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)

Although a number of growth factors and their receptors are involved in the proliferation and differentiation of primordial germ cells (PGCs), the only factor that has been shown to be active in vivo is Steel factor, a ligand for c-Kit. To identify new growth factor receptors that may be required for PGCs function in vivo, we used an reverse transcription-polymerase chain reaction-based strategy to screen for protein kinase genes expressed in PGC-derived embryonic germ cells. We report here that one such gene encoding the receptor tyrosine kinase, Sky, is expressed in both PGCs and their supporting cells in male genital ridges after 11.5 dpc. Interestingly, Sky expression was not detected in female genital ridges, although transcripts were detected in supporting cells in the developing ovary at later stages. Gas 6, a ligand for Sky, was also expressed in interstitial cells which surround Sky positive cells in genital ridges, and, in addition, it supported PGC growth or survival in culture. After birth, Sky expression in testis was restricted to Sertoli cells, and Gas 6 was detected around peritubular cells and Leydig cells. These results suggest that Gas 6-Sky signaling plays a role in PGC growth, sexual differentiation, and Sertoli cell functions in vivo. Sky expression in Sertoli cells diminished by 3 weeks of age, when haploid germ cells first appear. On the other hand, the expression in Sertoli cells was markedly upregulated in the testis of germ cell-deficient W/Wv and jsd/jsd mice. The results suggest that signals from differentiated germ cells suppress Sky gene expression in Sertoli cells. High-resolution chromosomal mapping of Sky is also reported.
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PMID:A receptor tyrosine kinase, Sky, and its ligand Gas 6 are expressed in gonads and support primordial germ cell growth or survival in culture. 895 22

Activating mutations in the Kit receptor tyrosine kinase have been identified in both rodent and human mast cell leukemia. One activating Kit mutation substitutes a valine for aspartic acid at codon 816 (D816V) and is frequently observed in human mastocytosis. Mutation at the equivalent position in the murine c-kit gene, involving a substitution of tyrosine for aspartic acid (D814Y), has been described in the mouse mastocytoma cell line P815. We have investigated the mechanism of oncogenic activation by this mutation. Expression of this mutant Kit receptor tyrosine kinase in a mast cell line led to the selective tyrosine phosphorylation of a 130-kDa protein and the degradation, through the ubiquitin-dependent proteolytic pathway, of a 65-kDa phosphoprotein. The 65-kDa protein was identified as the src homology domain 2 (SH2)-containing protein tyrosine phosphatase SHP-1, a negative regulator of signaling by Kit and other hematopoietic receptors, and the protein product of the murine motheaten locus. This mutation also altered the sites of receptor autophosphorylation and peptide substrate selectivity. Thus, this mutation activates the oncogenic potential of Kit by a novel mechanism involving an alteration in Kit substrate recognition and the degradation of SHP-1, an attenuator of the Kit signaling pathway.
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PMID:Oncogenic mutation in the Kit receptor tyrosine kinase alters substrate specificity and induces degradation of the protein tyrosine phosphatase SHP-1. 896 11

We have characterized the adhesion molecule HEMCAM, which is expressed by hemopoietic progenitors of embryonic bone marrow. HEMCAM belongs to the immunoglobulin superfamily and consists of the V-V-C2-C2-C2 Ig domains. There are three mRNA splice variants. One has a short cytoplasmic tail; another has a long tail; while the third seems to lack transmembrane and cytoplasmic regions. Except for the NH2-terminal sequence, HEMCAM is identical to gicerin, a molecular involved in neurite outgrowth and Wilm's kidney tumor progression in the chicken and it is significantly homologous with MUC18 a molecule involved in melanoma progression and metastasis in human beings. In the bone marrow the HEMCAM+ cell population contains c-kit+ subsets. HEMCAM+ cells coexpressing the receptor tyrosine kinase c-kit give rise to T cells at a frequency of 0.17 when injected intrathymically in congenic animals. As HEMCAM+, c-kit+ cells differentiate into myeloid and erythroid CFU's the double-positive cell population seems to contain precursors for multiple lineages. HEMCAM promotes cell-cell adhesion of transfected cells. Cross-linking of murine HEMCAM leads to cell spreading of T-lymphocyte progenitors adhering to the vascular adhesion molecules, PECAM-1 and VCAM-1. Thus, HEMCAM is likely to be involved in cellular adhesion and homing processes.
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PMID:HEMCAM, an adhesion molecule expressed by c-kit+ hemopoietic progenitors. 897 30

