unilineage erythroid (E), granulocytic (G) or monocytic (M) differentiation of stringently purified HP/HSC. These culture systems allow sequential collection and cellular/molecular analysis of discrete populations of hematopoietic cells at a homogenous stage of differentiation specifically along a unilineage pathway. These experimental tools have been utilized to investigate cellular/molecular mechanisms underlying early hematopoiesis. The transcription factor (TF) GATA-1 is considered to be the "master" gene of erythropoiesis. In highly purified HP/HSC undergoing E or GM differentiation, GATA-1 expression is characterized initially by proliferation-dependent activation and at later stages by sustained expression in the E pathway and suppression in the GM pathway. Hypothetically, similar on/off switches of lineage-restricted TF may underlie the binary fate decisions of early HP differentiation. The expression and modulation of hematopoietic growth factor receptors (HGFR) in early hematopoiesis have been extensively analyzed. The results suggest a model of transactivation cascade for HGFR such as interleukin 6 receptor (IL-6R), IL-3R, GM colony stimulating factor receptor (GM-CSFR), and erythropoietin receptor (EpR), whereby each HGF upmodulates the R(s) for distal-acting HGF(s). Finally, we have investigated the effect of HGF on reactivation of hemoglobin F (HbF) in clonogenic or liquid suspension serum-free culture of purified adult HP. The results suggest that c-kit ligand (KL) plays a key role in the reactivation of HbF synthesis in adult life, and IL-3/GM-CSF potentiate this effect at low KL level. The KL-induced HbF reactivation is seemingly related to an enhanced proliferation of early E progenitors in their differentiation pathway.
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PMID:Stringently purified human hematopoietic progenitors/stem cells: analysis of cellular/molecular mechanisms underlying early hematopoiesis. 824 48

Several cytokines have been identified that support the development of dendritic cells from murine and human precursor populations, most notably GM-CSF, TNF alpha, and IL-4. We have been interested in human bone marrow as a source of defined CD34+ progenitors to generate large numbers of autologous dendritic cells for use as adjuvants in immune based therapy. In serum-replete conditions with c-kit-ligand, GM-CSF, and TNF alpha, dendritic cells constitute approximately 10-15% of the myeloid progeny (equivalent to approximately 1.7 x 10(6) dendritic cells per single ml of starting bone marrow); and they develop together with granulocytic intermediates and monocytes in the same cultures. CD14- dendritic cells share expression of class II MHC and costimulatory ligands with CD14+ monocyte progeny, but only the CD14- HLA-DR+ dendritic cells are highly stimulatory of resting unprimed T cells. We have further identified a novel colony that develops in the presence of GM-CSF and TNF alpha alongside typical CFU-GM, which is comprised of dendritic cells mixed with < or = 15% monocytes (CFU-DC/mono). c-kit-ligand recruits and expands early progenitors responsive to the dendritic cell-differentiating effects of GM-CSF and TNF alpha, effecting a 100- to 1000-fold greater expansion of CFU-DC/mono by 14d and 21d respectively than does the combination of GM-CSF and TNF alpha without c-kit-ligand.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Progenitor recruitment and in vitro expansion of immunostimulatory dendritic cells from human CD34+ bone marrow cells by c-kit-ligand, GM-CSF, and TNF alpha. 852 47

Stem cell factor (SCF) promotes limited proliferation and differentiation of hematopoietic progenitor cells and is potently synergistic in combination with growth factors such as granulocyte-macrophage colony stimulating factor (GM-CSF), interleukin 3 (IL-3) or erythropoietin (Epo). We have examined tyrosine phosphorylation induced by SCF in the megakaryoblastic cell line Mo7e and found phosphorylation of proteins of 200, 145, 120, 58 and 55 kDa. The dominant phosphotyrosylproteins in SCF treated cells were 200 and 145 kDa. Our studies indicated that the 145 kDa protein was c-kit, the receptor for SCF. Subsequent work was directed towards further characterizing the 200 kDa protein. Surface labeling of Mo7e cells suggested that p200 had an extracellular domain and could be induced to associate with c-kit after stimulation with SCF. The rapid phosphorylation of p200 and its immediate association with c-kit suggest that p200 is potentially a component of the SCF signal transduction pathway.
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PMID:Stem cell factor induces phosphorylation of a 200 kDa protein which associates with c-kit. 852 64

