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

Human mast cells have been purified from uterine tissues, and their surface marker profile and function have been evaluated as part of ongoing studies of mast cell heterogeneity. Using a panel of antibodies, purified uterine mast cells (UMC; 81% +/- 7% purity, n = 10) were analyzed by immunofluorescence and flow cytometry for surface expression of various antigens. Consistent with previous analyses of mast cells from other tissues, UMC expressed HLA class I, IgE, c-kit receptor, CD9, CD33, CD43, CD45, and CD54, while CD11a, CD11b, CD14, CD16, CD23, and CD64 were not detected. Unlike other mast cells, UMC expressed CD11c/CD18 (p150,95) and CD32 (Fc gamma RII). Additional antigens not previously studied on mast cells included the selectin LECAM-1 (Leu-8) and several beta 1 and beta 3 integrins; expression of very late activation antigen-4 (VLA-4) (CD49d/CD29), VLA-5 (CD49e/CD29), and the vitronectin receptor (CD51/CD61) was seen. Functional studies showed that treatment of human umbilical vein endothelial cells with interleukin-1 (5 ng/mL for 4 hours) resulted in a twofold to threefold increase in adhesiveness for UMC. Purification procedures did not alter histamine release responses to anti-IgE or the calcium ionophore A23187, and treatment of UMC with an anti-CD32 monoclonal antibody (IV.3) did not induce histamine release or alter anti-IgE-induced release. These data suggest that UMC may possess unique phenotypic characteristics, and support the concept of mast cell heterogeneity.
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PMID:Immunophenotyping and functional analysis of purified human uterine mast cells. 137 Jun 42

Kit, the receptor for stem cell factor (SCF) and the product of the c-kit proto-oncogene, is expressed on fetal liver-derived mast cell progenitors when cultured with SCF. Decreased levels of Kit on the surface of human fetal liver-derived mast cells after exposure to recombinant human SCF were demonstrated by flow cytometry using the YB5.B8 mAb against Kit. Internalization of Kit along with SCF appears to be the principal means by which Kit is lost from the mast cell surface. Neither the beta 3-integrin CD51/CD61 (alpha v beta 3), nor the beta 1-integrins CD49d,e/CD29 (VLA-4 and -5) appeared to be internalized along with Kit-SCF complexes. Reappearance of Kit on day 28 fetal liver-derived mast cells is complete 3 days after exposure of the cells to SCF and is detectable by 2 days. Recovery requires new protein and new RNA synthesis, because Kit did not reappear if cycloheximide or actinomycin D was added to the cells. No substantial change in total Kit mRNA was detected during the resynthesis period, suggesting that post-transcriptional regulation of Kit production is involved. Internalization of Kit in mast cells exposed to soluble SCF may represent a negative regulatory mechanism for this receptor-ligand interaction and down-regulate mast cell properties such as degranulation to SCF.
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PMID:Internalization of Kit together with stem cell factor on human fetal liver-derived mast cells: new protein and RNA synthesis are required for reappearance of Kit. 861 71

Three-color immunofluorescence cytometry was used to quantify the expression of different adhesion molecules on CD34+ cells of steady-state bone marrow (BM) and peripheral blood stem cells (PBSC) after mobilizing with G-CSF (10 micrograms/kg/body weight) in nine cancer patients undergoing high-dose chemotherapy with subsequent autologous blood stem cell rescue. The expression rate of each adhesion molecule on CD34+ cells showed great inter-individual variations. High expression (> 50%) on CD34+ cells from PBSC and BM was found for CD58 (leukocyte function-associated antigen-3), CD31 (platelet-endothelial cell adhesion molecule-1), CD11a (leukocyte function-associated antigen-1) and CD49d (very late activation antigen-4); a moderate expression (20%-40%) was seen for CD49e (very late activation antigen-5), CD62L (leukocyte-endothelial cell adhesion molecule), CD54 (ICAM-1) and CD117 (c-kit). c-kit, CD58, CD62L and CD49d were less expressed on CD34+ cells of PBSC than of BM, the difference being statistically significant for CD49d (p < 0.05). CD49e and CD37 were expressed more in PBSC than BM without being statistically significant. The mean fluorescence intensity for all adhesion molecules on CD34+ cells did not differ significantly between PBSC and BM. The significantly lower expression of CD49d on G-CSF-mobilized PBSCs might suggest that downregulation of this molecule may be involved in the process of peripheral stem cell mobilization.
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PMID:Difference between expression of adhesion molecules on CD34+ cells from bone marrow and G-CSF-stimulated peripheral blood. 947 47

