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: UMLS:C0027651 (tumor)
685,946 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A peculiar point mutation results in constitutive activation of c-kit receptor tyrosine kinase (KIT) in three different tumor mast cell lines; ie, the HMC-1, P-815, and RBL-2H3. Because constitutive activation of KIT was also observed in the FMA3 mouse mastocytoma cell line, we investigated the molecular mechanism. Sequencing of the whole coding region of the c-kit showed that the point mutation found in HMC-1, P-815, and RBL-2H3 cells was absent in FMA3 cells and that the c-kit cDNA of FMA3 cells carried an in-frame deletion of 21 base pairs (bp) encoding Thr-Gln-Leu-Pro-Tyr-Asp-His at codons 573 to 579 at the juxtamembrane domain. The FMA3-type c-kit cDNA with 21 bp deletion was introduced into the IC-2 cell line, which was derived from murine cultured mast cells. IC-2 cells were dependent on interleukin (IL)-3 and did not express KIT on the surface. In IC-2 cells introduced with the FMA3-type c-kit cDNA, KIT was constitutively phosphorylated on tyrosines and activated. Moreover, the FMA3-type KIT was dimerized without the stimulation by stem cell factor (SCF), a ligand for KIT. The spontaneously dimerized FMA3-type KIT without SCF binding was not internalized even after the activation. IC-2 cells expressing the FMA3-type KIT grew in suspension culture without IL-3 and SCF and became leukemic in nude athymic mice. The deletion of seven amino acids at the juxtamembrane domain appeared to be a new activating mutation of KIT that might be involved in neoplastic growth of mast cells.
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PMID:Constitutive activation of c-kit in FMA3 murine mastocytoma cells caused by deletion of seven amino acids at the juxtamembrane domain. 854 52

Cancer is one of the most frequent fatal human diseases. It is a genetic disease, and molecular analysis of the genes involved revealed that they belong to several distinct classes of molecules, one of which is the receptor tyrosine kinases. Neoplastic transformation is regarded as the result of a multistep process and, in most cases, it is hard to evaluate what the initial events in tumor formation are. What makes it difficult to approach this question is the paucity of animals models for tumorigenesis allowing investigation of the mechanisms leading to uncontrolled cell proliferation. Melanoma formation in Xiphophorus is one of these model systems. Here, overexpression and activation of a receptor tyrosine kinase causes neoplastic transformation of pigment cells. Xiphophorus provides all the advantages of a well-characterized genetic system. In addition, some crucial components of the transformation pathway have been identified at the molecular level. As a vertebrate, Xiphophorus might serve as a model system to aid understanding, in more general terms, of the mechanisms of tumorigenesis in human diseases.
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PMID:Melanoma formation in Xiphophorus: a model system for the role of receptor tyrosine kinases in tumorigenesis. 863 62

Inherited cancer syndromes predispose an individual to development of specific tumors. Somatic and germline mutations in the same tumor suppressor gene, as described in Knudson's two-mutation model, are well recognized. Inherited mutations in the RET proto-oncogene, which encodes a receptor tyrosine kinase, predispose individuals to the multiple endocrine neoplasia type 2 (MEN 2) cancer syndromes. The major component tumor of these syndromes is medullary thyroid carcinoma (MTC). To date, somatic mutations in RET have not been identified in tumors from individuals with MEN 2, although they have been well documented in sporadic MEN 2-related tumors. We have identified, among 16 MEN 2 cases with well-defined RET germline mutations, a somatic missense mutation at codon 918 of RET in 3 of 15 MTCs and in a sample with hyperplastic C-cells (presumed precursor to hereditary MTC). We suggest that the presence of a somatic mutation, in addition to the preexisting germline mutation in hereditary MTCs, may contribute to tumorigenesis in vivo.
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PMID:Germline and somatic mutations in an oncogene: RET mutations in inherited medullary thyroid carcinoma. 864 Aug 6

The type I interferons induce an anti-viral state and suppress cell growth. The p135tyk2 non-receptor tyrosine kinase appears to initiate, at least in part, the type I interferon signal transduction pathway, and thereby activates type I interferon-dependent gene expression. To determine if p135tyk2 can suppress growth and/or tumorigenesis, derivatives of the tyk2 gene were introduced into the tumorigenic cell line Daudi. Transfectants expressing a tyk2 construct missing the carboxy-terminal 22 amino acids cloned with a greatly reduced efficiency in soft agar and displayed a partial decrease in the ability to form tumors in athymic mice. In addition, transfectants producing a kinase deficient version of tyk2 show an increase in both growth rate and agar cloning efficiency, suggesting that the inactive kinase can act in a dominant-negative manner. Surprisingly, the carboxyl-terminal deleted protein lacks both auto-kinase activity, and activity towards a putative substrate, even though it induces a phenotype which is precisely the opposite of that produced by another kinase-deficient tyk2 mutant containing an altered ATP binding site. Thus, while these results add tyk2 to a growing list of interferon-alpha regulated proteins that might be able to suppress tumor formation, the biochemical basis of this activity remains unknown.
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PMID:A mutant form of p135tyk2, an interferon-alpha inducible tyrosine kinase, suppresses the transformed phenotype of Daudi cells. 864 73

