EC:2.7.10.1 - FACTA Search

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Query: EC:2.7.10.1 (ERK)
95,504 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We report a new mechanism of aberrant pre-mRNA splicing resulting in constitutive activation of a mis-spliced oncoprotein (KIT) leading to malignancy (gastrointestinal stromal tumor) in contrast to loss of function of mis-spliced proteins resulting in diverse human diseases in the literature. The mechanisms of three consecutive molecular events, deletion of noncoding and coding regions encompassing the 3' authentic splice site, creation of a novel intra-exonic pre-mRNA 3' splice acceptor site leading to in-frame loss of 27 nucleotides (nine amino acids; Lys550-Lys558), and the mechanism of constitutive activation of the mis-spliced KIT are elucidated. Loss of a peptide in a critical location unleashed the protein from autoinhibition (as evidenced by three-dimensional structural analysis), causing KIT to become constitutively activated and resulting in the GIST phenotype. We also demonstrated that only one of the following two exonic splicing enhancers is sufficient for inclusion of the KIT exon 11 in vivo: AACCCATGT (nucleotides 2-10 from the 5' end, which are recognized by SC35, SRp55, and SF2/ASF) or GGTTGTTGAGG (nucleotides 27-37 from the 5' end, which are recognized by SC35 and SRp55), suggestive of exonic enhancer redundancy.
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PMID:A mutation-created novel intra-exonic pre-mRNA splice site causes constitutive activation of KIT in human gastrointestinal stromal tumors. 1582 41

Imatinib targets KIT and platelet-derived growth factor receptors (PDGFR) and is highly effective in the treatment of CML and GIST patients. Pancreatic cancers express KIT and PDGFRs. Therefore, 26 patients with unresectable pancreatic cancer were randomized to either gemcitabine (1000 mg/m2 weekly) or imatinib (2x400 mg po) treatment daily. Pancreatic adenocarcinoma was confirmed histologically and expression of KIT and PDGFRbeta was determined immunohistochemically in the biopsy specimens. Quality of life was assessed with two standard questionnaires. No objective responses were seen in either group. Median time to progression was 77 and 29 days (P=0.411) and median survival time was 140 and 60 days (P=0.517) for gemcitabine and imatinib, respectively. Survival and treatment responses were independent of KIT and PDGFRbeta expression in patients treated with imatinib. Grade 3/4 toxicities of imatinib treatment were anemia, elevated liver enzymes, vomiting, and dyspnea. Patients treated with imatinib reported diarrhoea and/or altered bowel function more frequently, which were treatable symptomatically. Quality of life was similar in both groups. In this small series of pancreatic cancer patients, treatment with imatinib was not associated with a significant control of cancer progression.
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PMID:The tyrosine kinase inhibitor imatinib fails to inhibit pancreatic cancer progression. 1589 16

We report on the first case of benign perineurially differentiated peripheral nerve sheath tumor (perineurioma) presenting as a bleeding gastric mass in a 30-year-old, previously healthy woman with no signs or stigmata of von Recklinghausen's disease or other primary tumor at time of presentation. Gastric resection specimen revealed an ulcerated moderately cellular mesenchymal tumor consisting of elongated wavy spindle cells arranged in a fascicular and sheet-like pattern with focal whorling and occasional alternation of dark staining cellular and light staining hypocellular areas. Tumor cells were strongly immunoreactive for epithelial membrane antigen, CD56 (N-CAM), and vimentin, but were negative for S-100-protein and other lineage-specific epithelial, mesenchymal, hematolymphoid, and reticulo-histiocytic markers. CD117 revealed numerous positive staining mast cells, but the lesional cells were not reacting. We presume that the combined histological and immunohistochemical profiles of this unusual gastric neoplasm are consistent with a diagnosis of perineurioma with a probably benign biological behavior. To our knowledge, this is the first report of gastric perineurioma, an extremely rare mesenchymal lesion that should be considered among the differential diagnoses of gastrointestinal stromal tumor, especially the so-called KIT-negative GIST. Gastrointestinal perineuriomas might be under-recognized, as our case was initially diagnosed as a benign GIST.
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PMID:Perineurioma of the stomach. A rare spindle cell neoplasm that should be distinguished from gastrointestinal stromal tumor. 1613 53

Gastrointestinal stromal tumors are those gastrointestinal tumors , which expression antigens for CD 117 and CD 34. GIST arise from c - kit gene mutation through inadequate function of KIT enzyme (thyroxine kinase). However, the name is gastrointestinal stromal tumor, their localisation maybe under esophagus, stomach, duodenum, small bowel or colorectal.. CT scanning shows tumoral mass with nonspecific affiliation thanks to this development extraluminal and exophytic. Digestive hemorrhage, through GIST with small bowel localisation was called "obscure" because of impossibility to detect preoperative a bleeding source. We present, two cases of hemorrhage through GIST with jejunal localisation, male 70 years old with 10 cm tumor, discovered through CT scanning such as tumoral mass in left hypochondrium and female 55 years old, with 3 m tumor, discovered through emergency laparotomy for severe digestive bleeding. Also, it is discussed the possibility of intraoperative diagnosis, criterion to appreciate benign and malign features of the tumors and to determine their mitotic index for the supervision of these two cases.
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PMID:[Gastrointestinal stromal tumor (GIST) with jejunum localisation, unusual source of digestive bleeding. Considerations about two cases]. 1623 4

