Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

Stimulation of CD34(+)-enriched marrow or light density marrow with various growth factor combinations can generate granulocyte progenitors and mature neutrophils in vitro. In this work, we have examined the influence of irradiated marrow stromal layers on growth factor-induced myeloid and early multipotential progenitor expansion from enriched marrow CD34+ progenitors. We have also explored whether the addition of early-acting growth factors known to enhance myelopoiesis in long-term culture, such as fibroblast growth factor (b-FGF), insulin growth factor (IGF-1), c-kit ligand or stem cell factor (SCF), and flk-2flt-3 ligand (FL), can lengthen survival of CD34+ progenitors in these cultures. Stromal cell coculture resulted in greater numbers of total cells and CFU-GM at day 7 and day 14, but with the addition of multiple growth factors, these effects of stromal cell coculture were diminished. At day 14, generally < 1% of the expanded cells over stromal coculture conditions were CD34+, with up to 90% demonstrating CD15 positivity. Culture of CD34+ cells in the presence of early-acting growth factors did not cause significant expansion of CD34+ cells over a 14-day life span, even in the presence of marrow stromal cells. These data suggest that although stromal cell coculture for a period up to 14 days can enhance expansion of total cell numbers and CFU-GMs, stromal cell presence does not lead to expansion of CD34+ cells in these cultures and may diminish the number of clonogenic cells present when growth factors with differentiating capacity are present. Mature neutrophils harvested from such cultures are capable of chemotaxis, actin polymerization, and migration, suggesting a replete functional status.
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PMID:Effect of stromal cell coculture on progenitor cell expansion and myeloid effector function in vitro. 959 70

Stem cell factor (SCF) and erythropoietin (Epo) effectively support erythroid cell development in vivo and in vitro. We have studied here an SCF/Epo-dependent erythroid progenitor cell from cord blood that can be efficiently amplified in liquid culture to large cell numbers in the presence of SCF, Epo, insulin-like growth factor-1 (IGF-1), dexamethasone, and estrogen. Additionally, by changing the culture conditions and by administration of Epo plus insulin, such progenitor cells effectively undergo terminal differentiation in culture and thereby faithfully recapitulate erythroid cell differentiation in vitro. This SCF/Epo-dependent erythroid progenitor is also present in CD34(+) peripheral blood stem cells and human bone marrow and can be isolated, amplified, and differentiated in vitro under the same conditions. Thus, highly homogenous populations of SCF/Epo-dependent erythroid progenitors can be obtained in large cell numbers that are most suitable for further biochemical and molecular studies. We demonstrate that such cells express the recently identified adapter protein p62(dok) that is involved in signaling downstream of the c-kit/SCF receptor. Additionally, cells express the cyclin-dependent kinase (CDK) inhibitors p21(cip1) and p27(kip1) that are highly induced when cells differentiate. Thus, the in vitro system described allows the study of molecules and signaling pathways involved in proliferation or differentiation of human erythroid cells.
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PMID:Growth and differentiation of human stem cell factor/erythropoietin-dependent erythroid progenitor cells in vitro. 980 59

Receptor and non-receptor tyrosine kinases constitute a large family of proteins that play a pivotal role in hematopoiesis. Here we conducted a comprehensive survey of tyrosine kinase gene expression in primary erythroid progenitor cells from bone marrow by employing a PCR-based strategy that targets the conserved kinase encoding region. We demonstrate that erythroid progenitor cells express several receptor and non-receptor tyrosine kinases, like c-kit, Jak1, Ryk, FAK, Syk, Arg, Csk and members of the insulin receptor family. Specific changes in the expression profile of tyrosine kinases were observed following differentiation induction. We also report on the identification of a new ligand dependent modulator of erythropoiesis, fibroblast growth factor receptor-4 (FGFR-4). FGFR-4 is effectively expressed in erythroid progenitors and downregulated when cells differentiate. Furthermore, the FGFR-4 ligand, basic fibroblast growth factor (bFGF), enhanced erythroid cell proliferation induced by SCF or insulin, and thus modulated both erythroid proliferation and differentiation in vitro.
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PMID:The fibroblast growth factor receptor FGFR-4 acts as a ligand dependent modulator of erythroid cell proliferation. 1055 77

