UNIPROT:P42345 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P42345 (mTOR)
26,049 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Protein kinases have emerged as one of the most promising targets for rational drug discovery. In a similar manner to imatinib mesylate (Gleevec), hematological malignancies offer multiple pharmacologic opportunities for manipulation of kinase-induced tumor cell proliferation. Certain kinases have been validated as targets for drug discovery in hematological malignancies (such as BCR-ABL and FLT3); other novel kinases hold considerable interest for targeted intervention: myeloid leukemias (KDR, KIT, CSF-1R, RAS and RAF), lymphoid leukemias (JAK2 fusion protein, TIE-1, CDK modulators), lymphoma (ALK, CDK modulators, mTOR), myeloproliferative disorders (PDGF-R or FGF-R fusion gene products, FGF-R1) and myeloma (FGF-R3, STAT3). Over the past five years, the number of kinase-targeted drug therapies undergoing clinical development has increased exponentially. This review will focus on novel kinase targets currently undergoing preclinical and clinical investigation.
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PMID:Kinases as drug discovery targets in hematologic malignancies. 1630 89

Anaplastic large cell lymphomas (ALCLs) are highly proliferating tumors that commonly express the AP-1 transcription factor JunB. ALK fusions occur in approximately 50% of ALCLs, and among these, 80% have the t(2;5) translocation with NPM-ALK expression. We report greater activity of JunB in NPM-ALK-positive than in NPM-ALK-negative ALCLs. Specific knockdown of JUNB mRNA using small interfering RNA and small hairpin RNA in NPM-ALK-expressing cells decreases cellular proliferation as evidenced by a reduced cell count in the G2/M phase of the cell cycle. Expression of NPM-ALK results in ERK1/2 activation and transcriptional up-regulation of JUNB. Both NPM-ALK-positive and -negative ALCL tumors demonstrate active ERK1/2 signaling. In contrast to NPM-ALK-negative ALCL, the mTOR pathway is active in NPM-ALK-positive lymphomas. Pharmacological inhibition of mTOR in NPM-ALK-positive cells down-regulates JunB protein levels by shifting JUNB mRNA translation from large polysomes to monosomes and ribonucleic particles (RNPs), and decreases cellular proliferation. Thus, JunB is a critical target of mTOR and is translationally regulated in NPM-ALK-positive lymphomas. This is the first study demonstrating translational control of AP-1 transcription factors in human neoplasia. In conjunction with NPM-ALK, JunB enhances cell cycle progression and may therefore represent a therapeutic target.
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PMID:The oncoprotein NPM-ALK of anaplastic large-cell lymphoma induces JUNB transcription via ERK1/2 and JunB translation via mTOR signaling. 1769 Feb 53

Constitutive expression of the chimeric NPM/ALK fusion protein encoded by the t(2;5)(p32;q35) is a key oncogenic event in the pathogenesis of most anaplastic large cell lymphomas (ALCLs). The proteomic network alterations produced by this aberration remain largely uncharacterized. Using a mass spectrometry (MS)-driven approach to identify changes in protein expression caused by the NPM/ALK fusion, we identified diverse NPM/ALK-induced changes affecting cell proliferation, ribosome synthesis, survival, apoptosis evasion, angiogenesis, and cytoarchitectural organization. MS-based findings were confirmed using Western blotting and/or immunostaining of NPM/ALK-transfected cells and ALK-deregulated lymphomas. A subset of the proteins distinguished NPM/ALK-positive ALCLs from NPM/ALK-negative ALCLs and Hodgkin lymphoma. The multiple NPM/ALK-deregulated pathways identified by MS analysis also predicted novel biologic effects of NPM/ALK expression. In this regard, we showed loss of cell adhesion as a consequence of NPM/ALK expression in a kinase-dependent manner, and sensitivity of NPM/ALK-positive ALCLs to inhibition of the RAS, p42/44ERK, and FRAP/mTOR signaling pathways. These findings reveal that the NPM/ALK alteration affects diverse cellular pathways, and provide novel insights into NPM/ALK-positive ALCL pathobiology. Our studies carry important implications for the use of MS-driven approaches for the elucidation of neoplastic pathobiology, the identification of novel diagnostic biomarkers, and pathogenetically relevant therapeutic targets.
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PMID:The proteomic signature of NPM/ALK reveals deregulation of multiple cellular pathways. 1953 56

