UNIPROT:P42345 - FACTA Search

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Query: UNIPROT:P42345 (mTOR)
26,049 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Most gastrointestinal stromal tumor (GIST) patients respond to KIT inhibition with imatinib, yet will eventually exhibit resistance. Imatinib-resistance mechanisms are heterogeneous, and little is known about KIT functional roles in imatinib-resistant GIST. Biological consequences of biochemical inhibition of KIT, phosphatidyl-inositol-3-kinase (PI3-K), PLCgamma, MAPK/ERK kinase/mitogen-activated protein kinase (MEK/MAPK), mammalian target of rapamycin (mTOR) and JAK were determined by immunoblotting for protein activation, and by cell proliferation and apoptosis assays in GIST cell lines from imatinib-sensitive GIST (GIST882), imatinib-resistant GISTs (GIST430 and GIST48) and KIT-negative GIST (GIST62). KIT activation was 3- to 6-fold higher in GIST430 and GIST48 than in GIST882, whereas total KIT expression was comparable in these three GIST lines. In addition to the higher set point for KIT activation, GIST430 and GIST48 had intrinsic imatinib resistance. After treatment with 1 muM imatinib, residual KIT activation was 6- and 2.8-fold higher in GIST430 and GIST48, respectively, compared to GIST882. In all GIST lines, cell growth arrest resulted from PI3-K inhibition, and - to a lesser extent - from MEK/MAPK and mTOR inhibition. Inhibition of JAK/STAT or PLCgamma did not affect cell proliferation. Similarly, only PI3-K inhibition resulted in substantial apoptosis in the imatinib-resistant GISTs. We conclude that GIST secondary KIT mutations can be associated with KIT hyperactivation and imatinib resistance. Targeting critical downstream signaling proteins, such as PI3-K, is a promising therapeutic strategy in imatinib-resistant GISTs.
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PMID:KIT oncogenic signaling mechanisms in imatinib-resistant gastrointestinal stromal tumor: PI3-kinase/AKT is a crucial survival pathway. 1754 49

Traditional cytotoxic chemotherapy is effective at temporizing AML in the majority of patients but cures a small minority. Thus, enrollment in clinical trials remains a recommended approach for nearly all patients. While signal transduction inhibition is a promising area to advance AML therapy, no agent as monotherapy has demonstrated obvious clinical benefit over traditional cytotoxic chemotherapy. Tipifarnib is perhaps an exception as it is the only signal transduction inhibitor in AML that reproducibly shows clinical benefit using traditional chemotherapy response criteria. Due to toxicity and low response rates, however, the potential advantages of tipifarnib over either traditional cytotoxic chemotherapy or best supportive care alone await confirmation from phase III studies. Available data suggest that combining signal transduction inhibitors with chemotherapy will improve response rates. Clinical trials to test this hypothesis are ongoing using various agents directed against targets such as FLT3, ras/raf/MAPK, mTOR, KIT, and VEGF, but the optimal approach is yet to be defined. Similarly unclear is the benefit of a potent specific kinase inhibitor versus a broad inhibitor of multiple kinases that could prove relevant to leukemia biology. In general, the incomplete understanding of many signal transduction inhibitors' true mechanism of action limits our ability to identify pretreatment predictors of response. To this end, the extensive measures applied to correlate the biologic activity of FLT3 inhibitors with clinical responses are noteworthy and provide useful lessons for clinical trial design and drug development both in leukemia and other cancers.
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PMID:Exploiting signal transduction pathways in acute myelogenous leukemia. 1809 42

Constitutive activation of the phosphoinositide 3-kinase (PI3K)-AKT pathway is observed in up to 70% of acute myelogenous leukemia. To investigate the relevance of an intrinsic PI3K-AKT pathway activation in hematopoietic malignancies, we analysed the effect of point mutations in the catalytic (p110alpha) and regulatory (p85alpha) subunit of class IA PI3K. We demonstrated that mutations in the helical (E542K, E545A) and kinase domain (H1047R) of p110alpha constitutively activate the PI3K-AKT pathway and lead to factor-independent growth of early hematopoietic cells. Proliferation and survival of the cells were inhibited in a time- and dose-dependent manner using either PI3K or AKT inhibitors. The mammalian target of rapamycin (mTOR) was demonstrated to be important for mitogenic, but not antiapoptotic signaling of mutant p110alpha. In a syngenic mouse model, hematopoietic cells expressing mutated p110alpha induced a leukemia-like disease characterized by anemia, neoplastic infiltration of hematopoietic organs and 90% mortality within 5 weeks, whereas activated mutants of the receptor tyrosine kinase c-KIT led to 100% mortality within 10 days. Our data show that point mutations in the p110alpha subunit of class IA PI3K confer factor independence to hematopoietic cells in vitro and leukemogenic potential in vivo, but have lower transforming activity than a deregulated class III receptor tyrosine kinase.
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PMID:Mutations in the catalytic subunit of class IA PI3K confer leukemogenic potential to hematopoietic cells. 1831 50

