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)

In the short time since its cloning, much has been learned of the in vitro properties of thrombopoietin (TPO). In addition to effects on the differentiation of megakaryocytes, TPO has also been shown to stimulate the proliferation of megakaryocytic progenitor cells, colony-forming units-megakaryocytes (CFU-MK), to act in synergy with interleukin 3 or c-kit ligand and erythropoietin (Epo) to stimulate the development of early and the generation of late erythroid progenitor cells, and to affect the rate of entry into the cell cycle and proliferative capacity of hematopoietic stem cells. An important question posed by these observations, for both TPO and for hematopoietic research in general, is whether the in vitro effects of a cytokine are mirrored by its preclinical and clinical biology. The results of recent studies in mice and nonhuman primates will be presented which have attempted to address this issue. In normal animals, TPO increases the numbers of marrow and spleen CFU-granulocyte/erythroid/macrophage/megakaryocyte, CFU-MK, CFU-GM and BFU-E, but its effects in the peripheral blood are limited to marked increases in the platelet count. The reason for widespread progenitor cell effects, yet stable leukocyte and erythrocyte blood counts, is likely the predominant regulatory effects of G-CSF and Epo; in the absence of elevated levels of the lineage-dominant regulator of each of these cell types, expanded progenitor cell numbers are not translated into increased peripheral blood counts. However, in states of increased blood cell demand such as follows myelosuppressive therapy, elevated levels of Epo and G-CSF allow the effects of TPO on erythropoiesis and myelopoiesis to become manifest. The administration of TPO to myelosuppressed animals is associated with not only greatly expanded hematopoietic progenitor cell recovery, but also improvement in platelet, red cell and leukocyte nadir levels and greatly accelerated recovery of all three cell lineages. These results indicate that the panhematopoietic properties of TPO identified by in vitro culture techniques correlate well with its effects in animals. The results of ongoing clinical trials should soon establish whether these conclusions can be extended to patient care.
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PMID:Do the preclinical effects of thrombopoietin correlate with its in vitro properties? 1101 9

Autologous stem cell transplantation using unprocessed, G-CSF-mobilized whole blood (WB) is a simple, cost-reducing procedure and supports high-dose chemotherapy regimens not exceeding 72 h. Thereafter, clonogenic capacity rapidly decreases if routine anticoagulants are used for storage. In order to increase clinical applicability, we investigated the requirements for optimal preservation of unprocessed WB for 7 days. During storage at 22 degrees C in CPDA-1, a decrease in pH was noted, which was at least partially responsible for the low recovery of clonogenic cells. Subsequently, WB cells were stored in various cell culture media (RPMI 1640, alpha-MEM, X-VIVO15, CellGro SCGM and Leibovitz's L15 medium) containing either serum, serum-free substitutes or no additives. Leibovitz's L15 showed significantly better CFU-GM recoveries than the other media. Using a calcium-free modification of L15 medium (added 3:10 to WB), 94 +/- 24% of CD34(+) cells, 41 +/- 14% of BFU-E, 56 +/- 17% CFU-GM and 90 +/- 14% of LTC-IC were preserved during storage for 7 days at 22 degrees C. Storage at 4 degrees C was also feasible, but showed less optimal recoveries of 52 +/- 29% (CD34), 32 +/- 10% (BFU-E), 13 +/- 7% (CFU-GM) and 58 +/- 9% (LTC-IC). The expression of CD38, Thy-1, c-kit, AC133, L-selectin and CXCR4 on CD34-positive cells remained unchanged. In conclusion, a modified Leibovitz's L15 medium better meets the metabolic requirements of a high-density cell culture and allows safe storage of G-CSF mobilized WB for at least 7 days. The results encourage further exploration of WB transplants stored for 7 days for clinical use.
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PMID:Storage of unprocessed G-CSF-mobilized whole blood in a modified Leibovitz's L15 medium preserves clonogenic capacity for at least 7 days. 1150 32