Grb10 is a member of the Grb7 family of adapter proteins lacking intrinsic enzymatic function and encodes functional domains including a pleckstrin homology (PH) domain and an SH2 domain. The role of different Grb10 splice variants in signal transduction of growth factors like insulin or insulin-like growth factor has been described as inhibitory or stimulatory depending on the presence of a functional PH and/or SH2 domain. Performing a yeast two-hybrid screen with the c-kit cytoplasmic tail fused to LexA as a bait and a mouse embryo cDNA library as prey, we found that the Grb10 SH2 domain interacted with the c-kit receptor tyrosine kinase. In the course of SCF-mediated activation of c-kit, Grb10 is recruited to the c-kit receptor in an SH2 domain- and phosphotyrosine-dependent but PH domain-independent manner. We found that Akt and Grb10 form a constitutive complex, suggesting a role for Grb10 in the translocation of Akt to the cell membrane. Indeed, coexpression studies revealed that Grb10 and c-kit activate Akt in a synergistic manner. This dose-dependent effect of Grb10 is wortmannin sensitive and was also seen at a lower level in cells in which c-kit was not expressed. Expression of a Grb10 mutant lacking the SH2 domain as well as a mutant lacking the PH domain did not influence Akt activity. Grb10-induced Akt activation was observed without increased phosphatidylinositol 3-kinase (PI3-kinase) activity, suggesting that Grb10 is a positive regulator of Akt downstream of PI3-kinase. Significantly, deficient activation of Akt by a constitutively activated c-kit mutant lacking the binding site for PI3-kinase (c-kitD814V/Y719F) could be fully compensated by overexpression of Grb10. In Ba/F3 cells, the incapacity of c-kitD814V/Y719F to induce interleukin-3 (IL-3)-independent growth could be rescued by overexpression of Grb10. In contrast, expression of the SH2 deletion mutant of Grb10 together with c-kitD814V/Y719F did not render Ba/F3 cells independent of IL-3. In summary, we provide evidence that Grb10 is part of the c-kit signaling pathway and that the expression level of Grb10 critically influences Akt activity. We propose a model in which Grb10 acts as a coactivator for Akt by virtue of its ability to form a complex with Akt and its SH2 domain-dependent translocation to the cell membrane.
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PMID:Role for the adaptor protein Grb10 in the activation of Akt. 1180 91

We show that transplantation of adult bone marrow-derived cells expressing c-kit reduces hyperglycemia in mice with streptozotocin-induced pancreatic damage. Although quantitative analysis of the pancreas revealed a low frequency of donor insulin-positive cells, these cells were not present at the onset of blood glucose reduction. Instead, the majority of transplanted cells were localized to ductal and islet structures, and their presence was accompanied by a proliferation of recipient pancreatic cells that resulted in insulin production. The capacity of transplanted bone marrow-derived stem cells to initiate endogenous pancreatic tissue regeneration represents a previously unrecognized means by which these cells can contribute to the restoration of organ function.
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PMID:Bone marrow-derived stem cells initiate pancreatic regeneration. 1283 93

Feeding a low-protein (LP) diet to pregnant and lactating rats impairs pancreatic islet mass and insulin release in the offspring, leading to glucose intolerance as adults. We hypothesized that an LP diet changes the number of pancreatic endocrine precursor cells or cells supporting endocrine cell neogenesis. Pregnant rats were given LP (8% protein) or a control (20% protein) diet from conception until postnatal d 21. Cells containing nestin, CD34, or c-Kit were quantified in pancreata of the offspring. Stellate cells immunoreactive for nestin were seen to be adjacent to ductal epithelium and were resident within the islets. These were proliferative and immunonegative for cytokeratin 20, fibronectin, tyrosine hydroxylase, pancreatic duodenal homeobox 1, Nk homeodomain transcription factor 6.1, or insulin, but expressed vimentin. Approximately 20% of islet nestin-positive cells also expressed the endothelial cell marker platelet endothelial cell adhesion molecule-1. Both ducts and islets also contained CD34- and c-Kit-positive cells with similar morphology to those expressing nestin. Offspring from rats fed the LP diet had significantly less nestin/CD34-positive cells and reduced expression of nestin mRNA. Within islets, there was an associated decrease in cell proliferation and in cells immunopositive for pancreatic duodenal homeobox 1. Nestin-positive cell number within islets correlated positively with the percent area of beta-cells. Supplementation of pregnant and lactating rats with taurine reversed the deficits in mean islet area and nestin-positive cells caused by the LP diet within the islets of the offspring. Nutritional programming of postnatal beta-cell mass may involve an altered abundance of cells expressing nestin and/or CD34, which may limit endocrine cell development.
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PMID:Low-protein diet during early life causes a reduction in the frequency of cells immunopositive for nestin and CD34 in both pancreatic ducts and islets in the rat. 1504 74

The limitation of available islets for transplantation is a major obstacle for the treatment of diabetes through islet therapy. However, islet monolayers expanded ex vivo may provide a source of progenitor cells and a model to help understand islet development from precursor cell types. The existence of progenitor cells within the islets is highly likely, yet, to date, no fully defined or characterized postnatal stem cell has been isolated, expanded or marked. Our study evaluates the expression of progenitor markers, including the haematopoietic stem cell marker c-Kit, in epithelial monolayers derived from postnatal rat islets through immunofluorescence and RT-PCR, and the ability of precursor-rich monolayers to reform islet-like structures. Islets formed confluent monolayers when cultured on a type I collagen gel which lacked endocrine phenotypes but were positive for cytokeratin 20 and contained an increased proportion of proliferating c-Kit-expressing cells, with the proportion reaching a maximum of 45+/-6% at 8 weeks of culture. Evaluation of transcription factors at the mRNA level revealed constant PDX-1, ngn3 and Pax4 expression, while undifferentiated cell markers, such as Oct4 and alpha-fetoprotein, were also detected frequently after 4 weeks of culture. Changing the extracellular matrix protein to laminin-rich Matrigel, the monolayers re-formed islet-like clusters that secreted insulin in a glucose-responsive fashion. Our data show that islets can be expanded ex vivo to form epithelial monolayers with rich undifferentiating cell populations that are characterized by cells expressing the progenitor markers. These monolayers are capable of extensive proliferation and retain plasticity to form new islet cells, and c-Kit-expressing cells may play an important role in new islet cluster formation.
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PMID:Phenotypic analysis of c-Kit expression in epithelial monolayers derived from postnatal rat pancreatic islets. 1522 36

