UNIPROT:P10721 - FACTA Search

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)

This study assessed the ability of recombinant human stem cell factor (rHuSCF) to mobilize stem cells in 44 patients who had failed a prior mobilization (CD34(+) yield 0.5-1.9 x 10(6)/kg BW) with filgrastim-alone or chemotherapy-plus-filgrastim. The same mobilization regimen was used with the addition of rHuSCF. In the filgrastim-alone group (n=13), rHuSCF 20 microg/kg was started 3 days before filgrastim and continued for the duration of filgrastim. In the chemotherapy-plus-filgrastim group (n=31), rHuSCF 20 microg/kg/day plus filgrastim 5-10 microg/kg/day were administered concurrently. Leukaphereses were continued to a maximum of four procedures or a target of >or=3 x 10(6) CD34(+) cells/kg. In both groups, CD34(+) yield (x 10(6)/kg BW) of the study mobilization was higher than that of the prior mobilization (median: 2.42 vs 0.84 P=0.002 and 1.64 vs 0.99 P=<0.001, respectively). In all 54 and 45% of patients in the filgrastim-alone group and chemotherapy-plus-filgrastim group, respectively, reached the threshold yield of 2 x 10(6)/kg. The probability of a successful mobilization was the same in those with a CD34+ yield of 0.5-0.75 x 10(6)/kg BW in the prior mobilization as in those with 0.76-1.99 x 10(6)/kg BW. Downmodulation of c-kit expression and a lower percentage of Thy-1 positivity in the mobilized CD34(+) cells were noted in the successful mobilizers compared with those in the poor mobilizers. This study shows that rhuSCF is effective in approximately half the patients who had failed a prior mobilization and allows them to proceed to transplant. It also points to the likely role of the SCF/c-kit ligand pair in mobilization.
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PMID:Successful mobilization of peripheral blood stem cells after addition of ancestim (stem cell factor) in patients who had failed a prior mobilization with filgrastim (granulocyte colony-stimulating factor) alone or with chemotherapy plus filgrastim. 1263 28

The purpose of this study was to observe the bone marrow endothelial cell-conditioned medium (BECM) and cytokines, i.e. vascular endothelial growth factor (VEGF), stem cell factor (SCF) and EPO promoting the generation of hematopoietic precursor cells from mouse embryonic stem cells (ESC) in vitro. Day 4 embryoid body (4dEB) cells were derived from ESC-D3 cell line, a murine ESC line, and then induced with BECM and/or cytokines. Four groups, i.e. BECM, BECM + VEGF + SCF + EPO, VEGF + SCF + EPO and control (spontaneous differentiation), were designed. Immunochemistry staining and flow cytometry were adopted to observe the antigen expression, RT-PCR to detect hematopoietic transcription factors, and hematopoietic progenitor assay to examine hematopoietic differentiation. The results showed that the cells induced from ESC expressed hematopoietic precursor cell antigens (c-kit, Sca-1, Thy-1 and CD34), transcription factors (c-myb, SCL and beta-H1) and generated HPP-CFC and BFU-E. The effect of BECM + VEGF + SCF + EPO was the most potent in the inducing groups according to the numbers of hematopoietic precursor cells and colonies. It is concluded that BECM promotes the differentiation of ESC into hematopoietic precursor cells in vitro, and this effect is the strongest when BECM combining with VEGF + SCF + EPO.
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PMID:[Bone marrow endothelial cell-conditioned medium promotes hematopoietic differentiation of mouse embryonic stem cells]. 1274 28