Gastrointestinal Stromal Tumor (GIST) is the most common mesenchymal neoplasm of the gastrointestinal tract, and it is characterized by the occurrence, in > 90 % of cases, of a gain of function mutation in the c-kit proto-oncogene. STI-571 (imatinib mesylate), a selective KIT tyrosine kinase inhibitor, has changed the natural history of this disease, since it has shown high effectiveness in metastatic GIST, and it is currently under investigation also in the adjuvant and neoadjuvant setting. Mechanisms of resistance to imatinib mesylate include both de novo, and, more frequently, acquired resistance, which may occur after several months of drug administration and possibly depends, in most cases, upon an acquired second mutation. In order to overcome imatinib mesylate resistance, the addition of other drugs may be considered in patients who have less than an optimal response to imatinib mesylate monotherapy. Investigational agents that are being studied in this setting include the mammalian target of rapamycin (mTOR) inhibitor RAD 001 and the protein kinase C inhibitor PKC412. In addition, other KIT tyrosine kinase inhibitors with anti-VEGF receptor inhibitory activity, such as SU11248, PTK787/ZK787 and AMG 706, are currently being explored as second line monotherapy for imatinib mesylate-resistant GIST. Finally, another new drug, ecteinascidin (ET-743), that blocks cell cycle progression in G2/M phase through a p53-independent apoptotic mechanism, has shown important preclinical and clinical activity against a number of human solid tumors, including GIST.
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PMID:Medical treatment of gastrointestinal stromal tumors: state of the art and future perspectives. 1839 78

Gastrointestinal stromal tumors (GISTs) comprise a recently defined entity of the most common mesenchymal neoplasms of the gastrointestinal tract. Advances in the understanding of the molecular mechanisms of GIST pathogenesis have resulted in the development of a treatment approach which has become a model of targeted therapy in oncology. The introduction of imatinib mesylate (inhibiting KIT/PDGFRA (platelet-derived growth factor receptor-alpha) and their downstream signaling cascade) has revolutionized the therapy of advanced (inoperable and/or metastatic) GISTs. Imatinib has now become the standard of care in the treatment of patients with advanced GIST. However, a majority of patients eventually develop clinical resistance to imatinib. Over the last few years major progress has been made in elucidating the mechanism of disease progression (as secondary mutations in KIT and/or PDGFRA kinase domains) and resistance to imatinib. Currently, the sole approved second-line drug is sunitinib--a multitargeted agent, an inhibitor of tyrosine kinase, of KIT and PDGFRA/B and of the vascular endothelial growth factor receptors (VEGFRs)-1, -2 and 3, FMS-like tyrosine kinase-3 (FLT3), colony stimulating factor 1 receptor (CSF-1R), and glial cell-line derived neurotrophic factor receptor (REarranged during Transfection; RET). However, a number of new generation tyrosine kinase inhibitors, alone or in combination, are being evaluated at present alongside treatment options alternative to inhibiting the KIT signaling pathway (as heat shock protein 90 or mammalian target of rapamycin). This article discusses the factors relating to imatinib resistance as well as upcoming potentially effective treatment options for patients with progressive disease available in 2008 and those under investigation with more individualized treatment methods, which has been recently patented. This review focuses on the current achievements in targeted therapy of advanced GISTs, and how the insight into the resistance mechanisms may allow in the near future to treat patients with advanced GISTs.
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PMID:Developments in targeted therapy of advanced gastrointestinal stromal tumors. 1853 51

Gastrointestinal stromal tumor (GIST) is the most common mesenchymal neoplasm in the gastrointestinal tract and is associated with mutations of the KIT or PDGFRA gene. In addition, other genetic events are believed to be involved in GIST tumorigenesis. Cytogenetic aberrations associated with these tumors thus far described include loss of 1p, 13q, 14q, or 15q, loss of heterozygosity of 22q, numeric chromosomal imbalances, and nuclear/mitochondrial microsatellite instability. Molecular genetic aberrations include loss of heterozygosity of p16(INK4A) and p14(ARF), methylation of p15(INK4B), homozygous loss of the Hox11L1 gene, and amplification of C-MYC, MDM2, EGFR1, and CCND1. GISTs in patients with neurofibromatosis type 1 appear to lack the KIT and PDGFRA mutations characteristic of GISTs and may have a different pathogenetic mechanism. Gene mutations of KIT or PDGFRA are critical in GISTs, because the aberrant versions not only are correlated with the specific cell morphology, histologic phenotype, metastasis, and prognosis, but also are the targets of therapy with imatinib and other agents. Furthermore, specific mutations in KIT and PDGFR appear to lead to differential drug sensitivity and may in the future guide selection of tyrosine kinase inhibitors. Activation of the receptor tyrosine kinases involves a signal transduction pathway whose components (mitogen-activated protein kinase, AKT, phosphoinositide 3-kinase, mammalian target of rapamycin, and RAS) are also possible targets of inhibition. A new paradigm of classification, integrating the standard clinical and pathological criteria with molecular aberrations, may permit personalized prognosis and treatment.
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PMID:Genetic aberrations of gastrointestinal stromal tumors. 1867 Dec 47