Treatment outcomes in advanced or metastatic non-small-cell lung cancer (NSCLC) remain unsatisfactory, with low long-term survival rates. Palliative chemotherapy offers a median survival not exceeding 1 year. To date, various combinations of cytotoxic drugs have not improved treatment results beyond what has been observed with platinum doublets. By contrast, molecular targeted drugs may block important pathways that drive cancer progression and achieve long-term disease control. Conflicting results have demonstrated marginal benefit with EGFR inhibitors, anti-EGFR monoclonal antibodies and antiangiogenic strategies in unselected populations of patients with advanced NSCLC. However, patients with an EGFR mutation are likely to respond to agents that target this gene. Novel targeted therapies that interfere with insulin-like growth factor 1 receptor, or the EML4-ALK fusion protein have shown promising activity. Aberrations in other key signaling pathways and molecules, such as RAS/RAF/MEK, PI3K/AKT/mTOR, or MET kinase, have been identified as crucial targets, especially in resistant patients. Novel drugs aimed at these abnormalities are already in the clinic. This Review outlines the current state-of-the-art research for targeted therapy in NSCLC.
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PMID:Targeted therapy in non-small-cell lung cancer--is it becoming a reality? 2055 45

Over the past decade, a multitude of targeted agents have been explored in the treatment of advanced non-small cell lung cancer (NSCLC). Thus far, two broad classes of agents have been implemented in clinical practice: (a) vascular endothelial growth factor (VEGF)-directed therapies and (b) antagonists of the epidermal growth factor receptor (EGFR). In the former category, the agent bevacizumab (a monoclonal antibody) has shown landmark improvements in survival when added to cytotoxic therapy. Small molecule tyrosine kinase inhibitors (TKI) targeting the VEGF receptor (i.e., sunitinib, sorafenib, and vandetanib) show activity in phase II clinical studies. With respect to EGFR-directed therapies, the TKIs gefitinib and erlotinib have shown significant benefit, and have uncovered valuable information about the biology of lung cancer. Outside of therapies directed specifically at VEGF- and EGFR-mediated signaling, trials evaluating insulin-like growth factor-1 receptor (IGF-IR)-targeting agents, cyclooxygenase-2 (COX-2) inhibitors, c-met inhibitors, irreversible pan-HER inhibitors, mammalian target of rapamycin (mTOR) inhibitors, and histone deacetylase (HDAC) inhibitors are ongoing. Inhibitors of ALK show great promise in patients with the relevant gene translocation. Herein, the clinical development of novel therapies for NSCLC is described, including some discussion of relevant biomarkers and determination of synergy with both cytotoxic therapy and other targeted agents.
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PMID:Targeted therapies for non-small cell lung cancer: an evolving landscape. 2057 Oct 71

Non-small-cell lung cancer (NSCLC) has recently been associated with interesting molecular characteristics that have important implications in carcinogenesis and response to targeted therapies. The unsatisfactory treatment outcomes in advanced NSCLC with respect to long-term survival rates may be improved through a better understanding of the molecular etiology of this disease. For instance, several molecular alterations have been defined as "driver mutations," such as mutations in epidermal growth factor receptor (EGFR), Kirsten-rous avian sarcoma (KRAS), and a chromosome 2p inversion producing an EML4-ALK fusion gene (echinoderm microtubule-associated protein-like 4 fused with the anaplastic lymphoma kinase). Other key signaling pathways such as RAS/RAF/MEK, PI3K/AKT/mTOR (mammalian target of rapamycin), mesenchymal-epithelial transition (MET) kinase, LKB1, and insulin-like growth factor 1 (IGF-1) receptor (IGF-1R) have also been identified as novel targets for lung cancer treatment. In this review we focus on the molecular discoveries that have led to the clinical applications and trials of novel targeted agents, including the clinical trials that selectively studied patients who were predicted to achieve the greatest benefit based on the expression of correlative biomarkers.
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PMID:Oncogenic pathways, molecularly targeted therapies, and highlighted clinical trials in non-small-cell lung cancer (NSCLC). 2215 78

The oncologist dream is to provide more benefit with lower toxicity. The increasing knowledge of molecular mechanism for survival and proliferation of cancer cells leads to the development of targeted therapies with impressive results for some cancers even if not associated with chemotherapy. These targeted treatments could be monoclonal antibodies or tyrosine kinase inhibitors. Inactivation of only one oncogene can lead to the regression of tumours as well as the inhibition of only one pathway with one or more inhibitors. This result is related to the oncogenic addiction of these tumours. Examples are imatinib in CML and GIST, trastuzumab in HER2 positive breast cancer, gefitinib in mutated EGFR, crizotinib in EML4-ALK positive lung cancer and, also, vemurafenib in BRAF 600E mutated metastatic melanoma. We shall specifically discuss HER2 positive breast cancer, which represent some 15-20% of breast cancers and the recent targeted and bi-targeted therapies. Trastuzumab, an anti-HER2 monoclonal antibody has changed the prognosis of the disease improving survival in the metastatic and adjuvant setting. Lapatinib, a dual tyrosine kinase inhibitor of EGFR and HER2 is approved with capecitabine in trastuzumab resistant patients and in combination with letrozole in first line. Unfortunately, 20% of patients receiving adjuvant trastuzumab relapse and metastatic patients only transienly respond to trastuzumab or lapatinib combined with chemotherapy. New HER2 targeted drugs are currently in development like pertuzumab, T-DMI or mTOR and PI3K inhibitors. New strategies combining these drugs with or without chemotherapy showed interesting results in metastatic and neoadjuvant trials. The selection of patients who will most benefit from these combinations is still a challenge. Currently, chemotherapy in association with anti-HER2 therapy remains the most effective treatment option.
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PMID:[Will targeted therapies replace chemotherapy?]. 2269 Apr 83