Mouse bone marrow contains hematopoietic stem cells as well as progenitor cells, which are partially differentiated offspring of stem cells. We have utilized several approaches to separate progenitors from stem cells in order to characterize essential differences between these two stages of development. As a first approach, we utilized the supravital fluorescent dye rhodamine-123 (Rh-123) to distinguish quiescent stem cells (Rh-123(low)) from metabolically active progenitor cells (Rh-123(hi)). Analysis of megakaryocyte potential in a tissue culture assay demonstrated that Rh-123(hi) progenitor cells were capable of robust megakaryocyte differentiation, while Rh-123(low) stem cells produced fewer colonies containing megakaryocytes. Transplantation of the two cell populations into irradiated recipients revealed the opposite outcome, suggesting that the tissue culture assay failed to predict behavior in a transplant setting. We also evaluated functional potential of lymphoid progenitors isolated by selecting for differential expression of Thy-1.1 and c-kit. The potential of defined cell populations to differentiate as T or B lymphocytes in vivo was dependent upon the time post transplant at which animals were evaluated. These studies underscore the need for caution in the interpretation of lineage potentials evaluated by both in vitro and in vivo assays.
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PMID:Early stages of hematopoietic differentiation. 1279 96

The recent description of an early T-lineage progenitor (ETP) population in adult mouse thymus implies the presence of a bone marrow predecessor that has not yet been identified. Here we describe a Lin(Neg) Sca-1(Pos) c-kit(Hi) Thy-1.1(Neg) L-selectin(Pos) adult mouse bone marrow population that resembles the thymic ETP in both antigen expression phenotype and posttransplantation lineage potential. These cells produce wavelike kinetics of thymic seeding and reconstitute the irradiated thymus with kinetics comparable to a thymocyte graft after intravenous transplantation. Transient B-lineage reconstitution is also observed, but little myeloid potential can be detected in transplant experiments. A second subset of progenitors is L-selectin(Neg) and is highly enriched for rapid and persistent T- and B-lineage potential, as well as some myeloid potential. L-selectin (CD62L) is therefore an effective marker for separating lymphoid progenitors from myeloid progenitors and hematopoietic stem cells in mouse bone marrow.
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PMID:L-selectin defines a bone marrow analog to the thymic early T-lineage progenitor. 1507 Jun 75

PU.1 is a member of the ETS family of transcription factors and is required for the development of multiple hematopoietic lineages. PU.1(-/-) mice die from hematopoietic failure at about embryonic day 18.5 (e18.5) and show a complete absence of B cells, mature T cells, and macrophages. This phenotype suggests that PU.1 may function at the level of the hematopoietic stem cell (HSC) or a multilineage progenitor. To investigate the role of PU.1 in the regulation of HSCs, PU.1(-/-) embryos were analyzed at various stages of embryonic development. The absolute number and frequency of HSCs were determined by flow cytometric analysis of c-Kit(+)Thy-1.1(lo)Lin(-)Sca-1(+) (KTLS) cells. We found that KTLS cells were absent or severely reduced in PU.1(-/-) fetal liver from e12.5 to e15.5. Progenitor cells with a c-Kit(+)Lin(-)AA4.1(+) and c-Kit(+)Lin(-)CD34(+) phenotype were also severely reduced. In addition, PU.1(-/-) fetal liver at e14.5 lacked common myeloid progenitors (CMPs) and granulocyte-macrophage progenitors (GMPs) but retained megakaryocyteerythroid progenitors (MEPs). Consistent with the loss of HSC activity, a 10-fold reduction in erythroid progenitors (mature erythroid burst-forming units [BFUEs]) was observed between e14.5 and e16.5. These data suggest that PU.1 plays an important role in the maintenance or expansion of HSC number in murine fetal liver.
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PMID:The ETS family transcription factor PU.1 is necessary for the maintenance of fetal liver hematopoietic stem cells. 1532 62

