UMLS:C0242379 - FACTA Search

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Query: UMLS:C0242379 (lung cancer)
71,905 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

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.
Clin Lung Cancer 2012 Jul
PMID:Oncogenic pathways, molecularly targeted therapies, and highlighted clinical trials in non-small-cell lung cancer (NSCLC). 2215 78

The identification of the molecular events that drive cancer transformation is essential to the development of targeted agents that improve the clinical outcome of lung cancer. Many studies have reported genomic driver mutations in non-small-cell lung cancers (NSCLCs) over the past decade; however, the molecular pathogenesis of >40% of NSCLCs is still unknown. To identify new molecular targets in NSCLCs, we performed the combined analysis of massively parallel whole-genome and transcriptome sequencing for cancer and paired normal tissue of a 33-yr-old lung adenocarcinoma patient, who is a never-smoker and has no familial cancer history. The cancer showed no known driver mutation in EGFR or KRAS and no EML4-ALK fusion. Here we report a novel fusion gene between KIF5B and the RET proto-oncogene caused by a pericentric inversion of 10p11.22-q11.21. This fusion gene overexpresses chimeric RET receptor tyrosine kinase, which could spontaneously induce cellular transformation. We identified the KIF5B-RET fusion in two more cases out of 20 primary lung adenocarcinomas in the replication study. Our data demonstrate that a subset of NSCLCs could be caused by a fusion of KIF5B and RET, and suggest the chimeric oncogene as a promising molecular target for the personalized diagnosis and treatment of lung cancer.
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PMID:A transforming KIF5B and RET gene fusion in lung adenocarcinoma revealed from whole-genome and transcriptome sequencing. 2219 72

Increasing understanding of molecular carcinogenesis has begun to change paradigms in oncology. On the diagnostic side, the characterization of key mutations and molecular pathways responsible for tumor development and progression has led to the identification of a large number of potential targets for diagnostic and therapeutic intervention. On the treatment and prevention side, molecular analysis will be of even greater importance for guiding individualized therapy. Diagnostics of molecular lesions present in each tumor will become a key feature of future clinical care. This will allow prediction of response with substantially increased accuracy, stratification of particular patient groups, and eventually personalization of therapy. Striking examples of molecular targeted therapies that have already been established in clinical practice include tyrosine kinase inhibitors in chronic myelogenous leukemia and gastrointestinal stromal tumors, epidermal growth factor receptor (EGFR) inhibition in EGFR-mutated lung cancer, HER2/neu blockade in HER2/neu-positive breast cancer, and anaplastic lymphoma kinase (ALK) inhibitors in lung cancer with EML4-ALK fusion. The scientific development along this line will change the approach to tumor diseases in the future. Patients will be treated according to the specific molecular profiles found in the individual tumor tissue and preferentially with targeted substances, if available.
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PMID:Recent developments and future perspectives of personalized oncology. 2228 81

The promising results of anaplastic lymphoma kinase (ALK) inhibitors have changed the significance of ALK fusions in several types of cancer. These fusions are no longer mere research targets or diagnostic markers, but they are now directly linked to the therapeutic benefit of patients. However, most available tumor tissues in clinical settings are formalin-fixed and paraffin-embedded (FFPE), and this significantly limits detailed genetic studies in many clinical cases. Although recent technical improvements have allowed the analysis of some known mutations in FFPE tissues, identifying unknown fusion genes by using only FFPE tissues remains difficult. We developed a 5'-rapid amplification of cDNA ends-based system optimized for FFPE tissues and evaluated this system on a lung cancer tissue with ALK rearrangement and without the 2 known ALK fusions EML4-ALK and KIF5B-ALK. With this system, we successfully identified a novel ALK fusion, KLC1-ALK. The result was confirmed by reverse transcription-polymerase chain reaction and fluorescence in situ hybridization. Then, we synthesized the putative full-length cDNA of KLC1-ALK and demonstrated the transforming potential of the fusion kinase with assays using mouse 3T3 cells. To the best of our knowledge, KLC1-ALK is the first novel oncogenic fusion identified using only FFPE tissues. This finding will broaden the potential value of archival FFPE tissues and provide further biological and clinical insights into ALK-positive lung cancer.
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PMID:KLC1-ALK: a novel fusion in lung cancer identified using a formalin-fixed paraffin-embedded tissue only. 2234 64

The elucidation of the molecular alterations in non-small cell lung cancer (NSCLC) and the development of molecularly targeted agents have permanently shifted NSCLC therapy to a personalized approach. In the metastatic setting, the addition of the anti-vascular endothelial growth factor monoclonal antibody, bevacizumab, to chemotherapy improves overall survival. The oral epidermal growth factor receptor (EGFR) tyrosine kinase inhibitors, gefitinib and erlotinib, prolong progression-free survival in patients selected for the presence of an EGFR activating mutation. The monoclonal antibody to EGFR, cetuximab, improves survival in patients with metastatic NSCLC, and the inhibitor of the echinoderm microtubule-associated protein-like 4-anaplastic lymphoma kinase (EML4-ALK) fusion protein, crizotinib, has resulted in an unprecedented overall survival advantage in patients harboring the EML4-ALK translocation. In the adjuvant setting, gefitinib has not been shown to improve patient survival outcomes; however, there are several ongoing clinical trials in the adjuvant setting evaluating the role of erlotinib, bevacizumab, and the MAGE-A3 and MUC1 vaccines. The realm of personalized lung cancer therapy also includes the study of chemotherapy selected on the basis of the pharmacogenetic profile of a patient's tumor. Several ongoing clinical trials in both the metastatic and adjuvant settings are studying the excision repair cross-complementing group 1 (ERCC1) protein, the ribonucleotide reductase subunit 1 (RRM1) protein, thymidylate synthase, and BRCA1 as predictors of chemotherapy response. This review will outline the current state of the art of personalized NSCLC therapy.
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PMID:Personalized therapy for non-small cell lung cancer: which drug for which patient? 2244 47

