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 a South African girl of Xhosa stock with severe piebaldism and profound congenital sensorineural deafness we identified a novel missense substitution at a highly conserved residue in the intracellular kinase domain of the KIT proto-oncogene, R796G. Though auditory anomalies have been observed in mice with dominant white spotting (W) due to KIT mutations, deafness is not typical in human piebaldism. Thus, the occurrence of sensorineural deafness in this patient extends considerably the phenotypic range of piebaldism due to KIT gene mutation in humans and tightens the clinical similarity between piebaldism and the various forms of Waardenburg syndrome.
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PMID:Piebaldism with deafness: molecular evidence for an expanded syndrome. 945 Aug 66

Ectopic expression of the normal murine receptor tyrosine kinase, c-Kit, in NIH3T3 cells induced many phenotypic changes characteristic of transformation including anchorage-independent growth, focus formation and tumorigenicity in nude mice. Although transformation was largely dependent on the presence of recombinant murine Steel Factor (SLF), the ligand to the c-Kit receptor, anchorage independent growth did occur at a low frequency in the absence of added factor, and this could not be inhibited by neutralising antibodies or by SLF anti-sense mRNA. Clones from factor-independent colonies in semi-solid agar displayed a narrow range of c-Kit surface protein levels (4.3-6.4 x 10(4) receptors/cell) which was relatively high compared with the pool from which they were derived. Analysis of a larger series of random clones derived from adherent cultures expressing different levels of c-Kit demonstrated a positive correlation between SLF-dependent, anchorage-independent growth and c-Kit protein and mRNA expression levels (respectively, Rs = 0.58, P < 0.01; and Rs = 0.53, P < 0.01) with consistent colony formation observed with clones having > 2.5 x 10(4) receptors/cell. Interestingly, two of the three clones expressing the highest levels of c-Kit protein and mRNA produced few or no colonies in the presence or absence of SLF. Sequential overexpression of human c-KIT in NIH3T3 cells using a dihydrofolate reductase (DHFR)-encoding vector and gene co-amplification through methotrexate selection, which resulted in pools expressing up to 1.5 x 10(5) receptors/cell, confirmed that high receptor densities resulted in a decrease in colony numbers. Thus, analysis of clonal and selected populations has indicated that an optimal level of c-Kit is required for transformation of NIH3T3 cells in the presence of SLF, and that some ligand-independent transformation occurs.
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PMID:Transformation of NIH3T3 fibroblasts by the c-Kit receptor tyrosine kinase: effect of receptor density and ligand-requirement. 946 35

The change of phenotypic traits in domestic animals and crops as a response to selective breeding mimics the much slower evolutionary change in natural populations. Here, we describe that the dominant white phenotype in domestic pigs is caused by two mutations in the KIT gene encoding the mast/stem cell growth factor receptor (MGF), one gene duplication associated with a partially dominant phenotype and a splice mutation in one of the copies leading to the fully dominant allele. The splice mutation is a G to A substitution in the first nucleotide of intron 17 and leads to skipping of exon 17. The duplication is most likely a regulatory mutation affecting KIT expression, whereas the splice mutation is expected to cause a receptor with impaired or absent tyrosine kinase activity. Immunocytochemistry showed that this variant form is expressed in 17- to 19-day-old pig embryos. Hundreds of millions of white pigs around the world are assumed to be heterozygous or homozygous for the two mutations. [The EMBL accession numbers for porcine KIT1*0101, KIT1*0202, KIT2*0202, and KIT2*0101 are AJ223228-AJ223231, respectively.]
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PMID:Molecular basis for the dominant white phenotype in the domestic pig. 972 28

The melanocortin 1 receptor (MC1R), mast/stem cell growth factor receptor (KIT), and platelet-derived growth factor receptor alpha (PDGFRA) are loci that all belong to equine linkage group 2 (LG2). Of these, KIT was fluorescent in situ hybridization (FISH) mapped to ECA3q21 with equine cDNA and heterologous porcine BAC probes, while MC1R was localized to ECA3p12 and PDGFRA to ECA3q21 with heterologous porcine BAC probes. A three-step comparison between ECA3 and donkey chromosomes was carried out. First, microdissected ECA3 painting probe was used on donkey chromosomes, which showed disruption of the equine synteny. Next, human (HSA) Chromosomes (Chrs) 16q and 4 specific paints, known to be homologous to ECA3p and 3q, respectively, were applied to detect homologous chromosomal segment(s) in donkey. Finally, four genes (MC1R, ALB, PDGFRA, KIT) and two equine microsatellite markers (SGCV18 and SGCV33) located on ECA3 were FISH mapped to donkey chromosomes. The findings refined the cross species painting homology results and added six new markers to the nascent donkey gene map. The hypothesis that Tobiano coat color in horses may be associated with a chromosomal inversion involving genes within LG2 was tested by G-banding-based cytogenetic analysis and ordering of four loci-KIT, PDGFRA, albumin (ALB), and MC1R-in Tobiano and non-tobiano (homozygous as well as heterozygous) horses. However, no difference either in banding patterns or location/relative order of the genes was observed in the three classes. The study highlights successful FISH mapping of BAC probes across evolutionarily diverged species, viz., pig and horse/donkey, and represents the first use of large-sized individual clones across distantly related farm animals.
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PMID:Comparison of horse chromosome 3 with donkey and human chromosomes by cross-species painting and heterologous FISH mapping. 1005 24