Comparative studies of the CD34+ cell population in peripheral blood (PB) and bone marrow (BM) may contribute to understanding the mechanisms involved in mobilization of hematopoietic progenitor cells (HPCs) from BM to PB. PB-CD34+ and BM-CD34+ cells in steady-state hematopoiesis and during granulocyte colony-stimulating factor (G-CSF) administration were studied for the expression of activation-associated, lineage-associated and adhesion-associated molecules and for their cloning capacity [granulocyte-macrophage colony-forming cells (CFU-GM) and burst-forming unit-erythrocytes (BFU-E)]. G-CSF increased significantly the number of CD34+ cells in PB as well as in BM and resulted in a reduction of CD34+ cells coexpressing the adhesion-related molecule CD49d. Further, G-CSF reduced the relative number of lymphoid progenitors (CD34+ cells coexpressing CD10, CD19, CD20, CD2, or CD7) in both compartments. However, G-CSF had no major impact on the observed differences between PB-CD34+ and BM-CD34+ cells seen during steady-state hematopoiesis despite a relative decrease in PB and increase in BM of certain immature progenitors (CD34+DR- cells). Circulating CD34+ cells, even in steady-state, were enriched for colony-forming cells, and individual colonies appeared larger compared with their BM counterparts. PB-CD34+ cells contained relatively more myeloid progenitors (CD34+CD13+ cells) and fewer B lymphoid progenitors (CD10, CD19, and CD20 cells) than BM-CD34+ cells. CD34+DR-cells were present in a higher proportion of the CD34+ cells in PB than in BM. There were lower numbers of CD34+ cells expressing CD49d and c-kit in PB than in BM. To summarize, the differences between PB-CD34+ and BM-CD34+ cells observed during steady-state hematopoiesis were largely conserved during G-CSF administration. G-CSF, therefore, mainly has an effect on the quantity not the composition of the circulating CD34+ cell pool. Our data also suggest that the egress of HPCs from BM during steady-state hematopoiesis, as well as during G-CSF administration, is a selective process; that is, certain subsets are more prone to enter into circulation than others, and this release may be mediated via common pathway possibly involving downregulation of c-kit and VLA-4 (CD49d).
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PMID:Efflux of CD34+ cells from bone marrow to peripheral blood is selective in steady-state hematopoiesis and during G-CSF administration. 948 91

Development of hematopoietic stem cells is regulated by stromal cells of the bone marrow. Many stromal cell lines have been established from temperature-sensitive SV40 large T-antigen gene transgenic mice and used to examine regulation of the purified stem cells. When the sorted stem cells were cocultured on the stromal cell layers, cobblestone formation was induced by the stromal cells. The cobblestones were formed by finite cell division (8 divisions on average) of sorted Lin- c-Kit+ Sca1+ stem cells committed to myeloid or lymphoid lineages. These stromal cell lines showed variable activities supporting the stem cell development. In one stromal cell line, TBR59, two waves of cobblestone formation committed to either myeloid lineage or lymphoid lineage were induced. TBR31-1, another bone marrow stromal cell line, induced only the cobblestone formation committed to lymphoid lineage. These results indicate that the bone marrow stromal cells selectively induce lineage-specific commitment of the stem cells. Both cobblestone formations require c-Kit function as well as adhesive interaction through VLA4 and VCAM1.
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PMID:Regulation of myeloid and lymphoid development of hematopoietic stem cells by bone marrow stromal cells. 963 76

