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)

The c-kit proto-oncogene encodes a receptor tyrosine kinase and is allelic with the murine white-spoting (W) locus. Although no apparent defects in the brain have been reported in W mutant mice, brain tissue, especially cerebellum, shows a high level of c-kit transcription. In the present study, sites of c-kit expression in the cerebellum were exained by immunohistochemical and in situ hybridization techniques. Immunohistochemistry with a monoclonal antibody against c-Kit protein revealed that the c-Kit protein was localized close to the Purkinje cell soma in the region facing the granular cell layer. Similar distribution of the c-Kit protein was observed in cerebella of mutant mice in which the Purkinje cell (pcd) or the granular cell layer (weaver) is missing. These data suggest that the c-Kit protein is produced not by the Purkinje cell nor by the granular cell but by the cells present in the molecular layer and that the protein is then transported to the region around the Purkinje cell soma. This interpretation was supported by in situ hybridization analysis: cells containing the c-kit transcripts were found only in the molecular layer, while the granular and Purkinje cells were negative.
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PMID:Expression of c-kit, a proto-oncogene of the murine W locus, in cerebella of normal and neurological mutant mice: immunohistochemical and in situ hybridization analysis. 128 11

A discovery that the protooncogene encoding the receptor tyrosine kinase, c-kit, is allelic with the Dominant white spotting (W) locus establishes that c-kit plays a functional role in the development of three cell lineages, melanocyte, germ cell, and hematopoietic cell which are defective in W mutant mice. Recent analyses of c-kit expression in various tissues of mouse, however, have demonstrated that c-kit is expressed in more diverse tissues which are phenotypically normal in W mutant mice. Thus, whether or not c-kit expressed outside the three known cell lineages plays a functional role is one of the important questions needing answering in order to fully elucidate the role of c-kit in the development of the mouse. Here, we report that some of the cells in smooth muscle layers of developing intestine express c-kit. Blockade of its function for a few days postnatally by an antagonistic anti-c-kit monoclonal antibody (mAb) results in a severe anomaly of gut movement, which in BALB/c mice produces a lethal paralytic ileus. Physiological analysis indicates that the mechanisms required for the autonomic pacing of contraction in an isolated gut segment are defective in the anti-c-kit mAb-treated mice, W/Wv mice and even W/+ mice. These findings suggest that c-kit plays a crucial role in the development of a component of the pacemaker system that is required for the generation of autonomic gut motility.
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PMID:Requirement of c-kit for development of intestinal pacemaker system. 128 35

The proto-oncogene c-kit encodes a receptor tyrosine kinase which has been shown to play a key role in melanocyte development. In this report we asked whether the c-kit gene product is also involved in promoting the growth of transformed melanocytes. We found that, while c-Kit protein was readily observed in normal human neonatal and adult melanocytes, the majority of cell lines established from human melanoma samples did not express detectable levels of c-kit mRNA or protein. A similar pattern of differential expression was also observed in normal and transformed murine melanocytes. Our findings raise the possibility that a marked reduction in c-kit gene expression either promotes or is a consequence of transformation in melanocytes.
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PMID:Loss of c-kit expression in cultured melanoma cells. 137 38