The receptor tyrosine kinase proto-RET is believed to contribute to thyroid oncogenesis by activation of its tyrosine kinase either by point mutation or rearrangement. The papillary thyroid cancer cell lines PTC-1113A, L, and R were established from a recurrent thyroid cancer and its metastases. The rearrangement of the proto-ret oncogene in the cell line PTC-1113A is demonstrated by Southern analysis utilizing the probe for rearranged ret that encodes the fusion protein H4/tyrosine kinase. In contrast, rearranged ret alleles were not found in the cell lines that developed from metastases, nor in DNA isolated from the recurrent tumor. The cell line PTC-1113A may represent a population of tumor cells that gained a growth advantage due to rearranged ret. This is the second human thyroid cancer cell line harboring rearranged ret, and may serve to study the function of ret activation in thyroid cancers.
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PMID:Proto-RET is rearranged in the new human papillary thyroid cancer cell line PTC-1113A. 868 3

The overexpression of epidermal growth factor receptor (EGFr) has been implicated as a causative factor and a poor prognostic marker in a number of carcinomas. Therefore, strategies that down-regulate EGFr expression may be therapeutically useful. We designed antisense ODNs complementary to the initiation codon region of the EGFr mRNA and evaluated their efficacy in several tumor-derived cells, including the A431 cell line, that express amplified levels of EGFr. A 15-mer phosphorothioate (PS) antisense ODN (erbB1AS15) induced a concentration-dependent reduction in proliferation that was accompanied by a change in the morphology of A431 cells into more tightly clustered and discrete colonies. A 15-mer sense (PS) control oligodeoxynucleotide (ODN) and a phosphodiester (PO) version of erbB1AS15 had little or no effect on cell number of morphology, and erbB1AS15 (PS) did not induce these effects in control cell lines expressing lower levels of EGFr. The effects of erbB1AS15 (PS) on A431 cells were not mediated by a true antisense mechanism in that there was no reduction in the level of EGFr mRNA or protein over a 24-hr period, as determined by Northern and Western blotting, respectively. However, autophosphorylation of the receptor was significantly reduced by erbB1AS15 (PS) and not by control ODNs. The results of further studies suggested that this effect was mediated by a direct, dose-dependent inhibition of the EGFr tyrosine kinase enzyme and was not due to impairment of either ligand-binding or receptor dimerization. These data suggest that erbB1AS15 (PS) can inhibit proliferation and alter the morphology of A431 cells by a sequence-selective, but nonantisense, mechanism affecting receptor tyrosine kinase activity.
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PMID:A nonantisense sequence-selective effect of a phosphorothioate oligodeoxynucleotide directed against the epidermal growth factor receptor in A431 cells. 870 Jan 39

The c-erbB-2 receptor tyrosine kinase is often overexpressed in human tumors, but the functional implications of this phenotype remain unclear. We previously used phosphorylation-specific antibodies to define major differences in c-erbB-2 tyrosine kinase activity between overexpressing human tumor cell lines (Epstein, R. J., Druker, B. J., Roberts, T. M., and Stiles, C. D. (1992) Proc. Natl. Acad. Sci. U. S. A. 89, 10435-10439). Here we extend this approach to define the relationship between c-erbB-2 tyrosine phosphorylation and protein kinase C (PKC)-dependent transmodulation. Phosphorylation-specific antibodies to the juxtamembrane PKC site Thr686 recognize tyrosine-dephosphorylated wild-type c-erbB-2 following G8/DHFR 3T3 cell treatment with PKC agonists. B104-1-1 cells transformed by activated c-erbB-2 express a subset of tyrosine-phosphorylated receptors that are homologously phosphorylated on Thr686, indicating that Thr686 phosphorylation alone is insufficient to abrogate receptor tyrosine phosphorylation. Similarly, the c-erbB-2-overexpressing human cancer cell lines SK-Ov-3 and BT-474 express constitutively Thr686-phosphorylated receptors. SK-Ov-3 cells express predominantly kinase-inactive c-erbB-2 that is heavily Thr686-phosphorylated, indicating that Thr686 phosphorylation in this line is heterologous in origin. In contrast, BT-474 cells express constitutively autophosphorylated c-erbB-2 despite Thr686 phosphorylation. These results indicate that Thr686 phosphorylation does not directly abolish c-erbB-2 activity and suggest that such phosphorylation reflects constitutive PKC activity induced by either receptor-activating mutations or heterologous growth factors. The latter possibility suggests in turn that c-erbB-2 interacts in an as yet undefined way with heterologous growth factor receptors in human tumor cells.
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PMID:Human cancer cells exhibit protein kinase C-dependent c-erbB-2 transmodulation that correlates with phosphatase sensitivity and kinase activity. 870 75