Mast cells (MC) are important cellular components of the immune network in diverse organs. The skin MC has likewise been implicated in IgE- and complement-mediated cutaneous reactions. Such reactions supposedly involve specific cell surface membrane receptors. In this study, the cell surface marker profile of human skin MC was established using monoclonal antibodies (MoAb) against defined CD antigens. MC were isolated from juvenile foreskin (n = 55) and adult mammary skin (n = 5). The reactivity of MC with MoAb was assessed by a combined toluidine blue/immunofluorescence staining technique. Confirming our previous analyses on lung MC, foreskin MC reacted with MoAb against CD9, CD29, CD33, CD43, CD44, CD45, CD46, CD51, CD54, CD55, CD58, CD59, CD61, and CD117 (c-kit). Foreskin MC were also recognized by MoAb to CD47, CD48, CD49d, CD53, CD60, CD63, CD81, CD82, CD84, CD87, CD92, CD97, CD98, and CD99. Recently clustered CD antigens detectable on foreskin MC were CD147 (neurothelin), CD149 (MEM133), CD151 (PETA-3), and CD157 (BST-1). In contrast to lung MC and MC from adult skin, foreskin MC were found to express CD88 (C5aR). Also, cutaneous MC (from both juvenile foreskin and adult mammary skin), but not lung MC, were found to bind the CD32 MoAb IV.3, 2E1, and FLI8.26 (Fc gammaRII). The CD50 antigen (ICAM-3) was detectable on lung MC, but not on foreskin MC or MC of adult mammary skin. In summary, our data show that cutaneous MC and lung MC express an almost identical phenotype; however, in contrast to lung MC, cutaneous MC appear to express substantial amounts of CD32 and to lack CD50. In addition, foreskin MC, unlike MC from adult skin or lung, express CD88.
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PMID:Phenotypic characterization of human skin mast cells by combined staining with toluidine blue and CD antibodies. 976 55

We have evaluated the immunophenotype, functional activity and clonogenic potential of CD34+ cells from peripheral blood (PB) of normal donors before and after 4 and 6 days of G-CSF administration. The percentage and absolute number of CD34+ cells significantly increased at days 4 and 6 of G-CSF administration, compared to the steady-state level (P < 0.0001). Two-colour fluorescence analysis showed, at days 4 and 6, a lower proportion of CD34+/c-kit+ compared to the steady-state level (P < 0.0001), but a similar expression of CD13, CD33, CD38, HLA-DR and Thy-1 antigens on CD34+ cells. The expression of adhesion molecules on CD34+ cells revealed a significant reduction of CD11a (P = 0.009), CD18, CD49d and CD62L (P < 0.0001) at days 4 and 6, compared to the baseline level. Three-colour staining showed a reduction of the more immature compartment (34+/DR-/13-) and an increase of the more differentiated compartment (34+/DR+/13+). Downregulation of VLA-4 during mobilisation was seen almost exclusively on more committed cells (34+/13+); downregulation of CD62L, on the contrary, was observed on both early progenitors (34+/13-) and more committed cells (34+/13+). The expression of 34+/VLA-4+ decreased on both c-kit+ and c-kit- cells, while the expression of 34+/62L+ decreased on the c-kit+ cells only. In vivo administration of G-CSF reduced the adherence capacity of CD34+ cells to normal BM stroma; in vitro incubation with SCF or IL-3 enhanced the expression of CD49d on CD34+ cells, while GM-CSF reduced the expression of CD62L. SCF was the only cytokine able to induce a significant increase of CD34+ cell adherence to preformed stroma. Pre-incubation with the blocking beta2 integrin monoclonal antibody caused a reduction of CD34+ cell adherence. In conclusion, the decrease of CD49d expression on mobilized CD34+ cells correlates with a poor adhesion to BM stroma; CD34+ cells incubated in vitro with SCF showed, conversely, a higher expression of CD49d and a greater adherence capacity on normal preformed stroma.
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PMID:Modulation of VLA-4 and L-selectin expression on normal CD34+ cells during mobilization with G-CSF. 1003 43

