Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.7.11.1 (protein kinase)
 81,284 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Cases were presented to describe the clinical manifestations, histological features, and diagnostic criteria about the current classification of ovarian tumors. They included peritoneal serous borderline tumor, endocervical-like the intestinal-type mucinous borderline tumor, transitional cell carcinoma of ovarian surface epithelial-stromal tumors and juvenile granulosa cell tumor, sclerosing stromal tumor, hepatoid yolk sac tumor, and primary mucinous carcinoid tumor of non-surface epithelial ovarian tumors. Cases were also presented for discussing the significance of structures and features of some ovarian tumors which have been reevaluated and newly classified. For instance, tumor cell of granulosa cell tumor gives vimentin expression, but is unable to express cytokeratin in all the cases detected with monoclonal antibody of CK-2. Based on the clinical manifestations, exact locating site in the ovary, as well as the histology and histochemistry features, it is possible to identify the stromal luteoma, leydig cell tumor, and non-specific steroid cell tumor respectively in the family of steroid cell tumors. Additionally, the diagnostic significance of the occurrence of basal membrane-like substance and intestinal cells in some yolk sac tumors is also discussed.
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PMID:[Pathological observation on the new classification and features of ovarian tumors]. 129 22

Activins and inhibins are often antagonistic in the regulation of ovarian function. TGFbeta type III receptor, betaglycan, has been identified as a coreceptor to enhance the binding of inhibins to activin type II receptor and thus to prevent the binding of activins to their receptor. In this study we characterized the expression and regulation pattern of betaglycan gene in normal ovaries and sex cord-stromal tumors and in cultured human granulosa-luteal cells from women undergoing in vitro fertilization. Expression of betaglycan mRNA was detected by RT-PCR or Northern blotting in normal ovarian granulosa, thecal, and stroma cells as well as in granulosa-luteal cells. Immunohistochemical analysis revealed positive staining for betaglycan in antral and preovulatory follicular granulosa and thecal cells and in corpora lutea of normal ovaries. Furthermore, betaglycan expression was detected in the vast majority of granulosa cell tumors, thecomas, and fibromas, with weaker staining in granulosa cell tumors compared with fibrothecomas. In cultured granulosa-luteal cells, FSH and LH treatment increased dose-dependently the accumulation of betaglycan mRNA, as did the protein kinase A activator dibutyryl cAMP and the protein kinase C inhibitor staurosporine. In contrast, the protein kinase C activator 12-O-tetradecanoyl phorbol 13-acetate had no significant effect on betaglycan mRNA levels. Treatment with prostaglandin E(2) and with its receptor EP2 subtype agonist butaprost increased betaglycan mRNA accumulation and progesterone secretion dose- and time-dependently. In summary, betaglycan gene is expressed in normal human ovarian steroidogenic cells and sex cord-stromal ovarian tumors. The accumulation of its mRNA in cultured granulosa-luteal cells is up-regulated by gonadotropins and prostaglandin E(2), probably via the protein kinase A pathway. The specific expression and regulation pattern of betaglycan gene may be related to the functional antagonism of inhibins to activin signal transduction in human ovaries.
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PMID:Expression of betaglycan, an inhibin coreceptor, in normal human ovaries and ovarian sex cord-stromal tumors and its regulation in cultured human granulosa-luteal cells. 1455 87

Among novel promising approaches to anticancer therapy belongs the targeting inhibition of signal transduction. This review outlines present-day experiences with imatinib (Glivec), a potent inhibitor of the tyrosine kinases bcr-abl, c-kit and platelet-derived growth factor receptor kinase. Due to inhibition of bcr-abl tyroxine kinase, imatinib has rapidly become the standard therapy for chronic myelocytic leukemia; inhibition of c-kit receptor explains its effectivity in the treatment of patients with gastrointestinal stromal tumors. Another known target of imatinib is tyrosine kinase of PDGFR, which is activated in numerous malignancies, particularly in dermatofibrosarcoma protuberans. Discovery of the novel fusion gene in hypereosinophilic syndrome (FIPILI-PFGFRA, whose product is an imatinib sensitive protein kinase) permitted to treat successfully this event. Possible combination of imatinib with conventional chemotherapeutic drugs and other key signal transduction inhibitors are mentioned.
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PMID:[Imatinib--a new perspective in the treatment of tumors]. 1553 94