The SR-1 monoclonal antibody (MoAb) recognizes an epitope of the c-kit receptor (KR), present on normal hemopoietic CD34+ stem cells as well as on blasts from patients with acute leukemia. Cytometric analysis by indirect immunofluorescence with the SR-1 MoAb was performed in 98 patients with acute myeloblastic leukemia (AML) and in 37 patients with acute lymphoblastic leukemia (ALL) in order to detect the presence of the KR and to examine its prognostic significance. Sixty-nine of 98 (70%) AML patients were SR-1 positive independently of the FAB subtype, although a higher incidence of SR-1 positive cases was observed in M4 and M5 AML and in those cases that also coexpressed lymphoid antigens. Fourteen AML samples were studied by Northern blot analysis and the KR mRNA was detected in the majority of SR-1 positive cases and also in 2 of 3 SR-1 negative samples. Furthermore, "in vitro" cultures from 15 cases showed that recombinant human Stem cell factor (rhSCF) induced an increased proliferative activity in most tested cases (11/15); this was further enhanced when rhSCF was combined with rhIL-3 + rhGM-CSF (p = 0.007) and with the GM-CSF/IL-3 fusion protein PIXY321 (p = 0.003). Thirty-seven ALL cases were also studied and all but one were SR-1 negative. Interestingly, the only SR-1 positive case also coexpressed myeloid antigens and showed an "in vitro" response when stimulated with rhSCF. Finally, the complete remission (CR) rate, survival and event-free survival were evaluated in 75 AML patients who received standard and identical chemotherapy; unlike previous studies which utilized a different anti-KR MoAb (YB5.B8) and which showed a poor prognosis for KR positive patients, we were unable to document any significant difference in CR rate, survival and event-free survival.
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PMID:Cytofluorimetric and functional analysis of c-kit receptor in acute leukemia. 852 52

Mast cells and basophils are multifunctional effector cells of the immune system. Both are myeloid cells and originate from multipotent hemopoietic progenitor cells. Usually, human basophils complete their differentiation in the bone marrow. In contrast, mast cells usually undergo differentiation in extramedullary organs. During the past few years, growth factors for human basophils and a growth factor for human mast cells have been identified. Interleukin-3 is the most potent differentiation factor for human basophils and activates mature basophils via high affinity binding sites. Other basophil agonists are GM-CSF, IL-5, NGF and certain chemokines (IL-8, MCP-1). Mast cells apparently loose cytokine binding sites during mastopoiesis and as mature cells, do not express detectable amounts of IL-3R, GM-CSFR or IL-8R. However, in contrast to other myeloid cells, mast cells express SCF receptor/c-kit during mastopoiesis and on mature cells. Furthermore, the ligand of c-kit, SCF, induces differentiation of human mast cells from their progenitor cells and upregulates effector functions in mature mast cells.
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PMID:Cytokines involved in growth and differentiation of human basophils and mast cells. 852 98

We present a detailed analysis of cytokine expression patterns of the two permanent human bone marrow stromal cell lines, L87/4 and L88/5. These cell lines, previously established in our laboratory, are highly radiotolerant without cell detachment and support long-term cultures of CD(34+)-enriched human cord blood cells. RT-PCR analysis of 22 different cytokines or cytokine receptor mRNAs showed an almost identical expression pattern in the two stromal cell lines compared to primary human Dexter-type stroma. Since stromal feeder lines employed in long-term cultures usually are irradiated and grown in media containing corticosteroids, we analyzed the impact of irradiation and dexamethasone on cytokine production in the two cell lines by RT-PCR, Northern blot analysis, bioassays, and RIAs. By RT-PCR analysis, constitutive mRNA expression of c-kit, G-CSF, GM-CSF, IL-1 beta, IL-6, IL-7, IL-8, IL-11, Kit ligand (KL), LIF, M-CSF, MIP-1 alpha, TGF-beta, and TNF-alpha was demonstrated in both cell lines, with L87/4 a more potent cytokine producer than L88/5. Northern blot data showed an increase in mRNA levels for GM-CSF, IL-1 beta, and LIF by irradiation and IL-1 alpha treatment in both cell lines. IL-1 alpha-induced GM-CSF, IL-1 beta, IL-6, IL-11, and LIF mRNA levels were reduced by the addition of dexamethasone, whereas dexamethasone had no influence on the amounts of IL-1 alpha-induced G-CSF mRNA. L87/4 and, to a lower extent, L88/5 cells showed dexamethasone-dependent increases in KL mRNA, while KL mRNA levels were not stimulated by IL-1 alpha.
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PMID:Constitutive and modulated cytokine expression in two permanent human bone marrow stromal cell lines. 853 85