Soft tissue sarcomas are rare and may be a source of problems for diagnosis and treatment. Four types of genetic disorders can be distinguished: translocations, gene amplifications, mutations and complex genetic imbalances. Detection of these disorders may help in diagnosis and in determining prognosis. Detection of specific translocation is recommended in synovial sarcoma, alveolar rhabdomyosarcoma or PNET diagnosis because of therapeutic consequences; in case of rarer histologic type (low grade fibromyxoid sarcoma, clear cell sarcoma, infantile fibrosarcoma...), it may confirm the diagnosis. In some cases, some translocations have a prognostic value (alveolar rhabdomyosarcoma) whereas it is discussed in others (synovial sarcoma). The techniques used to detect these translocations are very sensitive so it may be used to detect microscopical metastasis (bone marrow metastasis of alveolar rhabdomyosarcoma for example). Detection of MDM2 and CDK4 genes amplifications (FISH or quantitative PCR) may be sometimes useful in well differentiated and dedifferentiated liposarcomas diagnosis. Mutation detection of KIT or PDGFRA may help in GIST diagnosis and type of mutation is predictive of response to treatment. Study of complex genomic imbalances in sarcomas is not used in routine practice but remains useful in research.
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PMID:[Soft tissue sarcomas: update on molecular data]. 1644 27

Gastrointestinal (GI) stromal tumors (GISTs), the specific KIT- or PDFGRA-signaling driven mesenchymal tumors, are the most common mesenchymal tumors of the GI tract. This study analyzed 1091 tumors originally classified as smooth muscle tumors of the small intestine (including jejunum or ileum and excluding duodenum), and found that 906 (83%) of these were GISTs. The GIST patients had 55:45 male-to-female ratio with a median age of 59 years (range, 13-94 years). Only 0.6% of tumors occurred before the age of 21 years and 13.6% before the age of 40 years. The tumors varied from 0.3 to 40 cm (median, 7.0 cm) and most commonly presented with GI bleeding or acute abdomen; 18% were incidentally detected. Histologically, the tumors were relatively monotypic with spindle cell (86%), epithelioid (5%), or mixed patterns (9%). Skeinoid fibers were present in 44% of cases, and their presence was associated with a favorable course. Most epithelioid tumors were malignant, and this morphology sometimes emerged from less cellular and less mitotically active spindle cell tumors, suggesting that it represented a transformation. KIT was immunohistochemically detected in 98%, CD34 in 40%, smooth muscle actin in 34%, desmin in 0.2%, and S-100 protein in 14% of the tumors tested. Outcome was strongly dependent on tumor size and mitotic activity, with an overall 39% tumor-related mortality, twice that for gastric GISTs. Only <3% of tumors <5 cm and < or = 5 mitoses/50 HPF metastasized, whereas 86% of tumors >10 cm and >5 mitoses/50 HPF metastasized. In stark contrast to corresponding gastric tumors, tumors >10 cm with mitotic activity < or = 5/50 HPF and those < or = 5 cm with mitoses >5/50 HPF had a high metastatic rate (>50%); tumors >5 cm < or = 10 cm with low mitotic rate had a 24% metastatic rate. The median survival times of patients with low mitotic rate tumors who died of disease decreased by increasing tumor size. KIT exon 11 mutations were detected in 90 cases, exon 9 mutation in 17 cases, and exon 17 mutation in 1 case; the presence of mutation or mutation type was not prognostically significant. There were no PDGFRA exon 12 or 8 mutations. Systematic data on prognosis of small intestinal GISTs of various size and mitotic activity categories can be helpful in management and surveillance of patients with these tumors.
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PMID:Gastrointestinal stromal tumors of the jejunum and ileum: a clinicopathologic, immunohistochemical, and molecular genetic study of 906 cases before imatinib with long-term follow-up. 1700 Nov 71

ZD6474 (Zactima, AstraZeneca, Macclesfield, UK) is an orally available, small-molecule inhibitor of vascular endothelial growth factor receptor-2 and epidermal growth factor receptor tyrosine kinases, with additional activity versus rearranged during transfection (RET). This study explored the effect of ZD6474 in gastrointestinal stromal tumor-T1 (GIST-T1) cells that possess a gain of function mutation in exon 11 of the c-KIT gene. ZD6474 induced growth arrest and apoptosis of GIST-T1 cells in association with blockade of c-Kit and its downstream effectors, including Akt and extracellular signal-regulated kinase (ERK). ZD6474 treatment also blocked the mammalian target of rapamycin (mTOR), which lies downstream of Akt and ERK. Interestingly, when ZD6474 was combined with sunitinib (SU11248; Sutent, Pfizer, Kalamazoo, MI, USA), a class III and V receptor tyrosine kinase inhibitor, the ZD6474-mediated growth inhibition was potentiated in association with further down-regulation of the mTOR targets p-p70S6K and p-4E-BP-1. The combination of ZD6474 and sunitinib should be investigated further.
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PMID:ZD6474 induces growth arrest and apoptosis of GIST-T1 cells, which is enhanced by concomitant use of sunitinib. 1699 74