The proto-oncogene c-Kit, a transmembrane receptor tyrosine kinase, is an important regulator of cell growth whose constitutively active oncogenic counterpart, v-kit, induces sarcomas in cats. Mutations in murine c-kit that reduce the receptor tyrosine kinase activity cause deficiencies in the migration and proliferation of melanoblasts, hematopoietic stem cells, and primordial germ cells. We therefore investigated whether c-Kit regulates normal human melanocyte proliferation and plays a role in melanomas. We show that normal human melanocytes respond to mast cell growth factor (MGF), the Kit-ligand that stimulates phosphorylation of tyrosyl residues in c-Kit and induces sequential phosphorylation of tyrosyl residues in several other proteins. One of the phosphorylated intermediates in the signal transduction pathway was identified as an early response kinase (mitogen-activated protein [MAP] kinase). Dephosphorylation of a prominent 180-kDa protein suggests that MGF also activates a phosphotyrosine phosphatase. In contrast, MGF did not induce proliferation, the cascade of protein phosphorylations, or MAP kinase activation in the majority of cells cultured from primary nodular and metastatic melanomas that grow independently of exogenous factors. In the five out of eight human melanoma lines expressing c-kit mRNAs, c-Kit was not constitutively activated. Therefore, although c-Kit-kinase is a potent growth regulator of normal human melanocytes, its activity is not positively associated with malignant transformation.
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PMID:c-Kit-kinase induces a cascade of protein tyrosine phosphorylation in normal human melanocytes in response to mast cell growth factor and stimulates mitogen-activated protein kinase but is down-regulated in melanomas. 137 24

The c-kit proto-oncogene encodes a transmembrane tyrosine kinase receptor. It belongs to receptor tyrosine kinase subclass III, which also includes the colony-stimulating factor I receptor (c-fms), platelet-derived growth factor receptors A and B (PDGFRA and PDGFRB), as well as FLT1 and FLT3/FLK2. c-kit and PDGFRA, c-fms and PDGFRB, FLT1 and FLT3/FLK2 are grouped by pair in three clusters in man on chromosome 4 band q11-q13, chromosome 5 band q31-q33 and chromosome 13 band q12 respectively. Here, we report the genomic organization of the human c-kit gene, which is composed of 21 small coding exons, distributed over 80 kb. Comparison of the c-kit and c-fms oncogenes shows that they share identified exon/intron boundaries in their two kinase domains, as well as a similar exon/intron organization in the extracytoplasmic domain. Comparison with the kinase domains of tyrosine kinase genes not belonging to subclass III suggests that the exon/intron organization of c-kit and c-fms is a characteristic feature of subclass III. The genomic similarities between c-kit and c-fms, in conjunction with the location in pairs on different chromosomes of the subclass III genes, has led us to hypothesize that cis and trans duplications gave rise to this group of genes.
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PMID:Genomic organization of the human c-kit gene: evolution of the receptor tyrosine kinase subclass III. 137 82

The c-kit gene, mapped to the dominant white spotting (W) locus of the mouse (Chabot, B., Stephenson, D. A., Chapman, V. M., Besmer, P., and Bernstein, A. (1988) Nature 335, 88-89; Geissler, E. N., Ryan, M. A., and Housman, D. E. (1988) Cell 55, 185-192), encodes a receptor tyrosine kinase, p145c-kit. Germline mutations at the W locus lead to loss of function alterations in p145c-kit, and result in mice with developmental defects of varying severity in the melanocytic, hematopoietic stem cell, and primordial germ cell lineages. To investigate in more detail the effect of W mutations on p145c-kit signaling, three mutations, W42, Wv, and W41, that confer severe, intermediate, and mild phenotypic characteristics, respectively, were introduced into the human p145c-kit tyrosine kinase domain. These mutations attenuated the intrinsic tyrosine kinase activity of the receptor to different degrees. In addition, they had differential effects on the interaction of the p145c-kit substrates, phospholipase C gamma, GTPase-activating protein, and the receptor-binding subunit of phosphatidylinositol 3'-kinase, p85. Notably, the Wv mutation, while retaining significant receptor tyrosine kinase activity, was unable to bind phospholipase C gamma and GTPase-activating protein, but could still associate with p85. These results suggest that the location of W mutations may be an important determinant of the specificity of substrate association and phosphorylation, and may explain, at least in part, the cell type-specific defects associated with certain W alleles.
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PMID:Differential effects of W mutations on p145c-kit tyrosine kinase activity and substrate interaction. 137 79

