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:C0024623 (gastric cancer)
36,219 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Gastric cancer is the second leading cancer cause of death globally. Apart from the successful targeting of HER2 over-expression in gastric cancer (GC) with trastuzumab, other targeted therapies in GC have fallen short or still in early clinical development. While HER2 over-expression accounts for up to 20% of GC, other potential actionable driver mutations occur a much lower frequency in GC. In this review we describe some of the more interesting genetic aberrations including driver mutations in gastric cancer that have very potent inhibitors against them already in clinical development. Part I of this review will focus on the receptor tyrosine kinase (RTK) gene amplification (HER2, FGFR2, MET, EGFR). Part II will devoted to gene mutations (HER2, KRAS, PIK3CA, BRAF) and gene rearrangement (ROS1, BRAF, HER2). Because of the low frequency of these potential driver mutations, perseverance in screening for these mutations will be needed in order to enroll enough of each uniquely molecularly defined subset of GC in order to demonstrate significant clinical benefit in a unique molecularly targeted therapy trial. This approach has been successfully employed in the clinical approval of crizotinib for the treatment of ALK-rearranged non-small cell lung cancer.
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PMID:Towards the goal of personalized medicine in gastric cancer--time to move beyond HER2 inhibition. Part I: Targeting receptor tyrosine kinase gene amplification. 2381 47

Gastric cancer remains a worldwide burden as the second leading cause of cancer-related death. Drug resistance of chemotherapy looms as a major clinical obstacle to successful treatment. Recent evidence indicated that miRNA-200c can restore the sensitivity of NSCLC cells to cisplatin and cetuximab. The expression of miRNA-200c and RhoE were investigated in gastric cancer tissues and cells (SGC7901 and SGC7901/DDP) by qRT-PCR. A luciferase reporter assay was done to understand the potential correlation between miRNA-200c and RhoE. Pre-miR-200c was transfected in SGC7901/DDP cells to confirm whether miRNA-200c could regulate RhoE expression. RhoE was knocked down to explore the role of RhoE on sensitivity of chemotherapy in gastric cancer by MTT. Western blot analysis was performed to further explore the mechanism of RhoE in regulating drug resistance. The results showed that miRNA-200c was significantly lower in cancerous tissues than those in the paired normal tissues, whereas the expression of RhoE was just the opposite. The significant difference of miRNA-200c and RhoE were observed between SGC7901 cells and SGC7901/DDP cells. miRNA-200c has target sites in the 3'-UTR of RhoE mRNA by luciferase reporter assay. Transfection of pre-miR-200c reduces RhoE expression. Meanwhile, the knockdown of RhoE enhanced the sensitivity of SGC7901/DDP cells and changed expression of some genes. These suggested that miRNA-200c regulated the sensitivity of chemotherapy to cisplatin (DDP) in gastric cancer by possibly targeting RhoE.
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PMID:MicroRNA-200c regulates the sensitivity of chemotherapy of gastric cancer SGC7901/DDP cells by directly targeting RhoE. 2382 57

MERTK is a receptor tyrosine kinase of the TAM (Tyro3, Axl, MERTK) family, with a defined spectrum of normal expression. However, MERTK is overexpressed or ectopically expressed in a wide variety of cancers, including leukemia, non-small cell lung cancer, glioblastoma, melanoma, prostate cancer, breast cancer, colon cancer, gastric cancer, pituitary adenomas, and rhabdomyosarcomas, potentially resulting in the activation of several canonical oncogenic signaling pathways. These include the mitogen-activated protein kinase and phosphoinositide 3-kinase pathways, as well as regulation of signal transducer and activator of transcription family members, migration-associated proteins including the focal adhesion kinase and myosin light chain 2, and prosurvival proteins such as survivin and Bcl-2. Each has been implicated in MERTK physiologic and oncogenic functions. In neoplastic cells, these signaling events result in functional phenotypes such as decreased apoptosis, increased migration, chemoresistance, increased colony formation, and increased tumor formation in murine models. Conversely, MERTK inhibition by genetic or pharmacologic means can reverse these pro-oncogenic phenotypes. Multiple therapeutic approaches to MERTK inhibition are currently in development, including ligand "traps", a monoclonal antibody, and small-molecule tyrosine kinase inhibitors.
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PMID:Molecular pathways: MERTK signaling in cancer. 2383 4