We report that blood cell autografts, collected by single leukapheresis in cancer patients (n = 11) at the time of mobilization of hematopoietic progenitors into peripheral blood following anticancer therapy with high-dose cyclophosphamide (HD-CTX) plus interleukin-3 (IL-3) and granulocyte colony-stimulating factor (G-CSF/filgrastim), comprise 1.98 +/- 0.39 x 10(5)/kg (mean +/- SE) CD34+ progenitors of dendritic cells (DCs). This number corresponds to 140-fold more progenitors than in a control autograft collected in the steady state. DCs derived from mobilized CD34+ cells, morphologically and immunophenotypically undistinguishable from skin Langerhans cells and DCs from bone marrow and cord blood CD34+ cells, are shown to be powerful stimulators of allogeneic T cell proliferation in primary MLR and of autologous HLA-DR-restricted CD4+ T cell proliferation in response to presentation of xenogenic antigens. We show that the GM-CSF-plus-TNF-alpha-dependent ex vivo generation of DCs from mobilized CD34+ cells is 2.5-fold enhanced by flk-2/flt-3 ligand or c-kit ligand (stem cell factor) and five-fold enhanced by a combination of these growth factors. In addition, the optimal serum for the generation of DCs is autologous HD-CTX recovery-phase serum rather than fetal calf serum (FCS) or steady-state human serum, which are clinically inadequate and ineffective, respectively. In practice, the stimulation of CD34+ cells in a blood cell autograft (15.75 +/- 2.46 x 10(6)/kg) provided by the above four growth factors should permit ex vivo generation of approximately 40 x 10(9) DCs in an adult patient. These new findings provide advantageous tools for the large-scale generation of DCs that are potentially usable for clinical protocols of immunotherapy or vaccination in patients undergoing cancer treatment.
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PMID:Massive ex vivo generation of functional dendritic cells from mobilized CD34+ blood progenitors for anticancer therapy. 854 32

Interleukin-11 is a stromal cells derived cytokine which stimulates the proliferation of primitive haemopoietic progenitor cells. For this paper we have studied the constitutive expression of IL-11 mRNA in a panel of wellknown leukaemic cell lines and samples from AML patients at diagnosis. Moreover, the same cellular populations were evaluated for their proliferative response to recombinant-human-(r-hu). IL-11 alone and combined with r-hu-IL-3, granulocyte-macrophage colony stimulating factor (GM-CSF) and stem cell factor (SCF, c-kit ligand). The colony-forming ability of HL60, K562, KG1 cells and eight fresh AML cell populations was assessed by a clonogenic assay in methylcellulose. In eight additional AML cases the number of S-phase leukaemic cells induced by IL-11 was determined by the bromodeoxyuridine (BRDU) incorporation assay after 3d of liquid culture. IL-11, as single cytokine, did not stimulate the colony formation of the three myeloid cell lines under serum-containing and serum-free conditions. In contrast, the proliferation of the leukaemic cells in response to IL-3, GM-CSF and SCF was enhanced by co-incubation with IL-11, and this effect was reversed in blocking experiments by the anti-IL-11 Moab. When tested on primary AML samples, IL-11 alone showed little, if any, proliferative activity. However, it increased the IL-3-dependent blast colony formation in eight out of eight cases and GM-CSF in seven cases. IL-11 also augmented synergistically the number of CFU-L stimulated by SCF in seven cases. A combination of three factors (IL-11, SCF and IL-3) yielded optimal colony formation. The BRDU studies showed the significant increase of AML cells in S-phase when IL-11 was combined with SCF, whereas the two CSF had no activity on their own. Positive interaction was also observed when IL-11 was added to IL-3 supplemented cultures in five out of eight cases tested. Reverse transcriptase-polymerase chain reaction amplification (RT-PCR) demonstrated the constitutive expression of IL-11 mRNA in all the cell lines and 11/12 AML samples studied at diagnosis. These results indicate that IL-11 is expressed in leukaemic myeloid cells and that their proliferation is regulated by the cytokine which acts as a synergistic factor.
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PMID:Interleukin-11 (IL-11) acts as a synergistic factor for the proliferation of human myeloid leukaemic cells. 854 68