The ALK(F1174L) mutation is associated with intrinsic and acquired resistance to crizotinib and cosegregates with MYCN in neuroblastoma. In this study, we generated a mouse model overexpressing ALK(F1174L) in the neural crest. Compared to ALK(F1174L) and MYCN alone, co-expression of these two oncogenes led to the development of neuroblastomas with earlier onset, higher penetrance, and enhanced lethality. ALK(F1174L)/MYCN tumors exhibited increased MYCN dosage due to ALK(F1174L)-induced activation of the PI3K/AKT/mTOR and MAPK pathways, coupled with suppression of MYCN pro-apoptotic effects. Combined treatment with the ATP-competitive mTOR inhibitor Torin2 overcame the resistance of ALK(F1174L)/MYCN tumors to crizotinib. Our findings demonstrate a pathogenic role for ALK(F1174L) in neuroblastomas overexpressing MYCN and suggest a strategy for improving targeted therapy for ALK-positive neuroblastoma.
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PMID:The ALK(F1174L) mutation potentiates the oncogenic activity of MYCN in neuroblastoma. 2278 43

The prognosis of relapsed or refractory aggressive lymphoma is poor. The huge variety of currently evolving targeted treatment approaches would benefit from tools for early prediction of response or resistance. We used various ALK-positive anaplastic large cell lymphoma (ALCL) cell lines to evaluate two inhibitors, the HSP90 inhibitor NVP-AUY922, and the mTOR inhibitor everolimus, both of which have shown to interfere with ALK-dependent oncogenic signal transduction. Their therapeutic effect was determined in vitro by MTT assay, [(18)F]fluorodeoxyglucose (FDG)- and [(18)F]fluorothymidine (FLT)-uptake, and by biochemical analysis of ALK-induced signaling. Micro-FDG- and FLT-positron emission tomography (PET) imaging studies in immunodeficient mice bearing ALCL xenotransplants were carried out with the cell lines SUDHL-1 and Karpas299 to assess early treatment response to NVP-AUY922 or everolimus in vivo. SUDHL-1 cells showed sensitivity to both inhibitors in vitro. Importantly, we detected a significant reduction of FLT-uptake in SUDHL-1 bearing animals using both inhibitors compared with baseline as early as 5 days after initiation of targeted therapy. Immunostaining showed a decrease in Ki-67 and an increase in cleaved caspase-3 staining. In contrast, FDG-uptake did not significantly decrease at early time points. Karpas299 xenotransplants, which are resistant to NVP-AUY922 and sensitive to everolimus treatment, showed an increase of mean FLT-uptake on day 2 after administration of NVP-AUY299, but a significant reduction in FLT-uptake upon everolimus treatment. In conclusion, we show that FLT-PET but not FDG-PET is able to predict response to treatment with specific inhibitors very early in the course of treatment and thus enables early prediction of treatment efficacy.
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PMID:FLT-PET is superior to FDG-PET for very early response prediction in NPM-ALK-positive lymphoma treated with targeted therapy. 2287 26

In 1983, the MYCN oncogene amplification was discovered in neuroblastoma cells and few years later its prognostic role was clearly demonstrated. The first European study, in which MYCN gene status is taken as prognostic factor for therapeutic decision, was released by SIOPEN and GPOH in 1995. Afterward, other trials were released by SIOPEN, GPOH, COG, and JNBSG in which MYCN gene amplification was employed as prognostic risk factor. However, since MYCN is abnormal in about 20% of tumors and is a reliable prognostic marker for only some subgroups of patients, additional chromosomal abnormalities have been introduced for clinical decisions: 1p deletions/imbalances (GPOH), 11q deletions/imbalances (COG), and structural copy number aberrations (SIOPEN). MYCN gene status and chromosome aberrations improved patients' risk evaluation and helped to develop tailored therapy for diverse subgroups of patients. Unfortunately, high risk patients still have an unfavorable prognosis and are the major challenge for oncologists. In the last decade, the advent of genome-wide analysis and the next generation sequencing technique have given the opportunity to deeply investigate the genome of neuroblastoma to identify both candidate genes associated with tumor progression and druggable target genes. ALK gene is an actual candidate for the therapy with small molecule inhibitors, but others as mTOR, Aurora, and TRK, are suitable targets for subgroups of high risk patients. The huge amount of clinical and biological information collected in the last 20 years suggests that it is time to turn on for new and more personalized therapies of neuroblastoma.
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PMID:Towards a turning point of neuroblastoma therapy. 2292 4

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