UNIPROT:P10721 - FACTA Search

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Query: UNIPROT:P10721 (c-kit)
6,575 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Flt3 ligand (FL) is an important cytokine that affects the proliferation of hematopoietic stem cells and multipotent progenitors. In addition, FL seems to be strongly involved in the differentiation of B cells and macrophages. These two cell types are derived from separate hematopoietic lineages and display distinct surface markers, for instance, the pan-B cell marker B220 (CD45R) and the myelo/monocytic marker Mac-1 (CD11b), respectively. However, reports during several years have shown that some lineage markers can be coexpressed on factor-dependent progenitor cells as well as on some malignant leukemic clones. In the present study, we describe the ability of FL to induce the development and growth of Mac-1+ progenitor cells coexpressing B220 from c-kit+Lin- mouse bone marrow cells. FL was shown to be necessary but not sufficient for the development of Mac-1(-)B220+ cells, because certain other cytokines, in particular IL-6, had to be added to the cultures. An extended characterization of the cells revealed coexpression of other early B-cell markers, i.e., CD24, CD43, and c-kit. They expressed transcripts for c-fms, the receptor for macrophage-colony stimulating factor (M-CSF), and were able to develop into macrophages at high numbers, but not to other myeloid cells. By RT-PCR analysis we could also demonstrate expression of the B-cell associated genes Pax-5, Rag-2, and TdT. In contrast, Mac-1(+)B220- cells from the same cultures did not express any of the B-cell genes, and retained a broader myeloid differentiation capacity. Despite these B-cell associated features, Mac-1(+)B220- cells could not be induced towards B-cell progenitors. Our data suggest that FL triggers the activation of some B-cell associated genes in progenitor cells predestined to macrophage differentiation.
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PMID:Flt3 ligand induces the outgrowth of Mac-1+B220+ mouse bone marrow progenitor cells restricted to macrophage differentiation that coexpress early B cell-associated genes. 1056 Sep 12

The two tyrosine kinase receptors, c-kit and flt3, and their respective ligands KL and FL, have been demonstrated to play key and nonredundant roles in regulating the earliest events in hematopoiesis. However, their precise roles and potential interactions in promoting early lymphoid commitment and development remain unclear. Here we show that most if not all murine Lin(-/lo)Sca1(+)c-kit(+) bone marrow (BM) cells generating B220(+)CD19(+) proB-cells in response to FL and interleukin-7 (IL-7) also have a myeloid potential. In contrast to FL + IL-7, KL + IL-7 could not promote proB-cell formation from Lin(-/lo)Sca1(+)c-kit(+) cells. However, KL potently enhanced FL + IL-7-stimulated proB-cell formation, in part through enhanced recruitment of FL + IL-7-unresponsive Lin(-/lo)Sca1(+)c-kit(+) progenitors, and in part by enhancing the growth of proB-cells. The enhanced recruitment (4-fold) in response to KL occurred exclusively from the Lin(-/lo)Sca1(+)c-kit(+)flt3(-) long-term repopulating stem cell population, whereas KL had no effect on FL + IL-7-stimulated recruitment of Lin(-/lo)Sca1(+)c-kit(+)flt3(+) short-term repopulating cells. The progeny of FL + IL-7-stimulated Lin(-/lo)Sca1(+)c-kit(+) cells lacked in vitro and in vivo myeloid potential, but efficiently reconstituted both B and T lymphopoiesis. In agreement with this FL, but not KL, efficiently induced expression of B220 and IL-7 receptor-alpha on Lin(-/lo)Sca1(+)c-kit(+)flt3(+) cells. Thus, whereas KL appears crucial for recruitment of FL + IL-7-unresponsive candidate (c-kit(+)flt3(-)) murine stem cells, FL is essential and sufficient for development toward lymphoid restricted progenitors from a population of (c-kit(+)flt3(+)) multipotent short-term reconstituting progenitors.
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PMID:Lymphoid-restricted development from multipotent candidate murine stem cells: distinct and complimentary functions of the c-kit and flt3-ligands. 1057 92

We have discovered that cells derived from the skeletal muscle of adult mice contain a remarkable capacity for hematopoietic differentiation. Cells prepared from muscle by enzymatic digestion and 5-day in vitro culture were harvested, and 18 x 10(3) cells were introduced into each of six lethally irradiated recipients together with 200 x 10(3) distinguishable whole bone marrow cells. After 6 or 12 weeks, all recipients showed high-level engraftment of muscle-derived cells representing all major adult blood lineages. The mean total contribution of muscle cell progeny to peripheral blood was 56 +/- 20% (SD), indicating that the cultured muscle cells generated approximately 10- to 14-fold more hematopoietic activity than whole bone marrow. When bone marrow from one mouse was harvested and transplanted into secondary recipients, all recipients showed high-level multilineage engraftment (mean 40%), establishing the extremely primitive nature of these stem cells. We also show that muscle contains a population of cells with several characteristics of bone marrow-derived hematopoietic stem cells, including high efflux of the fluorescent dye Hoechst 33342 and expression of the stem cell antigens Sca-1 and c-Kit, although the cells lack the hematopoietic marker CD45. We propose that this population accounts for the hematopoietic activity generated by cultured skeletal muscle. These putative stem cells may be identical to muscle satellite cells, some of which lack myogenic regulators and could be expected to respond to hematopoietic signals.
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PMID:Hematopoietic potential of stem cells isolated from murine skeletal muscle. 1058 76