A gene encoding a single-chain antibody (scFv) which specifically binds the epidermal growth factor receptor (EGFR) has been constructed from hybridoma cells producing the R1 monoclonal antibody. The gene, designated scFv-R1R, was introduced into EGFR transformed NIH3T3 cells via retroviral infection. scFv-R1R was directed to the lumen of the endoplasmic reticulum (ER) where it bound the extracellular domain of the receptor inhibiting its appearance on the plasma membrane. In these cells, EGF induced tyrosine phosphorylation of the EGFR and several substrates was greatly reduced. Furthermore, intracellular retention of EGFR caused a partial inhibition in the transformed growth of the cells. Intracellular expression of receptor tyrosine kinase directed scFvs is a novel approach for affecting tumor cell growth. We have recently shown that scFv-5R directed to ErbB2, another member of the ErbB family, blocks the anchorage independent growth of ErbB2 transformed cells. In order to examine the effects of scFv-R1R and scFv-5R on the long-term growth of tumor cells overexpressing either EGFR or ErbB2, retroviruses encoding the two scFvs were used to infect various human tumor cell lines. Intracellular expression of the scFvs resulted in a marked inhibition of stable colony formation in some of the cell lines. In general, inhibition was observed when overexpressed receptor was targeted. However, in some cases expression of both scFvs was incompatible with long term cell growth suggesting that heterodimers of ErbB2 and EGFR are essential for the growth of some human tumor cell lines.
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PMID:Intracellular expression of a single-chain antibody directed to the EGFR leads to growth inhibition of tumor cells. 871 Mar 66

Retinoic acid is a known morphogen which can regulate cell proliferation and differentiation and also induces the hypophosphorylation of the RB (retinoblastoma tumor suppressor gene) protein, a known cell cycle regulatory protein. The mechanism by which these processes occur is unclear. We find that these processes can be regulated by CGP 52411, 4,5-dianilinophthalimide, an inhibitor of tyrosine protein kinases of the EGF receptor subfamily. Retinoic acid causes the largely phosphorylated RB protein expressed in proliferating HL-60 human promyelocytic leukemia cells to shift to the unphosphorylated form, as well as causing the cells to G0 arrest and differentiate. Addition of CGP 52411 accelerated the redistribution of the RB protein expressed in HL-60 cells to the unphosphorylated form, enhancing the effects of the retinoic acid. By itself CGP 52411 had no apparent effect on the RB protein expressed in HL-60 cells. CGP 52411 also accelerated the retinoic acid-induced accumulation of cells in G1/0 and the phenotypic conversion of cells to the mature myeloid phenotype, suggesting that its target is common to the regulation of both RB phosphorylation and cell proliferation and differentiation. CGP 52411 had a similar effect on the RB phosphorylation shift induced by 1,25-dihydroxy vitamin D3, a ligand for a receptor in the same steroid thyroid hormone superfamily as retinoic acid. Increasing the concentration of CGP 52411 enhanced the acceleration of RB hypophosphorylation in the case of both retinoic acid and 1,25-dihydroxy vitamin D3. The data are consistent with the negative regulation of retinoic acid induced RB protein dephosphorylation coupled to cell cycle arrest and differentiation by a receptor tyrosine kinase sensitive to CGP 52411.
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PMID:Retinoic acid-induced RB (retinoblastoma) hypophosphorylation enhanced by CGP 52411 (4,5-dianilinophthalimide), an EGF family tyrosine kinase receptor inhibitor. 874 Dec 14

Specific tissue interactions between epithelia and mesenchyme (or stroma), e.g., epithelial-mesenchymal (or -stromal) interactions mediate crucial aspects of normal development and tissue regeneration. These events affect tissue induction, organogenesis, cell movement, and morphogenesis of multicellular structures. Extensive and diverse studies have established that hepatocyte growth factor (HGF), a ligand for the c-met protooncogene product of receptor tyrosine kinase, is a mesenchymal- or stromal-derived multipotent polypeptide which mediates epithelial-mesenchymal interactions. During embryogenesis, HGF supports organogenesis and morphogenesis of various tissues and organs, including the liver, kidney, lung, gut, mammary gland, tooth, skeletal system, etc. In adult tissues, HGF elicits a potent organotrophic function which supports regeneration of organs including the liver, kidney, and lung. In the brain, HGF is a new member of the family of neurotrophic factors. In neoplastic tissue, HGF is involved in tumor invasion and metastasis, through tumor-stromal interactions. While HGF was originally identified as a potent mitogen for mature hepatocytes, the biological functions of this factor reach far beyond the original identifications. Such being the case, use of HGF for purposes of therapeutics is being given increasing attention.
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PMID:Emerging multipotent aspects of hepatocyte growth factor. 874 56


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