An estimated 10-25% of lung cancers worldwide occur in never smokers, i.e. individuals having smoked less than 100 cigarettes in their lifetime. Lung cancer in never smokers (LCINS) is more frequent in women, although large geographic variations are found. Histologically, adenocarcinomas predominate. The mere existence of LCINS suggests that risk factors other than smoking must be present. Exposure to environmental tobacco smoke (particularly in women) and exposure to workplace carcinogens (particularly in men) are the two most important alternative risk factors. However, a history of either is absent in more than a third of LCINS. The large proportion of women in LCINS suggest a hormonal element that may interact with other identified factors such as hereditary risks, a history of respiratory infections or disease, exposure to air pollution, cooking and heating fumes, or exposure to ionising radiation. The study of genomic polymorphisms finds constitutive DNA variations across subjects according to their smoking status, particularly in genes coding for enzymes that participate in the metabolism of certain carcinogens, in those coding for DNA repair enzymes, or in genes associated with tobacco addiction, or inflammatory processes. The type of molecular mutation in p53 or KRAS varies with smoking status. EGFR mutations are more frequent in never smokers, as are EML4-ALK fusions. The mutually exclusive nature of certain mutations is a strong argument in favour of separate genetic paths to cancer for ever smokers and never smokers. In the present paper we review current clinical and molecular aspects of LCINS.
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PMID:Lung cancer in never smokers--a review. 2246 48

Anaplastic lymphoma kinase (ALK) is a receptor-type protein tyrosine kinase that is currently the focus of much attention in oncology. ALK is rendered oncogenic as a result of its fusion to NPM1 in anaplastic large cell lymphoma, to TPM3 or TPM4 in inflammatory myofibroblastic tumor, to EML4 in non-small cell lung carcinoma, and to VCL in renal medullary carcinoma. It is also activated as a result of missense mutations in neuroblastoma and anaplastic thyroid cancer. Whereas these various tumors arise in different organs, they share activated ALK, and a marked clinical efficacy with ALK inhibitors has already been shown for some of the tumors with ALK fusions. One of such compound, crizotinib, is now approved in the United States for the treatment of lung cancer positive for ALK rearrangement. I propose that tumors carrying abnormal ALK as an essential growth driver be collectively termed "ALKoma."
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PMID:ALKoma: a cancer subtype with a shared target. 2261 25

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

Previous studies have revealed that EGFR mutation and/or EML4-ALK gene fusion rate was higher in the non-smoker Asian females with pulmonary adenocarcinoma. The aim of this study is to determine the distribution of known oncogenic driver mutations in the female non-smoker Asian patients with pulmonary adenocarcinoma. 104 consecutively resected lung adenocarcinomas from 396 non-smoker females (less than 100 cigarettes in a lifetime) at a single institution (Tongji University, Shanghai, China) were analyzed for mutations in EGFR, EML4-ALK, KRAS, HER2, BRAF, and PIK3CA. 73 (70.2 %) tumors harbored EGFR mutations; among these, 28 were deletions in exon 19, 44 were L858R missense changes, and eight were T790M mutations. 10 (9.6 %) harbored EML4-ALK fusions, two harbored KRAS mutations, two harbored BRAF mutations, and two harbored PI3K mutations. A majority of the mutations were mutually exclusive, except two with EGFR mutation and BRAF mutation, one with EML4-ALK fusions and PI3K mutation. Thus, 82.7 % (86 of 104; 95 % CI, 75.4-90.0 %) of lung adenocarcinomas from non-smoker females were found to harbor the well-known oncogenic mutations in five genes. Lung cancer in non-smoking Asian females is a distinct entity, with majority of this subgroup being developed by the oncogenic mutations. The prospective mutation examination in this population will be helpful for devising a targeted therapy for a majority of the patients.
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PMID:Analysis of driver mutations in female non-smoker Asian patients with pulmonary adenocarcinoma. 2270 99

Lung cancer is in France, the leading cause of cancer death. Despite the dramatic advances that have allowed in a few years to go, for metastatic cancer, from a median survival without specific treatment of 4.5 months and now almost always more than one year, survival remains disappointing and further improvements are needed. Progress in the accumulated knowledge of the inner workings of normal and tumoral cells have paved the way for the development of targeted therapeutics called biological or simply targeted therapies. Two biological processes are already the target of marketed drugs, this is the way the receptor of epidermal growth factor (EGFR) and the path of neo-angiogenesis. It is almost assumed that, in the very near future, the inhibition of EML4-ALK will also be the subject of new drugs. In the medium term, it is conceivable that the molecular dissection of the tumors actually lead to the prescription of treatments tailored to mutations and other abnormalities that direct the growth of cancers.
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PMID:[Targeted agents in the treatment of lung cancer]. 2274 94

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