Gastric cancer is the second leading cancer cause of death globally. Apart from the successful targeting of HER2 over-expression in gastric cancer (GC) with trastuzumab, other targeted therapies in GC have fallen short or still in early clinical development. While HER2 over-expression accounts for up to 20% of GC, other potential actionable driver mutations occur at a much lower frequency in GC. In this review we describe some of the more interesting genetic aberrations including driver mutations in gastric cancer that have very potent inhibitors against them already in clinical development. Part I of this review will concentrate on the receptor tyrosine kinase (RTK) gene amplification (HER2, FGFR2, MET, EGFR). Part II will concentrate on gene mutations (HER2, KRAS, PIK3CA, BRAF) and gene rearrangement (ROS1, BRAF, HER2). Because of the low frequency of these potential driver mutations, perseverance in screening for these mutations will be needed in order to enroll enough of each uniquely molecularly defined subset of GC in order to demonstrate significant clinical benefit in a unique molecularly targeted therapy trial. This approach has been successfully employed in the clinical approval of crizotinib for the treatment of ALK-rearranged non-small cell lung cancer. Finally, we discuss a paradigm shift in the personalized treatment of GC patients where multiplex comprehensive screening of all GC patients for all these potential driver mutations simultaneously is performed to achieve efficiencies and timeliness in diagnosis and allowing enrollment into different molecularly targeted therapy trials and the prospective discovery of novel yet unknown actionable driver mutations.
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PMID:Towards the goal of personalized medicine in gastric cancer--time to move beyond HER2 inhibition. Part II: Targeting gene mutations and gene amplifications and the angiogenesis pathway. 2391 Dec 27

Ipilimumab(MDX-010, BMS-734016)is a fully human monoclonal immunoglobulin(IgG1k)specific for human cytotoxic T lymphocyte antigen 4(CTLA-4, CD152), which is expressed on a subset of activated T-cells as a negative regulator of T-cell activation. Blockade of CTLA-4 can potentiate a robust antitumor immune response and lead to long-term tumor regression. Moreover, 2 global phase 3 clinical studies(MDX010-20 and CA184-024)on ipilimumab have demonstrated an improved survival in patients with both untreated and treated advanced melanoma. Ipilimumab(Yervoy TM)has been approved for clinical use for the treatment of advanced melanoma in over 40 countries, including the United States(March 2011)and the European Union(July 2011), as the first agent to show overall survival benefit in patients with advanced melanoma. In Japan, several clinical trials for ipilimumab are ongoing in patients with conditions such as melanoma, non-small cell lung cancer, small-cell lung cancer, and gastric cancer. On the basis of experiences in both clinical development and clinical use of ipilimumab in more than 13,000 patients, several unique features of immunotherapy have been identified. In this article, clinical data on ipilimumab along with its unique effects and safety profile will be introduced, and some possible options for the further development of ipilimumab will be briefly discussed.
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PMID:[Ipilimumab]. 2404 71

This study investigated the anticancer effect of a novel compound PS-101 in human lung cancer cells. By phenotype screening, PS-101 exhibited highly selective inhibition in EGFR-overexpressed non-small cell lung cancer cells NCI-H460 and A549 while displaying no obvious toxicity to normal hepatic cell HL-7702, lung fibroblast cell WI-38, liver cancer cell BEL-7404 and gastric cancer cell MCG-803. A combination of cell viability assay, immunoblotting, and RNA interference revealed that PS-101 induced EGFR-dependent inhibition selectivity. Further studies showed that PS-101 caused cell cycle arrest at G1 phase, changed cell size, induced apoptosis and led to cell death by increasing the proportion of sub-G1 cells. Molecular mechanism studies suggested that blocking the EGFR-driven antiapoptotic pathway is essential for PS-101-induced apoptosis. The contribution of blocking the EGFR-driven antiapoptotic pathway was verified through examines abundance of likely candidate proteins and RNA interference. The root cause for increase in BAD and decrease in Bcl-2 which altogether initiated caspase-dependent apoptosis were predominantly due to down-regulation the expression of EGFR after PS-101 treatment. PS-101 strongly down-regulated the EGFR expression to trigger proapototic protein BAD increase and antiproapototic protein Bcl-2 decrease, which altogether actived effector caspase-3/9 to initiate cell apoptisis. Taken together, these results suggest that PS-101 may be a potential candidate for cancer therapy against human lung cancer.
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PMID:Novel compound PS-101 exhibits selective inhibition in non-small-cell lung cancer cell by blocking the EGFR-driven antiapoptotic pathway. 2416 85

Protein-tyrosine phosphatase SHP-2, encoded by gene PTPN11, has been identified as a tumor-promoting factor in several types of leukemia and is hyper-activated by other mechanisms in some solid tumors including gastric cancer, breast cancer, non-small cell lung cancer (NSCLC), etc. But few were reported on the expression and significances of SHP-2 in colon cancer. Here, we detect SHP-2 expression in colon cancer cells, colon cancer-induced by AOM+DSS in mice and 232 human colon cancer specimens, including 58 groups of self-matched adjacent peritumor tissues and normal tissues. We found that compared to the normal colon tissues, SHP-2 significantly decreased in tumor tissues (P<0.001). The same results were got in colon tumor cells as well as mice colon tumors. And in humans samples, low SHP-2 expression showed a significantly correlation with poor tumor differentiation (P<0.05), late TNM stage (P=0.1666) and lymph node metastasis (P<0.05).
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PMID:Expression and clinical significance of tyrosine phosphatase SHP-2 in colon cancer. 2443 72