Bone marrow stem cells reside in close proximity to endosteal osteoblasts. To explore the potential role of osteoblasts in hematopoietic differentiation, we measured the mRNA accumulation, protein production, and secretion of hematopoietic growth factors by the nonmineralizing MG-63 and the mineralizing SaOS-2 human osteosarcoma cell lines. mRNA for the osteoblast-specific protein osteocalcin was well as granulocyte colony-stimulating factor (G-CSF), transforming growth factor-beta 1 (TGF-beta 1), and tumor necrosis factor-alpha (TNF-alpha) was produced by the MG-63 and SaOS-2 cells, like primary human cells, in the presence and absence of L-ascorbate and beta-glycerol phosphate. In contrast, both cell lines expressed c-kit ligand mRNA only in the absence of L-ascorbate and beta-glycerol phosphate induction. Granulocyte-macrophage (GM)-CSF and interleukin-6 (IL-6) mRNA appeared to develop with increasing culture age. G-CSF protein was identified in several cell-associated forms including the 28- and 32-kD species, In addition, GM-CSF was found in cell-associated form. These results suggest that osteoblasts might play a central role in the hematopoietic microenvironment as basal producers of G-CSF and GM-CSF and suggest the possibility that osteoblasts may locally present these proteins in an membrane-associated fashion
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PMID:Human osteosarcoma cell lines MG-63 and SaOS-2 produce G-CSF and GM-CSF: identification and partial characterization of cell-associated isoforms. 860

The effect of an ex vivo expansion culture system using multiple cytokine combinations was evaluated in 38 cases of myelodysplastic syndrome (MDS) with the aim of overcoming the defective in vitro growth of haemopoietic progenitor cells. A combination of four growth factors (GF) including SCF, IL-3, IL-6 and GM-CSF was identified as the optimal combination for expanding clonogenic progenitor cells in MDS bone marrow liquid cultures. The cultures of 50% of the patients (19/38) responded to GF stimulation (mean CFU-GM fold increase 15.65+/-48 at week 4) and showed morphological features of normal and/or dysplastic myeloid differentiation. In 12/38 cases (31%), complete unresponsiveness to multiple cytokine stimulation was observed; a small number of patients (7/38) showed progressive leukaemic growth along the cultures with the presence of 100% immature blasts at week 4. GM-CSF and c-kit receptors, analysed by immuno-histochemistry in 10 patients, were over-expressed in responding patients and either lacking or down-regulated in non-responders. Fluorescence in situ hybridization (FISH) analysis of cultured interphase cells of nine patients (trisomy 8 in eight patients) showed a clear-cut increase in the percentage of cells with three signals in the two responding patients, thus indicating the expansion of a MDS clone. Multiple cytokine liquid cultures seem to be able to override the refractoriness of MDS progenitor cells to GF stimulation in many cases, revealing a heterogeneity which may have prognostic implications and should be considered in ex-vivo and in vivo clinical trials with cytokine combinations.
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PMID:Response of myelodysplastic syndrome marrow progenitor cells to stimualtion with cytokine combinations in a stroma-free long-term culture system. 861 15


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