Gastrointestinal stromal tumours (GISTs) with deletions in KIT exon 11 are characterized by higher proliferation rates and shorter disease-free survival times, compared to GISTs with KIT exon 11 point mutations. Up-regulation of cyclin D is a crucial event for entry into the G1 phase of the cell cycle, and links mitogenic signalling to cell proliferation. Signalling from activated KIT to cyclin D is directed through the RAS/RAF/ERK, PI3K/AKT/mTOR/EIF4E, and JAK/STATs cascades. ERK and STATs initiate mRNA transcription of cyclin D, whereas EIF4E activation leads to increased translation efficiency and reduced degradation of cyclin D protein. The aim of the current study was to analyse the mRNA and protein expression as well as protein phosphorylation of central hubs of these signalling cascades in primary GISTs, to evaluate whether tumours with KIT exon 11 deletions and point mutations differently utilize these pathways. GISTs with KIT exon 11 deletions had significantly higher mitotic counts, higher proliferation rates, and shorter disease-free survival times. In line with this, they had significantly higher expression of cyclin D on the mRNA and protein level. Furthermore, there was a significantly higher amount of phosphorylated ERK1/2, and a higher protein amount of STAT3, mTOR, and EIF4E. PI3K and phosphorylated AKT were also up-regulated, but this was not significant. Ultimately, GISTs with KIT exon 11 deletions had significantly higher phosphorylation of the central negative cell-cycle regulator RB. Phosphorylation of RB is accomplished by activated cyclin D/CDK4/6 complex, and marks a central event in the release of the cell cycle. Altogether, these observations suggest increased KIT signalling with up-regulation of cyclin D as the basis for the unfavourable clinical course in GISTs with KIT exon 11 deletions.
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PMID:Increased KIT signalling with up-regulation of cyclin D correlates to accelerated proliferation and shorter disease-free survival in gastrointestinal stromal tumours (GISTs) with KIT exon 11 deletions. 1872 75

Gastrointestinal stromal tumors (GISTs) generally arise from primary activating mutations in the KIT or PDGFRA genes that result in constitutive activation of receptor tyrosine kinase activity. Imatinib provides targeted therapy for GIST by inhibiting the KIT and PDGFR-alpha tyrosine kinases. Clinical benefit is achieved in approximately 85% of patients with unresectable or metastatic disease, with a median progression-free survival of 20 to 24 months. The mechanisms of acquired resistance to imatinib are heterogeneous, with most involving the emergence of secondary mutations in KIT exons 13, 14, or 17. In patients failing or intolerant to imatinib, the multitargeted agent sunitinib achieves durable disease control in approximately 50% of cases. Experimental treatment options beyond those currently available consist of other KIT-targeting tyrosine kinase inhibitors, such as nilotinib, or agents targeting alternative pathways, such as antiangiogenic agents, mammalian target of rapamycin, RAF kinase, and chaperone inhibitors.
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PMID:Novel approaches to imatinib- and sunitinib-resistant GIST. 1877 61

The article reviews the main molecular pathology alterations of endometrial and ovarian carcinomas and melanoma. Several promising drugs targeting the genes most frequently altered in these tumors are under consideration. The most promising signaling pathways to be targeted for therapies in these tumors are the tyrosine kinase receptor (EGFR, HER2, c-KIT), the RAS/B-RAF/MAPK, the PI3K-mTOR, and apoptosis signaling pathways.
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PMID:Targeted therapies in gynecologic cancers and melanoma. 1901 92

Targeted therapies are widely used in cancer because of their effectiveness, even in tumours that are resistant to conventional chemotherapy such as kidney or hepatocellular carcinomas. There are different families classified according to their mode of action. The antiangiogenics block tumor angiogenesis by acting on VEGF or its receptor. The main molecules are bevacizumab, sunitinib, and sorafinib. HER inhibitors work by blocking these receptors, which control different signaling intracellular pathways, and include an inhibitor of HER2, trastuzumab, and various inhibitors of HER1, or EGFR, including cetuximab, erlotinib, and gefitinib. Inhibitors of KIT, a membrane receptor, are mainly represented by imatinib, an inhibitor of tyrosine kinase. Finally, mTOR inhibitors act on the signaling pathway PI3K/AKT/mTOR, and key molecules are temsirolimus, everolimus, and deforolimus.
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PMID:[Targeted therapies and their indications in solid neoplasias]. 1929 48

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