Chronic injection of an anti-c-KIT receptor tyrosine kinase monoclonal antibody (ACK2) results in the disruption of the normal motility patterns of young BALB/c mice intestine. This effect is accompanied by a drastic decrease in the number of intestinal c-kit-expressing (c-kit+) cells when studied immunohistochemically with the fluorescence-labelled antibody. In order to clarify the mechanism underlying the ACK2 action and the physiological roles of intestinal c-kit+ cells, we studied the excitability of intestinal c-kit+ cells in primary culture by use of the nystatin perforated-patch-clamp technique. Under voltage-clamp at -40 mV, the majority of c-kit+ cells tested (59/70) elicited rhythmic current waves with an amplitude and frequency of 263 +/- 24 pA and 2.30 +/- 0.25 cycles/min (mean +/- SEM), respectively. Intracellular perfusion of the c-kit+ cells with ethylenebis (okonitrilo) tetraacetate (EGTA) as well as a nominally Ca(2+)-free external solution or low holding voltage (< -60 mV) prevented the rhythmic current. The reversal potential of the rhythmic current was close to the equilibrium potential for Cl-(ECl). Moreover the rhythmic current was depressed by a Cl- channel blocker, 4-acetoamido-4-isothiocyanat-ostilbene-2,2'-disulphoni c acid (SITS). The smooth muscle cells freshly dissociated from the same intestinal specimen revealed a Ca(2+)-activated K+ current, as has been described in a variety of smooth muscle cells. Cultured smooth muscle cells from the ileum preparation lacked neither the Ca(2+)-activated K+ nor rhythmic Cl- currents. Smooth muscle cells freshly dissociated from the same ileum preparation and those in culture showed no immunoreactivity with the labelled ACK2, which was consistent with our previous in situ study. Results provided direct evidence that the intestinal c-kit+ cells, but not the smooth muscle cells, possess a rhythmic Cl- current oscillation, suggesting their participation in pacemaker activity for the peristaltic gut movement.
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PMID:Rhythmic Cl- current and physiological roles of the intestinal c-kit-positive cells. 902 76

During development and in regenerating tissues such as the bone marrow, progenitor cells constantly need to make decisions between proliferation and differentiation. We have used a model system, normal erythroid progenitors of the chicken, to determine the molecular players involved in making this decision. The molecules identified comprised receptor tyrosine kinases (c-Kit and c-ErbB) and members of the nuclear hormone receptor superfamily (thyroid hormone receptor and estrogen receptor). Here we identify the glucocorticoid receptor (GR) as a key regulator of erythroid progenitor self-renewal (i.e. continuous proliferation in the absence of differentiation). In media lacking a GR ligand or containing a GR antagonist, erythroid progenitors failed to self-renew, even if c-Kit, c-ErbB and the estrogen receptor were activated simultaneously. To induce self-renewal, the GR required the continuous presence of an activated receptor tyrosine kinase and had to cooperate with the estrogen receptor for full activity. Mutant analysis showed that DNA binding and a functional AF-2 transactivation domain are required for proliferation stimulation and differentiation arrest. c-myb was identified as a potential target gene of the GR in erythroblasts. It could be demonstrated that delta c-Myb, an activated c-Myb protein, can functionally replace the GR.
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PMID:The glucocorticoid receptor is a key regulator of the decision between self-renewal and differentiation in erythroid progenitors. 902 48

Growth factors have been implicated in thymocyte development, but mutants lacking cytokines, or their receptors, have failed to reveal essential roles for growth/differentiation factors in the thymus. Mutations in the receptor tyrosine kinase c-kit and the common cytokine receptor gamma chain (gamma c) reduce cellularity, but are permissive for thymocyte development. We now report that thymocyte development is completely abrogated in mice lacking both c-kit and gamma c (c-kit-gamma c-). Thymic hypocellularity is so severe that the T cell receptor repertoire fails to form except for monoclonal or oligoclonal beta chain DJ rearrangements. B lymphopoiesis is only mildly reduced in c-kit-gamma c- as compared with c-kit+gamma c- mice, and hematological values are identical comparing c-kit-deficient and c-kit-gamma c- mice. These experiments reveal essential, overlapping, and synergistic functions for two distinct signaling pathways, one utilizing c-kit and the other cytokine receptor gamma c complexes coupling to Janus kinases and signal transducers and activators of transcription.
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PMID:Pro-thymocyte expansion by c-kit and the common cytokine receptor gamma chain is essential for repertoire formation. 907 27