The prognosis of patients with a GIST improved significantly since the introduction of imatinib mesylate treatment, leading to disease control in 70% to 85% of patients. The response depends on the presence/ absence and type of mutations in the KIT or Platelet derived growth factor receptor. Unfortunately, we are increasingly faced with the problem of resistance to imatinib treatment, mainly secondary resistance, which by definition occurs after at least 6 months of initial response to the drug. The effects of imatinib on a GIST are still in full exploration and this review focuses upon the available data on the phenotype and genotype of a GIST treated with imatinib. Two settings are elaborated separately, a responding/stable GIST, and a resistant GIST. In addition, the attention will be drawn to remarkable (immuno)phenotypic changes that can occur in a GIST under imatinib treatment.
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PMID:GIST under imatinib therapy. 1719 21

Mutually exclusive KIT and PDGFRA mutations are central events in GIST pathogenesis, and their understanding is becoming increasingly important, because specific treatment targeting oncogenic KIT and PDGFRA activation (especially imatinib mesylate) has become available. KIT mutations in GIST are clustered in four exons. Most common are exon 11 (juxtamembrane domain) mutations that include deletions, point mutations (affecting a few codons), and duplications (mostly in the 3' region). The latter mutations most often occur in gastric GISTs. Among gastric GISTs, tumors with deletions are more aggressive than those with point mutations; this does not seem to hold true in small intestinal GISTs. Exon 9 mutations (5-10%) usually are 2-codon 502-503 duplications, and these occur predominantly in intestinal versus gastric GISTs. Lesser imatinib sensitivity of these tumors has been noted. Kinase domain mutations are very rare; GISTs with such mutations are variably sensitive to imatinib. PDGFRA mutations usually occur in gastric GISTs, especially in the epithelioid variants; their overall frequency is approximately 30% to 40% of KIT mutation negative GISTs. Most common is exon 18 mutation leading Asp842Val at the protein level. This mutation causes imatinib resistance. Exon 12 and 14 mutations are rare. Most mutations are somatic (in tumor tissue only), but patients with familial GIST syndrome have consitutitonal KIT/PDGFRA mutations; >10 families have been reported worldwide with mutations generally similar to those in sporadic GISTs. GISTs in neurofibromatosis 1 patients, children, and Carney triad seem to lack GIST-specific KIT and PDGFRA mutations and may have a different disease mechanism. Secondary mutations usually occur in KIT kinase domains in patients after imatinib treatment resulting in resistance to this drug. Mutation genotyping is a tool in GIST diagnosis and in assessment of sensitivity to kinase inhibitors. This is a US government work. There are no restrictions on its use.
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PMID:KIT and PDGFRA mutations in gastrointestinal stromal tumors (GISTs). 1719 22

Availability of KIT tyrosine kinase inhibitors for specific treatment of GISTs has magnified the importance of accurate differential diagnosis of GIST from other tumors occurring in the GI tract and abdomen. The general problems in this distinction include histological mimicry of other mesenchymal tumors with GIST, occasional KIT-negativity of GIST, and KIT-positivity of non-GISTs. Up to 5% to 10% gastric GISTs and <2% of intestinal GISTs can be KIT-negative. The identification of these tumors as GISTs is based on knowledge of the spectrum of GIST morphology, and can be supported by molecular diagnosis of KIT and PDGFRA mutations (the latter pertain to gastric tumors). True smooth muscle tumors (rare in GI tract except in esophagus and colon) can be separated from GISTs by the eosinophilic tinctorial quality of tumor cells, positivity for smooth muscle markers, and negativity for KIT. Desmoids can form large GIST-like masses, but are composed of spindled or stellate-shaped cells in a densely collagenous stroma. Negativity for KIT and nuclear positivity for beta-catenin are differentiating features. GI schwannomas, melanoma, and rare primary clear cell sarcoma are S100-positive, usually with characteristic histology. The latter two can be KIT-positive. KIT-positive non-GISTs include some sarcomas, especially angiosarcoma and Ewing sarcoma, extramedullary myeloid tumor, seminoma, and a few carcinomas, notably small cell carcinoma of lung. Spurious KIT-positivity, seen with some polyclonal KIT antibodies, has been a source of confusion leading to probable false-positive results in fibroblastic tumors and occasional other sarcomas, such as leiomyosarcomas. Integration of histological features with carefully standardized immunohistochemistry, supported by KIT and PDGFRA mutation analysis, is the cornerstone of state-of-the art differential diagnosis of GIST. To comprehensively capture all GISTs, KIT immunostains should be performed on all unclassified epithelioid and mesenchymal tumors of the abdomen. This is a US government work. There are no restrictions on its use.
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PMID:Gastrointestinal stromal tumors: differential diagnosis. 1719 24

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