To optimize conditions for ex vivo expansion of adult hematopoietic stem cells, we evaluated the co-culture of G-CSF mobilized human peripheral blood (PB) CD34(+) cells with endothelial cells engineered to overexpress various hematopoietic growth factors. Immortalized human bone marrow endothelial cells (BMEC) transfected with an expression vector carrying cDNA encoding the human telomerase reverse transcriptase (hTERT) and human umbilical vein endothelial cells (HUVEC) were transfected with combinations of adenovectors expressing murine c-kit ligand (KL), human thrombopoietin (TPO), human Flt3 ligand (FL), and human granulocyte-macrophage colony-stimulating factor (GM-CSF). Ex vivo expansion of PB CD34(+) cells from normal donors and non-Hodgkin lymphoma (NHL) patients in endothelial co-culture was evaluated weekly for total cell production, progenitor (CFU-GM, BFU-E) cell production, and stem cell production as measured by Week-5 Cobblestone Area Forming Cell assay (Wk-5 CAFC). HUVEC transfected with adenovectors expressing TPO, KL, and FL provided the best co-culture system for expanding CD34(+) cells. Maximal total nuclear cell, CFU-GM, and Wk-5 CAFC production occurred between weeks 2 and 3 with 113-fold, 25-fold, and 2.2-5.5-fold expansions, respectively. We did not detect significant differences when GM-CSF was added to the co-culture system. Expansion was also obtained using recombinant human cytokines, but was not maintained beyond 3 weeks. We demonstrated that continuous generation of high levels of TPO, FL, and KL as well as other factors secreted by endothelium provided a clinically relevant co-culture method for ex vivo expansion of stem and progenitor cells from cryopreserved CD34(+) populations.
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PMID:Ex vivo expansion of stem and progenitor cells in co-culture of mobilized peripheral blood CD34+ cells on human endothelium transfected with adenovectors expressing thrombopoietin, c-kit ligand, and Flt-3 ligand. 1184 9

Chronic myeloid leukaemia (CML), a hematopoietic stem cell disorder is characterized by the expression of BCR-ABL. To investigate the effects of BCR-ABL on multipotent hematopoietic cells, a temperature sensitive BCR-ABL tyrosine kinase was expressed in the cell line, FDCP-Mix. BCR-ABL mediated an increase in c-kit expression that correlated with an enhanced mitogenic response to SCF. This was not observed in the absence of Bcr-Abl kinase activity or presence of the BCR-ABL inhibitor STI571, which also inhibits c-kit. When cultured in a combination of SCF plus G-CSF the FDCP-Mix cells undergo neutrophilic differentiation over a 7-10 day period. When BCR-ABL was active there was a marked inhibition of cell maturation compared to control cells in which BCR-ABL was either inactive or not present. However, BCR-ABL did not block differentiation as the cells eventually undergo terminal maturation. These data argue that BCR-ABL is directly responsible for the enhanced response to SCF reported in CML progenitor cells. Furthermore, although the primary effect of STI571 is via direct inhibition of BCR-ABL, STI571 additionally reduces the enhanced response to SCF. Thus there are two sites of STI571 action of potential importance in Bcr-Abl expressing cells.
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PMID:BCR-ABL alters the proliferation and differentiation response of multipotent hematopoietic cells to stem cell factor. 1208 38

We report the case of a 76-year old patient with third relapse of AML who was successfully treated with Imatinib. The decision to try Imatinib was guided by bright expression of c-kit on the patient's blasts. Treatment was well tolerated but the dose was reduced for pancytopenia and later stopped completely because of pneumonia. The patient recovered with i.v. antibiotics, antimycotics and s.c. G-CSF. Reevaluation of the bone marrow after the end of treatment demonstrated the absence of malignant blasts. Treatment with Imatinib was started again with the intention to prolong remission duration. During the following months peripheral blood counts stabilized in the normal range indicating that a fourth complete remission has been achieved in this patient. This is the first report demonstrating that Imatinib can induce complete remission in relapsed c-kit positive AML in an elderly patient. Prolonged cytopenia remains a considerable problem indicating that normal haematopoiesis is not completely independent of the signalling cascades inhibited by Imatinib. Nevertheless our report supports further study of this drug in c-kit positive AML.
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PMID:Complete remission of third recurrence of acute myeloid leukemia after treatment with imatinib (STI-571). 1291 83