Kit-ligand is a novel polypeptide growth factor which binds and activates the c-kit protooncogene, a receptor tyrosine kinase. We used the technique of reverse transcription-polymerase chain reaction to demonstrate the expression of this growth factor in human placenta. In situ hybridization showed that kit-ligand mRNA is expressed in cytotrophoblast and syncytiotrophoblast cells in the placenta, and in fetally derived extravillous trophoblast cells which have invaded the maternal endometrium. Five species of mRNA encoding variants of kit-ligand were identified by nested reverse transcription-polymerase chain reaction. Cloning and sequencing indicate that these variants arise by alternative splicing of the kit-ligand transcript. One of these species, KL486, uses a novel splice site in exon 8. There is a different pattern of expression of the variants in amnion, chorion, trophoblast, and placenta, indicating tissue-specific control of splicing.
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PMID:Expression of messenger RNA for kit-ligand in human placenta: localization by in situ hybridization and identification of alternatively spliced variants. 138 93

Piebaldism is a rare autosomal dominant disorder of pigmentation, characterized by congenital patches of white skin and hair from which melanocytes are absent. We have previously shown that piebaldism can result from missense and frameshift mutations of the KIT proto-oncogene, which encodes the cellular receptor tyrosine kinase for the mast/stem cell growth factor. Here, we report two novel KIT mutations associated with human piebaldism. A proximal frameshift is associated with a mild piebald phenotype, and a splice-junction mutation is associated with a highly variable piebald phenotype. We discuss the apparent relationship between the predicted impact of specific KIT mutations on total KIT-dependent signal transduction and the severity of the resultant piebald phenotypes.
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PMID:Mutations of the KIT (mast/stem cell growth factor receptor) proto-oncogene account for a continuous range of phenotypes in human piebaldism. 138 25

To elucidate the molecular biology of the hematopoietic stem cell, we have begun to isolate genes from murine cell populations enriched in stem cell activity. One such cDNA encodes a novel receptor tyrosine kinase, designated fetal liver kinase-2 or flk-2, which is related to the W locus gene product c-kit. Expression analyses suggest an extremely restricted distribution of flk-2. It is expressed in populations enriched for stem cells and primitive uncommitted progenitors, and is absent in populations containing more mature cells. Therefore, this receptor may be a key signal transducing component in the totipotent hematopoietic stem cell and its immediate self-renewing progeny.
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PMID:A receptor tyrosine kinase specific to hematopoietic stem and progenitor cell-enriched populations. 164 48

The mature cells in the haemopoietic system arise as the result of the extensive developmental and proliferative capacity of pluripotential stem cells. In order to understand the molecular basis for these developmental processes, it will be necessary to identify and characterize the cellular genes that control early steps in haemopoiesis. Mutations at the mouse W locus on chromosome 5 lead to pleiotropic developmental defects, including sterility, coat colour abnormalities, severe macrocytic anaemia and mast cell deficiency. The defects in all these lineages are cell autonomous and intrinsic, suggesting that the W locus encodes a gene product required directly for cellular differentiation. In an attempt to understand this classical mouse developmental mutation, we have demonstrated that the c-kit proto-oncogene, which encodes a transmembrane receptor tyrosine kinase, is very closely linked to W. Several further observations are consistent with the idea that W and c-kit are allelic: first, c-kit is expressed in those cell populations affected by W mutations; second, the expression of c-kit transcripts can be affected by mutations at the W locus; third, the tyrosine kinase activity associated with the protein encoded by c-kit is functionally impaired in mast cells derived from mutant W/Wv mice; and fourth, rearrangements within the c-kit gene have been reported in two W mutant alleles. These observations suggest that the dominant phenotype associated with W mutations results from loss-of-function alterations that affect the receptor tyrosine kinase encoded by c-kit. The demonstration that the W locus encodes a transmembrane growth factor receptor provides a molecular basis for understanding the intrinsic haemopoietic defect in W mutant mice and the role that this cellular proto-oncogene plays in haemopoiesis and other developmental processes.
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PMID:The mouse W/c-kit locus. 169 Jun 23


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