The c-kit proto-oncogene encodes a transmembrane receptor tyrosine kinase (KIT), which is expressed in several normal human tissues, especially mast cells and interstitial cells of Cajal. Expression of KIT has been noted in several types of neoplasms and gene mutation has been shown as a mechanism of c-kit oncogene activation in some tumors. Recently, a single adnexal adenoid cystic carcinoma (ACC) was reported to demonstrate KIT expression, however, examination of KIT expression or c-kit mutation in ACC of salivary glands has not been performed. We examined archival tissue samples from 30 ACC of major and minor salivary glands for KIT protein expression by immunohistochemistry with a polyclonal antibody and c-kit gene mutation by polymerase chain reaction amplification and DNA sequencing. KIT protein expression was noted in 90% of ACCs. An association between the presence of at least 50% KIT positive neoplastic cells and Grade 3 ACC or a solid growth pattern was observed (P < .05). KIT expression in normal or nonneoplastic salivary gland tissue was absent. No c-kit juxtamembrane domain (exon 11) or phosphotransferase domain (exon 17) mutations were found in any of the tumors examined. In conclusion, KIT protein expression is correlated with tumor grade of salivary ACC. However, gene mutation of exon 11 or exon 17 is not a mechanism of c-kit activation in these neoplasms.
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PMID:KIT protein expression and analysis of c-kit gene mutation in adenoid cystic carcinoma. 1053 May 60

Mastocytosis is a neoplastic disease caused at least in part by somatic mutations of the c-KIT proto-oncogene resulting in constitutive activation of its protein product, KIT, the receptor tyrosine kinase for stem cell factor. KIT stimulates mast cell proliferation and prevents apoptosis of neoplastic mast cells. To develop potential therapies for mastocytosis we used indolinones, small molecules that inhibit tyrosine kinases. Four indolinone derivatives (SU4984, SU6663, SU6577, and SU5614) inhibited wild-type KIT, but variably inhibited constitutively activated KIT mutants. SU4984, SU6577, and SU5614 were effective against KIT with juxtamembrane activating mutations, whereas only SU6577 could suppress KIT containing either juxtamembrane or kinase domain activating mutations. Furthermore, SU4984, SU6577, and SU5614 killed neoplastic mast cells expressing a juxtamembrane-mutated KIT, whereas SU4984 and SU6577 killed neoplastic mast cells expressing KIT bearing a kinase domain mutation. These data show a direct correlation between inhibition of constitutively activated KIT and the death of neoplastic mast cells, and point to specific tyrosine kinase inhibitors as a potential therapy aimed directly at a cause of mastocytosis.
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PMID:Indolinone derivatives inhibit constitutively activated KIT mutants and kill neoplastic mast cells. 1065 4

Gastrointestinal stromal tumor (GIST) is the most common mesenchymal tumor of the GI tract, and expresses KIT and CD34 in most cases. Gain-of-function mutation of the c-kit proto-oncogene has been described, but its significance in GIST has not yet been fully evaluated. Mutation in exon 11 of the c-kit gene was determined by both polymerase chain reaction-single strand conformation polymorphism (PCR-SSCP) analysis and direct sequencing in primary and metastatic GISTs and esophageal leiomyomas in Japanese subjects. C-kit gene mutation was identified in 15 of 48 primary GISTs (31%), four of seven metastatic GISTs, but none of the leiomyomas. Three mutations were mis-sense point mutations, and 16 were in-frame deletions of 3-48 bp. C-kit gene mutation was observed equally in low- and high-risk groups, and was not related to any clinical and pathologic factors, phenotypes or Ki-67 labeling index (LI) of tumor cells. In five of 15 deletion mutations (four in primary tumors and one in a metastatic tumor), the mutations were present at the distal location of exon 11 of the c-kit gene, which was a minor mutation in previous reports from Finland and the USA. C-kit gene mutations in GIST are not always related to a poor prognosis, but further comparative studies are necessary in Western and Japanese populations.
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PMID:C-kit gene abnormalities in gastrointestinal stromal tumors (tumors of interstitial cells of Cajal. 1066 49