HIV-1 infection of the central nervous system (CNS) frequently causes dementia and other neurological disorders. The mechanisms of CNS injury in HIV-1 infection are poorly understood. Apoptosis of neurons and astrocytes is induced by HIV-1 infection in vitro and in brain tissue from AIDS patients, but the apoptotic stimuli have not been identified. We report herein that HIV-1 infection of primary brain cultures induces the receptor tyrosine kinase protooncogene c-kit and that high levels of c-Kit expression are associated with astrocyte apoptosis. Overexpression of c-Kit in an astrocyte-derived cell line in the absence of HIV-1 induces rapid apoptotic death. The apoptotic mechanism requires the c-Kit tyrosine kinase domain. The mechanism of c-kit induction by HIV-1 involves transactivation of the c-kit promoter by the HIV-1 Nef protein. These studies demonstrate that c-Kit can induce astrocyte apoptosis and suggest that this mechanism may play a role in CNS injury caused by HIV-1 infection. We propose that c-Kit can serve dual functions as a growth factor receptor or apoptosis inducer.
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PMID:Astrocyte apoptosis induced by HIV-1 transactivation of the c-kit protooncogene. 910 86

The c-kit gene is allelic with the dominant spotting (W) locus on mouse chromosome 5 and encodes a receptor tyrosine kinase. The ligand for c-kit receptor is stem cell factor (SCF), which is the principal growth factor for mast cells. The loss-of-function mutations of c-kit receptor affect the development of mast cells, thereby resulting in a depletion of mast cells. The abundant expression of c-kit receptor is indispensable for the survival of mast cells. In addition, the gain-of-function mutations of c-kit receptor were found in several tumor mast cell lines. When these gain-of-function mutations were introduced to cells of murine interleukin (IL)-3-dependent cell lines, the expression of c-kit receptor with constitutive tyrosine kinase activity not only abrogated the IL-3 requirement of the cells, but also caused them to become tumorigenic in nude athymic mice. The gain-of-function mutations of c-kit receptor appear to result in the malignant transformation of mast cells. Taken together, the signals from the c-kit receptor are essential for the development, survival, and malignant transformation of mast cells.
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PMID:Role of c-kit receptor tyrosine kinase in the development, survival and neoplastic transformation of mast cells. 911 Mar 44

In the bone marrow, multipotent and committed hematopoietic progenitors have to closely regulate their balance between sustained proliferation without differentiation (self renewal) and entering a terminal differentiation pathway. A useful model to analyze this regulation at the molecular level is committed avian erythroid progenitors. These are induced to undergo long-term self renewal by the ligand-activated receptor tyrosine kinase (RTK) c-ErbB, in cooperation with steroid hormone receptors. This self-renewal induction by c-ErbB even occurs in the presence of differentiation factors (erythropoietin and insulin). Under the same conditions, the RTK c-Kit is unable to sustain erythroid progenitor self renewal, stimulating cell proliferation without arresting terminal differentiation. Two mechanisms are involved in these differential activities of c-Kit and c-ErbB. The first one, differential regulation of receptor expression, proved to be of minor importance, because c-Kit was unable to induce self renewal, even if exogenously expressed from a retrovirus at high levels. Rather our results support the second mechanism, i.e., that receptor-specific signal transduction is responsible for the differential biological activity of c-Kit and c-ErbB: (a) specific tyrosine kinase inhibitors (tryphostins) were found which selectively inhibited the biological function of either c-Kit or c-ErbB in erythroblasts but did not affect ligand-induced autophosphorylation of either RTK; and (b) c-ErbB selectively induced SHC phosphorylation and STAT5 activation. The Ras pathway was similarly activated by c-Kit and c-ErbB. The c-ErbB-specific tyrphostin AG30 specifically blocked STAT5 activation, implicating this signal transducer in c-ErbB-induced self renewal.
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PMID:Distinct roles of the receptor tyrosine kinases c-ErbB and c-Kit in regulating the balance between erythroid cell proliferation and differentiation. 914

Mastocytosis are a group of diseases characterized by abnormal proliferation of mast cells. Various forms are observed in respect to the organ system involving, clinical manifestations, and association with hematological disorders. The c-kit proto-oncogene encodes for a receptor tyrosine kinase, which plays a crucial role in hematopoiesis, especially in mast cell growth and differentiation. Mutations in the tyrosine kinase domain of c-kit have been reported in murine and human malignant cell lines, and more recently in some cases of human mast cell diseases. The biochemical and clinical aspects of these mutations are reviewed with special emphasis on the experiments which demonstrate their role in oncogenesis and mast cell proliferation.
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PMID:C-kit mutations and mast cell disorders. A model of activating mutations of growth factor receptors. 916 10


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