To identify chymase- and tryptase-positive mast cells in the human uvea, and to study their associations with different types of resident uveal cells, uveal specimens from 24 human donor eyes were cryosectioned in sagittal and tangential planes. Enzyme histochemical staining of chymase was combined with immunohistochemical staining for tryptase, detected with the APAAP method. Fluorescence immunohistochemistry was performed with antibodies against c-kit, alpha smooth muscle actin, protein gene product (PGP) 9.5, CD45, and HLA-DR. In different uveal compartments, the total amounts of mast cells were calculated and the distributions of chymase and tryptase were quantified. All uveal mast cells were c-kit and CD45 positive and HLA-DR negative. No association existed between mast cells and actin-containing cells. Only a few mast cells were in close association with PGP 9.5-labeled nerve fibers. In the choroid, most mast cells were located in the inner central part (mean density = 48.9/mm(2)), and contained both chymase and tryptase (96%). The ciliary muscle contained numerous mast cells (mean density = 33.7/mm(2)), many of them tryptase positive but chymase negative (63%). In the pars plana, a high number of chymase-positive, tryptase-negative mast cells were found (20%). In the iris only a few mast cells were present. Although the choroid contains the most common subtype of mast cells, a unique situation concerning the distribution of chymase and tryptase is present in the anterior uveal tissues. A possible role for these cells in the special immunological situation of the anterior eye chamber merits further investigation.
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PMID:Mast cell heterogeneity in the human uvea. 1060 78

Fetal liver kinase ligands (flk2L/flt3L) and stem cell factor (SCF) have been shown to promote natural killer (NK) cell differentiation from hematopoietic stem cell (HSC) precursors in vitro. However, the contribution of signaling through the receptors for these growth factors for in vivo NK cell development remains ill-defined. We have analyzed the role of the SCF receptor c-kit in NK cell differentiation by reconstituting NK-deficient mice with fetal liver (FL) HSCs of c-kit(-/-) (W/W) mice. Although c-kit(-/-)NK cells were generated in W/W chimeras, they were reduced in number, contained a lower percentage of CD45R (B220)(+) cells, and were poorly cytolytic. In vitro experiments showed that generation of NK cells from FL precursors was reduced in the absence of c-kit signaling and that SCF promoted the survival of peripheral c-kit(+) NK cells. We conclude that c-kit/SCF interactions in vivo are dispensable for the commitment of HSC to the NK lineage, but they provide essential signals for generating normal numbers of fully mature NK cells.
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PMID:The receptor tyrosine kinase c-kit provides a critical signal for survival, expansion, and maturation of mouse natural killer cells. 1064 13

The combined analysis of the expression of receptor tyrosine kinases c-Kit and Flt3/Flk-2 and of the human CD25 gene expressed as a transgene under the regulation of the mouse lambda5 promoter in the bone marrow of 1-week-old mice allows us to identify three stages of B lymphocyte development before the CD19(+)c-Kit(+) pre-B-I cells. Single-cell PCR analysis of the rearrangement status of the Ig heavy chain alleles allows us to order these early stages of B cell development as follows: (i) B220(+)CD19(-)c-Kit(lo)Flt3/Flk-2(hi)lambda5(-), (ii) B220(+)CD19(-)c-Kit(lo)Flt3/Flk-2(hi)lambda5(+) and (iii) B220(+)CD19(+)c-Kit(lo)Flt3/Flk-2(lo)lambda5(+) before B220(+)CD19(+)c-Kit(lo)Flt3/Flk-2(-)lambda5(+) pre-B-I cells. All these progenitors are clonable on stromal cells in the presence of IL-7 and can differentiate to CD19(+)c-Kit(-) B-lineage cells. A combination of stem cell factor, Flt3 ligand and IL-7 was also able to support the proliferation and differentiation of the progenitors in a suspension culture. Furthermore, the analyses indicate that the onset of D(H)J(H) rearrangements precedes the expression of the lambda5 gene. These progenitor populations were characteristic of juvenile mice and could not be detected in the bone marrow of adult mice. Hence the expression pattern, and probably the function, of the receptor tyrosine kinases in early B cell differentiation appears to be different in juvenile and adult mice.
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PMID:Identification of CD19(-)B220(+)c-Kit(+)Flt3/Flk-2(+)cells as early B lymphoid precursors before pre-B-I cells in juvenile mouse bone marrow. 1070 Apr 66