Intrahepatic cholangiocarcinoma (ICC) and combined hepatocellular and cholangiocarcinoma (HC-CC) are known to arise occasionally in hepatitis-related cirrhosis, although their clinicopathological features remain unclarified. In this study, we characterized the ICC (9 cases) and ICC elements of HC-CC (11 cases) arising in nonbiliary cirrhosis. Thirty-three hepatocellular carcinomas (HCC) associated with nonbiliary cirrhosis and 24 ICC without cirrhosis were used as controls. Prominent neutrophilic infiltration was frequent in ICC with cirrhosis (78%) and ICC elements of combined HC-CC (72%). Neutrophilic infiltration-related cytokines (interleukin 8, granulocyte colony-stimulating factor [G-CSF], and granulocyte macrophage colony-stimulating factor [GM-CSF]) were expressed frequently and intensely in carcinoma cells of ICC with cirrhosis (40%, 80%, and 60%, respectively) and in ICC elements of the combined one (13%, 38%, and 63%, respectively). Interleukin 8 was expressed in 18% of ICC without cirrhosis, irrespective of neutrophilic infiltration. Neutrophilic infiltration and expression of G-CSF and GM-CSF were in parallel (P < 0.05). G-CSF and GM-CSF mRNA were detected by RT-PCR in tissue specimens expressing G-CSF and GM-CSF at the protein level. Such neutrophilic infiltration and expression of G-CSF and GM-CSF were not evident in controls. The expressions of c-kit and c-Met, as a hematopoietic and hepatic stem cell marker, were seen frequently in ICC with cirrhosis (80% and 80%, respectively) and ICC elements of the combined one (63% and 50%, respectively). The present study revealed that the frequent expression of G-CSF and GM-CSF is a characteristic of ICC with cirrhosis and ICC in combined carcinoma, probably representing a phenotype of fetal hepatic parenchymal cell. The expression of these cytokines may be causally related to prominent neutrophilic infiltration.
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PMID:Intrahepatic cholangiocarcinoma in cirrhosis presents granulocyte and granulocyte-macrophage colony-stimulating factor. 1469 21

Stromal cell-derived factor 1 (SDF-1) is a chemokine that binds to the CXCR4 receptor. Its functions include acting as a chemotactic factor for hematopoietic stem and progenitor cells. We recently reported the synthesis of a small cyclized peptide analog (31 amino acids) of the terminal regions of SDF-1 that had biological function comparable to the native molecule (67 amino acids). In the present study, we investigated the effects of SDF-1 analogs (CTCE0021 and CTCE0214) in the chemotactic migration of peripheral blood hematopoietic cells (lineage-negative and CD34(+) cells). Enhanced chemotaxis of normal and G-CSF-mobilized hematopoietic cells was observed with both SDF-1 analogs in a dose-dependent manner. The increases were statistically significant (p < or = 0.016 by one-way ANOVA) at analog concentrations of 50 to 100 microg/mL. Colony-forming progenitor cells were not affected by exposure to the analogs up to 100 microg/mL. When different doses of the SDF-1 analog CTCE0214 were administered to mice, significant increases in circulating hematopoietic cells (identified by flow cytometry as lineage(low/-), Sca-1(+), and c-kit(+)) were observed after a single injection of 75 microg per animal. The effect was apparent at 4 hours and became significant at 24 hours. These results suggest that SDF-1 analogs can be considered for mobilization of hematopoietic stem cells.
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PMID:Small peptide analogs to stromal derived factor-1 enhance chemotactic migration of human and mouse hematopoietic cells. 1514 15