Previously, we found that hepatocyte growth factor receptor (c-Met)-and alpha-fetoprotein (AFP)-expressing cells were present in adult rat bone marrow, and that these cells also expressed hematopoietic stem cell markers, such as CD34, Thy-1, and c-Kit. When bone marrow cells were cultured in a hepatocyte growth medium (HGM) with HGF and EGF, colonies composed of polygonal cells resembling mature hepatocytes appeared by 2 weeks and grew very slowly because of overgrowth of stromal cells. At days 34-41, 2-mm2 sheets of hepatocyte-like cells were cut out of their colonies by scratching with an injection needle under observation with a phase contrast microscope, transferred into wells of 24-well plates, and cultured in the HGM medium in the presence or absence of HGF and EGF. When cells reached confluence, cells were detached with trypsin and EDTA and transferred step by step into bigger culture vessels. Thus, hepatocyte-like cells were expanded 1000-fold during less than 4 months. These cells were immunocytochemically stained for albumin and also for AFP and the hematopoietic stem cell markers described above, showing characteristics of oval cells. By RT-PCR, we detected mRNAs of tryptophan-2,3-dioxygenase and tyrosine aminotransferase, markers of hepatocytes at a terminal differentiation stage. The present culture system may be useful for supply of hepatocyte resources for cell transplantation therapy.
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PMID:Propagation of adult rat bone marrow-derived hepatocyte-like cells by serial passages in vitro. 1546 80

In addition to long-term self-renewal capability, human mesenchymal stem cells (MSCs) possess versatile differentiation potential ranging from mesenchyme-related multipotency to neuroectodermal and endodermal competency. Of particular concern is hepatogenic potential that can be used for liver-directed stem cell therapy and transplantation. In this study, we have investigated whether human umbilical cord blood (UCB)-derived MSCs are also able to differentiate into hepatocyte-like cells. MSCs isolated from UCB were cultured under the pro-hepatogenic condition similar to that for bone marrow (BM)-derived MSCs. Expression of a variety of hepatic lineage markers was analyzed by flow cytometry, RT-PCR, Western blot, and immunofluorescence. The functionality of differentiated cells was assessed by their ability to incorporate DiI-acetylated low-density lipoprotein (DiI-Ac-LDL). As the cells were morphologically transformed into hepatocyte-like cells, they expressed Thy-1, c-Kit, and Flt-3 at the cell surface, as well as albumin, alpha-fetoprotein, and cytokeratin-18 and 19 in the interior. Moreover, about a half of the cells were found to acquire the capability to transport DiI-Ac-LDL. Based on these observations, and taking into account immense advantages of UCB over other stem cell sources, we conclude that UCB-derived MSCs retain hepatogenic potential suitable for cell therapy and transplantation against intractable liver diseases.
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PMID:In vitro differentiation of human umbilical cord blood-derived mesenchymal stem cells into hepatocyte-like cells. 1582 64

Pluripotent stem cells (PSCs) with transdifferentiation capacity may provide useful therapeutic modalities in the areas of cellular restoration and regenerative medicine. The utility of PSCs depends on their ability to respond to different stimuli and to adapt to tissue-specific differentiation conditions. Given that a number of cells possessing characteristics of PSCs have been identified and isolated from several adult murine tissues, we hypothesized that a common PSC may exist in multiple murine tissues and that these cells may either reside permanently in specific sites or continue to circulate and colonize tissues as needed. Previous data from our laboratory suggest that PSCs exhibiting an immunophenotype of CD45(-)Sca-1(+)c-kit(-)Thy-1(+) can be isolated from multiple murine tissues and may represent putative common PSCs (CoPSCs). To investigate whether the multiple tissue differentiation potential observed with these cells resulted from the presence of different tissue-restricted progenitors within CD45(-)Sca-1(+)c-kit(-)Thy-1(+) cells or was the product of clonal differentiation of CoPSCs, clonality studies were performed. Single skeletal muscle (SM)-derived CoPSCs were expanded for 10 days, and progeny cells were split into three culture conditions designed to stimulate myogenic, adipogenic, and neurogenic differentiation. Analysis of 600 clones indicated that 2.16%, 0.83%, and 0.33% of the total number of plated single cells were capable of unipotent, bipotent, and tripotent differentiation, respectively, into combinations of myocytes, adipocytes, and neuronal cells. Given that SM-derived CoPSCs represent 4.78% of the total cells analyzed, tripotent CoPSCs made up 0.016% of the total muscle cells. Similar results were obtained in clonal analyses using adipose stromal cell (ASC)-derived CoPSCs, suggesting that both SM- and ASC-derived CoPSCs may be phenotypically and functionally identical. Taken together, these data demonstrate that a common PSC can be identified in different murine tissues and suggest that a small fraction of these cells are capable of clonal differentiation into multiple cell types.
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PMID:Clonal multilineage differentiation of murine common pluripotent stem cells isolated from skeletal muscle and adipose stromal cells. 1595 12