Imatinib mesylate is a novel anti-tumor agent useful in the clinical management of chronic myelogenous leukemia and gastrointestinal stromal tumors with minimal toxicity relative to other forms of cancer therapy. Its clinical activity and minimal toxicity are related to specific inhibition of cellular targets including BCR-ABL, platelet-derived growth factor receptor and c-kit kinases, resulting in the collapse of downstream signaling cascades important for transformation. In some patients, unexpected toxicities arise that are not associated with inhibition of any known cellular imatinib target. In this report, we investigated the effects of imatinib on squamous carcinoma cell signaling. Imatinib induced expression of COX-2 in a dose-dependent manner with concomitant accumulation of prostaglandin E2. COX-2 induction by imatinib was initiated through epidermal growth factor (EGF) receptor kinase activation and downstream signaling through mitogenic-activated protein kinase. COX-2 induction by imatinib was blocked by MEK1 or EGF receptor inhibition. Imatinib did not activate stressor cytokine-signaling pathways (p38 kinase, nuclear factor-kB nuclear translocation) or affect COX-1 expression. Imatinib failed to activate EGF receptor signals in other tumor types, suggesting that COX-2 induction in imatinib-treated cells is mediated through release of autocrine factors expressed or activated in squamous tumors. COX-2 induction by imatinib in squamous tumors derived from the head and neck region is unique with respect to other target-specific agents and may represent one of the unintended toxic effects of imatinib described in some patients.
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PMID:Cyclooxygenase-2 induction and prostaglandin E2 accumulation in squamous cell carcinoma as a consequence of epidermal growth factor receptor activation by imatinib mesylate. 1584 61

Signaling by stem cell factor and Kit, its receptor, plays important roles in gametogenesis, hematopoiesis, mast cell development and function, and melanogenesis. Moreover, human and mouse embryonic stem cells express Kit transcripts. Stem cell factor exists as both a soluble and a membrane-bound glycoprotein while Kit is a receptor protein-tyrosine kinase. The complete absence of stem cell factor or Kit is lethal. Deficiencies of either produce defects in red and white blood cell production, hypopigmentation, and sterility. Gain-of-function mutations of Kit are associated with several human neoplasms including acute myelogenous leukemia, gastrointestinal stromal tumors, and mastocytomas. Kit consists of an extracellular domain, a transmembrane segment, a juxtamembrane segment, and a protein kinase domain that contains an insert of about 80 amino acid residues. Binding of stem cell factor to Kit results in receptor dimerization and activation of protein kinase activity. The activated receptor becomes autophosphorylated at tyrosine residues that serve as docking sites for signal transduction molecules containing SH2 domains. The adaptor protein APS, Src family kinases, and Shp2 tyrosyl phosphatase bind to phosphotyrosine 568. Shp1 tyrosyl phosphatase and the adaptor protein Shc bind to phosphotyrosine 570. C-terminal Src kinase homologous kinase and the adaptor Shc bind to both phosphotyrosines 568 and 570. These residues occur in the juxtamembrane segment of Kit. Three residues in the kinase insert domain are phosphorylated and attract the adaptor protein Grb2 (Tyr703), phosphatidylinositol 3-kinase (Tyr721), and phospholipase Cgamma (Tyr730). Phosphotyrosine 900 in the distal kinase domain binds phosphatidylinositol 3-kinase which in turn binds the adaptor protein Crk. Phosphotyrosine 936, also in the distal kinase domain, binds the adaptor proteins APS, Grb2, and Grb7. Kit has the potential to participate in multiple signal transduction pathways as a result of interaction with several enzymes and adaptor proteins.
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PMID:Signaling by Kit protein-tyrosine kinase--the stem cell factor receptor. 1612 12