Bone marrow (BM) cells are reported to contribute to the process of regeneration following myocardial infarction. The present study examined two independent clonal studies to determine the origin of bone marrow (BM)-derived cardiomyocytes. First, we transplanted single CD34(-)c-kit(+)Sca-1(+)lineage(-) side population cells (hematopoietic stem cells) from enhanced green fluorescent protein (EGFP)-transgenic mice into lethally irradiated mice, induced myocardial infarction, and treated them with G-CSF to mobilize stem cells. At 8 weeks, we could not find any EGFP(+) cardiomyocytes. In contrast, more than 5000 EGFP(+) cardiomyocytes were observed in whole BM cell-transplanted mice, suggesting that they were derived from non-hematopoietic cells. Next, clonally purified mesenchymal stem cells (MSC) that expressed EGFP in the cardiomyocyte-specific manner were transplanted directly into BM of lethally irradiated mice, and similar experiment was performed. EGFP(+) actinin(+) cells were observed in the ischemic myocardium, indicating that MSC had been mobilized and differentiated into cardiomyocytes. Together, these results suggest that the origin of the BM-derived cardiomyocytes is MSC.
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PMID:Mesenchymal, but not hematopoietic, stem cells can be mobilized and differentiate into cardiomyocytes after myocardial infarction in mice. 1622 Nov 70

To investigate the role of nitric oxide in controlling endothelial progenitor (EPC) and hematopoietic stem cell (HSC) mobilization, wild-type mice, L-NAME treated WT and eNOS-/- mice received either PBS or G-CSF for 5 days. Under unstimulated conditions bone marrow of either L-NAME treated WT and eNOS-/- mice, representing acute and chronic NO-deficiency, showed higher CD34(+)Flk-I+ EPC numbers compared to their WT littermates. Furthermore, CD34(+)Flk-I+ progenitors under NO-deficient conditions showed a higher cell turn over since the proliferation and apoptosis activity under in vivo as well as in vitro conditions were enhanced. In line with this finding bone marrow derived EPC differentiation towards endothelial cells was modulated in an NO-dependent manner. Administration of G-CSF resulted in an increase of EPC within the bone marrow of WT animals with a consecutive release of these cells into the peripheral circulation. Under NO-deficient conditions G-CSF failed to increase EPC numbers. In contrast, the HSC population c-kit(+)Lin- was not influenced by nitric oxide. Thus, NO differentially supports the mobilization of the endothelial committed progenitor subpopulation in bone marrow but does not have an effect on HSC in vivo.
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PMID:Nitric oxide differentially regulates proliferation and mobilization of endothelial progenitor cells but not of hematopoietic stem cells. 1627 Jun 28

To examine whether serum obtained from bone marrow-transplanted mice can selectively expand hematopoietic stem cells (HSCs) among whole bone marrow cells in vitro, whole bone marrow cells were cultured with or without MS-5 murine stromal cells in the presence of serum obtained from transplanted mice on day 3 (day 3 serum) or serum from normal mice for 7 days. When whole bone marrow cells and MS-5 cells were co-cultured in day 3 serum for 7 days, the c-kit-positive, Sca-1-positive, lineage marker-negative cells (KSL cells) expanded approximately 25 times; however, when they were co-cultured in normal serum for 7 days, the KSL cells expanded approximately 1.3 times. Direct contact between the whole bone marrow cells and MS-5 cells was essential for expansion of KSL cells in the co-culture, and it upregulated the expression of some cytokines in MS-5. Above all, the day 3 serum specifically upregulated the expression of SCF, SDF-1 alpha, G-CSF, IL-11 and IL-6 in MS-5. The level of testosterone in the day 3 serum was higher than normal serum and the addition of the testosterone in the culture expanded the KSL cells among whole bone marrow cells on MS-5 cells and also upregulated the expression of SDF-1 alpha, IL-11 and IL-6 in MS-5. These data indicates that the serum of bone marrow-transplanted mice contains a factor(s) that induced changes in the expression levels of various cytokines in MS-5 stromal cells and enabled the MS-5 cells to expand the KSL cells among whole bone marrow cells.
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PMID:Murine serum obtained from bone marrow-transplanted mice promotes the proliferation of hematopoietic stem cells by co-culture with MS-5 murine stromal cells. 1639 94

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