We have previously demonstrated that PU.1 is required for the production of lymphoid and myeloid, but not of erythroid progenitors in the fetal liver. In this study, competitive reconstitution assays show that E14.5 PU.1(-/-) hematopoietic progenitors (HPC) fail to sustain definitive/adult erythropoiesis or to contribute to the lymphoid and myeloid lineages. PU.1(-/-) HPC are unable to respond synergistically to erythropoietin plus stem cell factor and have reduced expression of c-kit, which may explain the erythroid defect. Fluorescently labeled, PU.1(-/-), AA4.1(+), fetal liver HPC were transferred into irradiated recipients, where they demonstrated a severely impaired ability to home to and colonize the bone marrow. PU.1(-/-) HPC were found to lack integrins alpha(4) (VLA-4/CD49d), alpha(5) (VLA-5/CD49e), and CD11b (alpha(M)). Collectively, this study has shown that PU.1 plays an important role in controlling migration of hematopoietic progenitors to the bone marrow and the establishment of long-term multilineage hematopoiesis.
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PMID:A critical role for PU.1 in homing and long-term engraftment by hematopoietic stem cells in the bone marrow. 1043 16

The yield of CD34+ PBPC and colony-forming units-granulocyte-macrophage (CFU-GM) in leukapheresis products and the expression of the adhesion molecules CD11a, CD31, CD49d, CD49e, CD54, CD58, CD62L, c-kit (CD117), Thy-1 (CD90), CD33, CD38, and HLA-DR on CD34+ PBPC were analyzed in patients with cancer of the testis (n = 10), breast cancer (n = 10), Hodgkin's disease (n = 20), high-grade (n = 20) and low-grade (n = 20) non-Hodgkin's lymphoma, and healthy donors (n = 20) undergoing G-CSF (filgrastim)-stimulated PBPC mobilization. For each disease entity, G-CSF was administered in two different doses, 10 microg G-CSF/kg body weight (BW)/day s.c. vs. 24 microg G-CSF/kg BW s.c./day in steady-state condition. Data were compared for each dose group separately. Patients with cancer of the testis and breast cancer mobilized significantly more CD34+ cells than patients with high-grade and low-grade non-Hodgkin's lymphoma and Hodgkin's disease (p<0.05). Correspondingly, expression of CD49d on CD34+ PBPC was significantly lower in the same patients with cancer of the testis compared with high-grade and low-grade non-Hodgkin's lymphoma and Hodgkins' disease and in patients with breast cancer compared with high-grade and low-grade non-Hodgkin's lymphoma, Hodgkins's disease, and healthy donors. Similar results were obtained for CD49e. These data suggest that the expression of the adhesion molecules CD49d and CD49e on G-CSF-mobilized CD34+ cells of patients with solid tumors, non-Hodgkin's lymphoma, Hodgkin's disease, and healthy donors is inversely correlated with the amount of mobilized CD34+ cells.
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PMID:Expression of the adhesion molecules CD49d and CD49e on G-CSF-mobilized CD34+ cells of patients with solid tumors or non-Hodgkin's and Hodgkin's lymphoma and of healthy donors is inversely correlated with the amount of mobilized CD34+ cells. 1079 4

We have used the parasite helminth Trichinella spiralis to study the generation and differentiation of mast cell progenitors in the bone marrow of mice, as this infection triggers an intestinal mastocytosis which correlates with parasite expulsion. C-kit+ mast cell progenitors have previously been defined by methylcellulose colony-forming units and by limiting dilution assays in vitro. In vivo experiments have demonstrated the essential requirement by mast cells for specific integrin expression. We have defined 2 c-kit+ populations in the bone marrow, one of which coexpresses CD49d/beta7 integrin, a marker essential for small intestine immigration. We have confirmed the phenotype of these cells by using antagonistic anti-c-kit antibody in vivo. Our data show that the loss of c-kit+/beta7+ cells from the bone marrow correlates with their appearance in the blood and precedes detection of mature mast cells in the gut by 3 days. This exit correlates with an increase in soluble stem cell factor (SCF) in the serum, suggesting that the c-kit/SCF interaction may be chemotactic or haptotactic in nature. This study shows that during infection the bone marrow environment generates mast cells destined for the intestinal mucosa before their exit into the periphery, indicating a clear interplay between infection site and hematopoietic tissue.
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PMID:In vivo exit of c-kit+/CD49d(hi)/beta7+ mucosal mast cell precursors from the bone marrow following infection with the intestinal nematode Trichinella spiralis. 1460 54


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