Signaling by stem cell factor and Kit, its receptor, play important roles in gametogenesis, hematopoiesis, mast cell development and function, and melanogenesis. Moreover, human and mouse embryonic stem cells express Kit transcripts. Stem cell factor exists as both a soluble and a membrane-bound glycoprotein while Kit is a glycoprotein receptor protein-tyrosine kinase. The complete absence of stem cell factor or Kit is lethal. Gain-of-function mutations of Kit are associated with several human neoplasms including acute myelogenous leukemia, gastrointestinal stromal tumors, mastocytomas, and nasal T-cell lymphomas. Binding of stem cell factor to Kit results in receptor dimerization and activation of protein kinase activity. The activated receptor becomes autophosphorylated at tyrosine residues that serve as docking sites for signal transduction molecules containing SH2 domains. Kit activates Akt, Src family kinases, phosphatidylinositol 3-kinase, phospholipase Cgamma, and Ras/mitogen-activated protein kinases. Kit exists in active and inactive conformations as determined by X-ray crystallography. Kit consists of an extracellular domain, a transmembrane segment, a juxtamembrane domain, and a protein kinase domain that contains an insert of about 80 amino acid residues. The juxtamembrane domain inhibits enzyme activity in cis by maintaining the control alphaC-helix and the activation loop in their inactive conformations. The juxtamembrane domain also inhibits receptor dimerization. STI-571, a clinically effective targeted protein-tyrosine kinase inhibitor, binds to an inactive conformation of Kit. The majority of human gastrointestinal stromal tumors have Kit gain-of-function mutations in the juxtamembrane domain, and most people with these tumors respond to STI-571. STI-571 binds to Kit and Bcr-Abl (the oncoprotein of chronic myelogenous leukemia) at their ATP-binding sites.
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PMID:Structure and regulation of Kit protein-tyrosine kinase--the stem cell factor receptor. 1622 10

With the rapid development of high-throughput techniques for identifying novel specific molecular targets in human cancer over the past few years, attention to targeted cancer therapy has dramatically increased. The term "targeted cancer therapy" refers to a new generation of drugs designed to interfere with a specific molecular target that is believed to play a critical role in tumor growth or progression, is not expressed significantly in normal cells, and is correlated with clinical outcome. There has been a rapid increase in the identification of targets that have potential therapeutic application. The clinical success of the small-molecule kinase inhibitor imatinib mesylate in chronic myeloid leukemia and gastrointestinal stromal tumors has accelerated the development of a new era of molecular targeted cancer therapy. The number of agents under preclinical and clinical investigation has grown accordingly. This emphasis on molecular biology and genetics has also resulted in significant changes in the treatment of gynecologic cancers. Several promising drugs targeting tyrosine kinases (EGFR and Her-2/Neu), mTOR, Raf kinase, proteasome, and histone deacetylases, as well as drugs affecting apoptosis and mitosis, are under development for clinical application. However, some clinical trials of p53 gene therapies and farnesyl transferase inhibitors have had limited success. In this review, we will focus on potential novel targets in gynecologic cancer and the development of targeted therapy and its clinical applications in gynecologic cancer.
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PMID:Targeted therapies in gynecologic cancers. 1684 24

Gastrointestinal (GI) stromal tumors (GISTs) are the most common mesenchymal tumors specific to the GI tract, generally defined as KIT (CD117)-positive tumors with a characteristic set of histologic features. These tumors, derived from Cajal cells or their precursors, most commonly occur at the age >50 years in the stomach (60%), jejunum and ileum (30%), duodenum (4-5%), rectum (4%), colon and appendix (1-2%), and esophagus (<1%), and rarely as apparent primary extragastrointestinal tumors in the vicinity of stomach or intestines. Their overall incidence has been estimated as 10 to 20 per million, including incidental minimal tumors. GISTs are rare in children (<1%) and almost exclusively occur in stomach. They are common in patients with neurofibromatosis 1, who have a predisposition to (multiple) small intestinal GISTs. GISTs contain a spectrum from minute indolent tumors to sarcomas at all sites of occurrence. Their gross patterns are diverse, including nodular, cystic, and diverticular tumors. External involvement of pancreas and liver can simulate primary tumor in these organs. In general, gastric tumors have a more favorable prognosis than the intestinal ones with similar parameters. Gastric GISTs < or =10 cm and < or =5 mitoses per 50 HPFs have a low risk for metastasis, whereas those with >5 per 50 HPFs and >5 cm in diameter have a high risk for metastasis. In contrast, all intestinal GISTs >5 cm independent of mitotic rate have at least moderate risk for metastases, and all >5 mitoses per 50 HPFs have a high risk for metastases. Intestinal GISTs < or =5 cm with < or =5 mitoses per 50 HPFs have a low risk for metastases. Gastric GISTs can be divided into histologic subgroups including 4 spindle cell and 4 epithelioid variants. Intestinal GISTs are a histologically more homogeneous group and often contain distinctive extracellular collagen globules, skeinoid fibers. Immunohistochemical demonstration of KIT, CD34, or protein kinase theta positivity helps to properly identify these tumors.
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PMID:Gastrointestinal stromal tumors: pathology and prognosis at different sites. 1719 20