A study was conducted to form a unified hypothesis regarding the gonadotropin-related mechanisms that underlie alterations in the male reproductive system in individuals with diabetes. Streptozotocin-induced diabetes resulted in reduced fertility, prolificacy, and libido. Testes showed a marked decrease in the number and function of Leydig cells, the latter manifested as changes in the expression of biochemical markers, including the GLUT-3 hexose transporter, c-kit, insulin-like growth factor I (IGF-I), androgen receptors, and overall tyrosine phosphorylation, as assessed by Western blot and immunocytochemical analyses. The expression of c-kit, IGF-I, insulin, and follicle-stimulating hormone (FSH) receptors in the seminiferous tubules was also affected. Serum levels of luteinizing hormone (LH), FSH, and testosterone significantly decreased. There was a significant (P <.05) correlation between the serum levels of insulin and FSH. No significant correlation was found between the serum levels of insulin or glucose and LH. On the basis of our results, we conclude that, in insulin-dependent diabetes, 1) Leydig cell function and testosterone production decrease because of the absence of the stimulatory effect of insulin on these cells and an insulin-dependent decrease in FSH, which, in turn, reduces LH levels; and 2) sperm output and fertility are reduced because of a decrease in FSH caused by a reduction in insulin.
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PMID:Insulin-dependent diabetes affects testicular function by FSH- and LH-linked mechanisms. 1529

Lung cancer is a deadly disease with high mortality and morbidity. Most cases of lung cancer are due to non-small cell carcinoma, with 16% of cases being small cell carcinoma. The biology at a cellular level is of interest at many levels. Knowing cellular pathways helps to further enhance our knowledge of how lung cancer cells survive, proliferate, and metastasize. The receptor tyrosine kinases (RTKs) located at the cellular membrane are becoming of great interest as sites for targeted therapies for lung cancers. This review will discuss the RTKs that are involved in lung cancers and the newer therapies that are being tested. We will specifically discuss receptors such as epidermal growth factor receptor, c-Kit receptor, VEGF receptor, c-Met receptor, insulin growth factor receptor, and Eph receptor. The inhibitors against the specific RTKs are in various preclinical and clinical trials, and this will be detailed.
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PMID:Receptor tyrosine kinases and inhibitors in lung cancer. 1534 2

A germ-Sertoli cell coculture model was established to study effects of follicle-stimulating hormone (FSH) and testosterone (T) on testicular germ cell proliferation of the embryonic chickens. Germ and somatic cells were dispersed from 18-day-old embryonic testes and cultured in 96-well plates. Germ cells were characterized by expression of stem cell factor receptor c-kit. Germ cell proliferation was assessed by an increase in cell number and expression of proliferating cell nuclear antigen (PCNA). Results showed that the germ and Sertoli cells kept alive in serum-free McCoy's 5A medium supplemented with insulin, transferrin, and selenite (ITS medium). Germ cells adhered to the free surface of Sertoli cells that spread the filopodia and formed a monolayer in ITS medium. In the serum-containing medium, Sertoli cells displayed an increment with a flat squamous form and only a few very large germ cell masses were found in the free surface of Sertoli cells. Many germ cells showed apoptosis in the McCoy's 5A medium without ITS or serum. Only germ cells showed positive staining for c-kit in the coculture. Ovine FSH (0.25-1.0 IU/ml) significantly increased the number of germ cells, and PCNA-labeling index (P < 0.05). FSH also induced stronger c-kit expression compared with the control. In the FSH-treated groups, germ cells were manifested distinct knob-like form. Similar stimulating effect was found in the germ cell number by T treatments (10(-7)-10(-6)M). Furthermore, FSH (0.5 IU/ml) combined with T significantly promoted higher testicular germ cell proliferation (P < 0.05) compared with either FSH or T alone, which indicated that interaction of FSH and T might be additive. The above results showed that the serum-free germ-Sertoli cell coculture model allowed evaluating hormonal regulation of testicular germ cell proliferation. FSH and T promoted testicular germ cell proliferation probably through indirect effects on Sertoli cells.
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PMID:Effects of follicle-stimulating hormone and androgen on proliferation of cultured testicular germ cells of embryonic chickens. 1536 6


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