A 130-kDa glycoprotein (p130) has been found to be associated with surrogate light chain on pro- and pre-B I cells. Using peptide sequences obtained from purified p130 we have cloned its gene. The gene encodes a typical cadherin type 1 membrane protein with six extracellular cadherin domains (one pseudo domain) but lacking the catenin-binding site in its cytoplasmic part. Even without this catenin-binding site, p130 mediates Ca(2+)-dependent homotypic adhesion of cells. The interaction of p130 with surrogate light chain is confirmed by co-transfection and co-immunoprecipitation experiments. The expression of p130 is biphasic during the B cell development. Reverse transcriptase-polymerase chain reaction and flow cytometric analyses revealed that it is expressed on B220(+)c-Kit(+) pro-B and pre-B-I cells as well as on B220(+)CD25(-)IgM(+) immature and mature B cells but not on B220(+)CD25(+) pre-B-II cells. It is also expressed in fetal liver, at low levels in myeloid cells, and strongly in intestinal epithelial cells. In the spleen, p130-expressing cells are mainly localized in the marginal zone. We call this B lineage-, intestine-, liver- and leukocyte-expressed gene BILL-cadherin. The possible functions of BILL-cadherin in B cell development are discussed.
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PMID:The identification of a nonclassical cadherin expressed during B cell development and its interaction with surrogate light chain. 1090 47

Several recent studies suggest the isolation of stem cells in skeletal muscle, but the functional properties of these muscle-derived stem cells is still unclear. In the present study, we report the purification of muscle-derived stem cells from the mdx mouse, an animal model for Duchenne muscular dystrophy. We show that enrichment of desmin(+) cells using the preplate technique from mouse primary muscle cell culture also enriches a cell population expressing CD34 and Bcl-2. The CD34(+) cells and Bcl-2(+) cells were found to reside within the basal lamina, where satellite cells are normally found. Clonal isolation and characterization from this CD34(+)Bcl-2(+) enriched population yielded a putative muscle-derived stem cell, mc13, that is capable of differentiating into both myogenic and osteogenic lineage in vitro and in vivo. The mc13 cells are c-kit and CD45 negative and express: desmin, c-met and MNF, three markers expressed in early myogenic progenitors; Flk-1, a mouse homologue of KDR recently identified in humans as a key marker in hematopoietic cells with stem cell-like characteristics; and Sca-1, a marker for both skeletal muscle and hematopoietic stem cells. Intramuscular, and more importantly, intravenous injection of mc13 cells result in muscle regeneration and partial restoration of dystrophin in mdx mice. Transplantation of mc13 cells engineered to secrete osteogenic protein differentiate in osteogenic lineage and accelerate healing of a skull defect in SCID mice. Taken together, these results suggest the isolation of a population of muscle-derived stem cells capable of improving both muscle regeneration and bone healing.
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PMID:Clonal isolation of muscle-derived cells capable of enhancing muscle regeneration and bone healing. 1097 97

Stem cells responsible for tissue maintenance and repair are found in a number of organs. However, hepatic stem cells assumed to play a key role in liver development and regeneration remain to be well characterized. To address this issue, we set up a culture system in which primitive hepatic progenitor cells formed colonies. By combining this culture system with fluorescence-activated cell sorting (FACS), cells forming colonies containing distinct hepatocytes and cholangiocytes were identified in the fetal mouse liver. These cells express both CD49f and CD29 (alpha6 and beta1 integrin subunits), but do not mark for hematopoietic antigens such as CD45, TER119, and c-Kit. When transplanted into the spleen, these cells migrated to the recipient liver and differentiated into liver parenchymal cells. Our data demonstrate that hepatic progenitor cells are enriched by FACS and suggest approaches to supplanting organ allografting and improving artificial-organ hepatic support.
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PMID:Flow-cytometric separation and enrichment of hepatic progenitor cells in the developing mouse liver. 1109 48

Previous studies indicated that multipotent progenitors exist in early fetuses that do not contain long-term reconstituting (LTR) activity. However, it remained unclear whether these multipotent progenitors are committed to the hemopoietic lineage or are immature mesodermal cells or hemangioblasts. In this study, we have succeeded in enriching the multipotent progenitors that are capable of generating myeloid, T, and B cells in the LFA-1(-) subpopulation of TER-119(-)c-kit(+)CD45(+) cells from the aorta-gonad-mesonephros (AGM) region of day 10 fetuses. We found that these day 10 AGM LFA-1(-) cells do not show the LTR activity, whereas day 11 AGM LFA-1(-) cells do have such an activity. These results strongly suggest that multipotent progenitors lacking LTR activity emerge as CD45(+) hemopoietic progenitor cells in the AGM region on the 10th day of gestation, and such p-Multi mature into hemopoietic stem cells by acquiring LTR activity.
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PMID:Immature multipotent hemopoietic progenitors lacking long-term bone marrow-reconstituting activity in the aorta-gonad-mesonephros region of murine day 10 fetuses. 1120 84

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