Bone marrow contains a heterogeneous mixture of mature and maturing precursors of blood cells, progenitor cells for myeloid and lymphoid lineages, and hematopoietic and mesenchymal stem cells. The differentiation potential of these different stem, progenitor, and precursor populations can be evaluated by using transplantation and cell culture assays. In this study, we used a stromal cell co-culture system to evaluate the B and T lineage potential of different subsets of mouse bone marrow. We enriched hematopoietic stem (Lin(-)Sca-1(+)c-kit(+)Thy1.1(low) [Thy1.1(low)]) cells and lymphoid progenitor (Lin(-)Sca-1(+)c-kit(+)Thy1.1(-) [Thy1.1(-)]) cells from mouse bone marrow and co-cultured these populations with OP9 or OP9-DL1 stromal cell lines. Development of the B and T lineages was evaluated over time. Both populations gave rise to B and T cells but with different kinetics. Thy1.1(-) lymphoid progenitors gave rise to B and T lineage cells earlier than did Thy1.1(low) stem cells; and at any given time, percentages of differentiating B and T cells were higher in Thy1.1(-) cultures than in Thy1.1(low) cultures. We also compared the lineage potential of Thy-1.1(-) lymphoid progenitors with that of the recently described common lymphoid progenitor 2 (isolated as Lin(-)Sca-1(+)c-kit(-)Thy1.1(-)B220(+) cells [B220(+)]). B220(+) cells produced B lineage progeny in OP9 cultures more rapidly than did Thy1.1(-) cells and produced higher percentages of differentiating T cells in OP9-DL1 cultures. These studies demonstrate the utility of the OP9 and OP9-DL1 co-culture systems for evaluation of lymphoid lineage potential and for determining the relative position of specific bone marrow populations within the hematopoietic hierarchy.
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PMID:Lymphoid potential of primitive bone marrow progenitors evaluated in vitro. 1595 14

Liver progenitor cells have drawn a great deal of attention both for their therapeutic potential and for their usefulness in exploring the molecular events surrounding liver development and regeneration. Despite the intensive studies on liver progenitors from rats, equivalent progenitor cells derived from mice are relatively rare. We used retrosine treatment followed by partial hepatectomy to elicit liver progenitors in mice. From these animals showing prominent ductular reactions, mouse-derived liver progenitor cell lines (LEPCs) were isolated by single-cell cloning. Phenotypic and lineage profiling of the LEPC clones were performed using immunochemistry, reverse transcription-polymerase chain reaction, and a dual-color system comprising the reporter EGFP under the control of the cytokeratin 19 promoter and the DsRed reporter under the control of the albumin promoter. LEPCs expressed liver progenitor cell markers. LEPCs also expressed some markers shared by bone marrow-derived hematopoietic stem cells c-Kit and Thy-1 but not CD34 and CD45. When cultured as aggregates in Matrigel, LEPCs differentiated into hepatocyte upon treatment with 50 ng/ml epithelial growth factor or differentiated into biliary lineage cells upon treatment with 20 ng/ml hepatocyte growth factor. In the presence of 2% dimethyl sulfoxide and 2% Matrigel, LEPCs acquired predominantly bile lineage phenotypes, with occasional patches of cells exhibiting hepatocyte phenotypes. Upon transplantation into CCl4-injured-liver, LEPCs engrafted into liver parenchyma and differentiated into hepatocytes. Considering the amenability of the mouse to genetic manipulation, these mouse-derived LEPCs may be useful tools as in vitro models to study molecular events in liver development and regeneration and can shed light in studying the therapy potential of liver stem cells.
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PMID:Isolation and characterization of bipotent liver progenitor cells from adult mouse. 1610 53

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