c-kit protooncogene encodes a type III transmembrane receptor kinase, the stem cell factor receptor, or KIT. The ligand of the KIT. stem cell factor, is a cytokine that stimulates mast cell growth and differentiation. We have studied immunohistochemically KIT expression in 23 canine mast cell tumors (MCTs), 10 histiocytomas, 5 malignant melanomas, and in 2 cell lines derived from mast cells (HMC-1, human and C2, canine). As expected, KIT was detected both in the human mast cell leukemia cell line (HMC- ) and in the canine mastocytoma cell line C2. In normal canine skin, KIT expression was confined to mast cells. All canine MCTs expressed KIT, although the intensity of the staining reaction varied considerably among the 23 neoplasms. Grade III tumors showed the highest expression of KIT, whereas grade I tumors showed the lowest expression of KIT. Two patterns of KIT expression were detected in mast cells. In normal canine mast cells and in some neoplastic mast cells, KIT appeared mainly on the cell membrane. However, in many canine MCTs, KIT is accumulated in the cytoplasm, usually near the cell nucleus. The meaning of these two patterns is not clear. Expression of KIT could not be detected immunohistochemically in any of the other neoplasias investigated. According to our results, it can be concluded that most, if not all, canine MCT express KIT. Furthermore, there is an inverse correlation between the degree of differentiation and the expression of KIT. Moreover, according to our results, KIT can be used as a reliable immunohistochemical marker for canine mast cells and undifferentiated mast cell tumors.
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PMID:Canine mast cell tumors express stem cell factor receptor. 1069 17

Protooncogene c-kit encodes a receptor tyrosine kinase, KIT. Interstitial cells of Cajal (ICCs) that are important for the autonomous movement of the gastrointestinal tract essentially require the normal function of the KIT for their development. Therefore, germline loss-of-function mutations of the c-kit gene cause deficiency of ICCs that results in disturbed gastrointestinal movement. On the other hand, somatic gain-of-function mutations of the c-kit gene induce gastrointestinal stromal tumors (GIST) that are considered to originate from ICCs. Moreover, germline gain-of-function mutations of the c-kit gene are a cause of familial development of multiple GISTs.
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PMID:Effects of loss-of-function and gain-of-function mutations of c-kit on the gastrointestinal tract. 1077 23

C-kit proto-oncogene product (KIT, CD117) is a tyrosine kinase growth factor receptor for stem cell factor. This receptor is important for the development and maintenance of hematopoietic stem cells, mast cells, germ cells, melanocytes, and interstitial cells of Cajal and is constitutively expressed in them. Among mesenchymal tumors, KIT seems to be specific for the gastrointestinal stromal tumors, which consistently express this protein. Activating mutations in the tyrosine kinase or juxtamembrane domains of c-kit gene have been found in mastocytoma, seminoma, and gastrointestinal stromal tumors. Following up our initial observation of KIT expression in one angiosarcoma, we examined 50 angiosarcomas, 13 Kaposi sarcomas, 10 epithelioid hemangioendotheliomas, and 31 hemangiomas of different types for KIT expression using a polyclonal antiserum specific to KIT. Adult and fetal tissues and neovascular endothelia in 20 carcinomas were studied for comparison. More than half (56%) of the angiosarcomas representing different clinicopathologic and histologic subtypes and 2 of 13 Kaposi sarcoma were KIT positive. All epithelioid hemangioendotheliomas and hemangiomas were negative, with the exception of two infantile hemangiomas that showed KIT reactivity. The fetal capillary endothelia of lungs, placenta, and soft tissues were also KIT positive, although in soft tissues and placenta, KIT positivity was more prominent in the first trimester. However, endothelia of adult vessels and neovascular capillaries of carcinomas were negative. None of the four KIT-positive angiosarcomas and one KIT-positive Kaposi sarcomas that were studied showed mutations in the juxtamembrane or tyrosine kinase domains of the c-kit gene. These results indicate that KIT expression occurs in a subset of angiosarcomas, and the expression probably represents oncofetal expression (i.e., reversion of the tumor cell phenotype to that of fetal endothelial cells that may show KIT expression).
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PMID:KIT expression in angiosarcomas and fetal endothelial cells: lack of mutations of exon 11 and exon 17 of C-kit. 1082 25

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