Certain genetically defined cancers are dependent on a single overactive oncogene for their proliferation and survival, a phenomenon known as "oncogene addiction". A new generation of drugs that selectively target such "driver oncogenes" manifests a clinical efficacy greater than that of conventional chemotherapy in appropriate genetically defined patients. MET is a proto-oncogene that encodes a receptor tyrosine kinase, and aberrant activation of MET signaling occurs in a subset of advanced cancers as result of various genetic alterations including gene amplification, polysomy, and gene mutation. Our preclinical studies have shown that inhibition of MET signaling either with the small-molecule MET inhibitor crizotinib or by RNA interference targeted to MET mRNA resulted in marked antitumor effects in cancer cell lines with MET amplification both in vitro and in vivo. Furthermore, patients with non-small cell lung cancer or gastric cancer positive for MET amplification have shown a pronounced clinical response to crizotinib. Accumulating preclinical and clinical evidence thus suggests that MET amplification is an "oncogenic driver" and therefore a valid target for treatment. However, the prevalence of MET amplification has not been fully determined, possibly in part because of the difficulty in evaluating gene amplification. In this review, we provide a rationale for targeting this genetic alteration in cancer therapy.
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PMID:Targeting MET Amplification as a New Oncogenic Driver. 2505 17

Recently many studies have focused on the microRNA-34 (miR-34) family expression in various cancers; nevertheless, the controversial results of these studies still exist in identifying miR-34 members as new biomarkers of cancers. Therefore, we carried out this comprehensive meta-analysis of published studies that compared the miR-34 family expression profiles between cancer tissues and paired neighboring noncancerous tissues to systemically evaluate the findings globally and address the inconsistencies of pertinent literatures. The data included in this article were collected from Embase, PubMed and Web of Science up to December 2013. To overcome the difficulties that many raw data were unavailable and study methods were different, a vote-counting strategy was adopted to identify consistent markers in our analysis. Ultimately, a total of 23 cancers were reported in the 61 eligible studies, of which 46 studies provided fold-change value information. In the consistently reported cancer types, non-small cell lung cancer (NSCLC), glioma and nasopharyngeal carcinoma (NPC) ranked at the top with down-regulated feature. Cervical neoplasm was consistently reported to be over-expressed in the panel of each member of miR-34s. Subgroup analysis of miR-34 family expression demonstrated that colorectal cancer (CRC), gastric cancer (GC), hepatocellular carcinoma (HCC) and prostate cancer (PCa) were most frequently reported with inconsistent regulations. Our meta-analysis showed that miR-34 family members could be expected to become potential diagnostic and prognostic biomarkers in some types of human cancers. Further well-designed and larger sample studies are surely warranted to identify the role of the miR-34 family in the occurrence and development of tumors.
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PMID:The analysis of microRNA-34 family expression in human cancer studies comparing cancer tissues with corresponding pericarcinous tissues. 2545 92

The Malthus programme produces a model for the local and national level of radiotherapy demand for use by commissioners and radiotherapy service leads in England. The accuracy of simulation is dependent on the population cancer incidence, stage distribution and clinical decision data used by the model. In order to quantify uncertainty in the model, a global sensitivity analysis of the Malthus model was undertaken. As predicted, key decision points in the model relating to stage distribution and indications for surgical or non-surgical initial management of disease were observed to yield the strongest effect on simulated radiotherapy demand. The proportion of non-small cell lung cancer patients presenting with stage IIIB/IV disease had the largest effect on fraction burden in the four most common cancer types treated with radiotherapy, where a 1% change in stage IIIb/IV disease yielded a 1.3% change in fraction burden for lung cancer patients. A 1% change in mastectomy rate yielded a 0.37% change in fraction burden for breast cancer patients. The model is also highly sensitive to changes in the radiotherapy indications in colon and gastric cancer. Broadly, the findings of the sensitivity analysis mirror those previously published by other groups. Sensitivity analysis of the local-level population and cancer incidence data revealed that the cancer registration rate in the 50-64 year female population had the highest effect on simulation results. The analysis reveals where additional effort should be undertaken to provide accurate estimates of important parameters used in radiotherapy demand models.
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PMID:Quantifying uncertainty in radiotherapy demand at the local and national level using the Malthus model. 2550 Jan 88


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