For the subgroup of patients with inoperable gastrointestinal stromal tumors, progress has been made by the rapid development and approval of the targeted therapy imatinib mesylate. Small round cell sarcoma, such as Ewing/PNET, desmoplastic small round cell sarcoma and rhabdomyosarcoma, are chemotherapy-sensitive and potentially curable malignancies, which are treated with multimodality, dose-intensitive and neoadjuvant protocols regardless of size or overt metastatic disease. A limited number of effective agents available for the treatment of patients with metastatic adult soft-tissue sarcoma exists, which have failed anthracyline and ifosfamide-based chemotherapy. Most other high-grade (grading >I) so-called adult-type soft-tissue sarcomas such as fibro, lipo, pleomorphic and synovial sarcoma are treated with a anthracycline-based regimen with or without ifosfamide as front-line therapy. In this review, the therapeutic activities of drugs currently available as second-line treatment in patients with metastatic soft tissue sarcoma are summarized, providing an overview of contentious or emerging treatment issues. In relapsed 'adult-type' soft-tissue sarcomas trofosfamide, gemcitabine and ecteinascidin (ET-743) appear to be drugs associated with moderate activity and an acceptable toxicity profile. An interesting finding to be noted is that the different drugs have particular effects in distinct subtypes of soft-tissue sarcoma; however, it has to be taken into account that the number of patients included in those phase II trials are limited. The role of the newer agents (e.g. patupilone derivates, brostallicin) is currently not definable. The so-called selective therapy targeting vascular endothelial growth factor (receptor), epidermal growth factor receptor, c-kit, Raf kinase or platelet-derived growth factor receptor and bcl-2 antisensing, proteasome, protein kinase C/B, and mammalian target of rabamycin inhibition will continue to be tested in gastrointestinal stromal tumors patients refractory to imatinib mesylate as well as in selected sarcoma subtypes.
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PMID:Systemic treatment options for patients with refractory adult-type sarcoma beyond anthracyclines. 1726 55

Oncogenic KIT or PDGFRA receptor tyrosine kinase mutations are compelling therapeutic targets in gastrointestinal stromal tumors (GISTs), and the KIT/PDGFRA kinase inhibitor, imatinib, is standard of care for patients with metastatic GIST. However, most of these patients eventually develop clinical resistance to imatinib and other KIT/PDGFRA kinase inhibitors and there is an urgent need to identify novel therapeutic strategies. We reported previously that protein kinase C-theta (PKCtheta) is activated in GIST, irrespective of KIT or PDGFRA mutational status, and is expressed at levels unprecedented in other mesenchymal tumors, therefore serving as a diagnostic marker of GIST. Herein, we characterize biological functions of PKCtheta in imatinib-sensitive and imatinib-resistant GISTs, showing that lentivirus-mediated PKCtheta knockdown is accompanied by inhibition of KIT expression in three KIT+/PKCtheta+ GIST cell lines, but not in a comparator KIT+/PKCtheta- Ewing's sarcoma cell line. PKCtheta knockdown in the KIT+ GISTs was associated with inhibition of the phosphatidylinositol-3-kinase/AKT signaling pathway, upregulation of the cyclin-dependent kinase inhibitors p21 and p27, antiproliferative effects due to G(1) arrest and induction of apoptosis, comparable to the effects seen after direct knockdown of KIT expression by KIT short-hairpin RNA. These novel findings highlight that PKCtheta warrants clinical evaluation as a potential therapeutic target in GISTs, including those cases containing mutations that confer resistance to KIT/PDGFRA kinase inhibitors.
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PMID:Protein kinase C-theta regulates KIT expression and proliferation in gastrointestinal stromal tumors. 1852 Oct 81


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