Clinical Significance of MicroRNA Expression Profiles and Polymorphisms in Lung Cancer Development and Management

Lung cancers account for a huge percentage of death in industrialized countries, and hence there is an increasing call for the development of novel treatments. These malignancies are caused by a combination of environmental factors, principally cigarette smoking and genetic alterations. MicroRNAs (miRNAs) are a recently discovered class of regulatory noncoding small RNAs with a significance in numerous biological processes. Strong evidence links miRNA impaired expression profiles and pathways to the etiology of several diseases, including neoplasia. This paper focuses on the emerging role of miRNA function in lung cancer development with particular highlighting on the use of miRNA profiles and polymorphisms for the molecular and biological characterization of tumor pulmonary growth and progression. Furthermore, we underline the potential utility of lung cancer-associated miRNAs as clinical biomarkers with a diagnostic, prognostic, and therapeutic significance and give emphasis to the promising novel miRNA-based curative strategies.

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Integrated bioinformatics analysis reveals ASPM and CENPF with prognostic value in lung cancer

10.21203/rs.2.13321/v2 ◽

2019 ◽

Author(s):

jinghang li ◽

Jing Zhang ◽

Lin Huang ◽

Sheng Zhao

Keyword(s):

Gene Expression ◽

Lung Cancer ◽

Cell Cycle ◽

Expression Profiles ◽

Mirna Gene ◽

Gene Expression Profiles ◽

Genetic Alterations ◽

Potential Candidate ◽

Expression Microarrays ◽

Regulation Of Cell Cycle

Abstract Lung cancer (LC) is the most frequent type of cancer in the world. But the mechanism of LC is still largely unknown. In this study, we analyzed three lung cancer gene expression microarrays of different pathologic types to explore the potential candidate genes in LC by Integrated bioinformatical methods. 459 overlapped differentially expressed genes (DEGs) were explored in three GEO gene expression profiles of different pathologic types of lung cancer and function annotation of DEGs were performed. The main biological process of DEGs was regulation of vasculature development and angiogenesis. The most significant molecular function of DEGs was TGF-β receptor activity. The most significant Reactome pathway of DEGs was cell cycle and extracellular matrix organization pathway. The PPI network of the DEGs was constructed and 23 candidate hub genes were identified in the network . Kaplan-Meier survival analysis show 21 genes were associated with the prognosis of LC. The genetic alterations analysis of these genes by using cBioPortal shown ASPM has the highest genetic alteration rate of 9% in main pathological types of 3191 LC patients , CENPF has the second highest alteration rate of 6% in LC patients. ASPM and CENPF also identified have a significant co-occurrence relationship in LC, and the GO analysis shown they both participate in the regulation of cell cycle. In the TF -miRNA-gene network of 21 genes shown CENPF have the most significant value in the network and the most relevant TF are NFYA, E2F1 and MYC.In conclusion, this study explored several key genes about LC and analyzed potential TF of those genes, provides possible therapeutic targets and biomarker for further clinical application.

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The role of immunotherapy in treating lung cancer: current status and future perspective

Future Drug Discovery ◽

10.4155/fdd-2021-0006 ◽

2021 ◽

Author(s):

Carlton Bijesh Ray ◽

Vinesan Vijayarasa ◽

Maariyah Vankad ◽

Mohamed Sherif ◽

Amer Harky

Keyword(s):

Lung Cancer ◽

Checkpoint Inhibitors ◽

Prognostic Biomarkers ◽

Current Status ◽

Future Perspective ◽

Term Survival ◽

Lung Cancers ◽

Novel Treatments ◽

Treatment Regimens ◽

Efficacy Assessment

Lung cancers have the worst incident and mortality rates. Cancers such as advanced non-small-cell lung carcinomas are inoperable and often the only treatment available is chemo-radiotherapy. There has been little improvement in long-term survival recently, prompting research into novel treatments. Immune checkpoint inhibitors (ICIs) are a form of immunotherapy used in lung cancer. The efficacy of ICIs is dependent on: the part of the pathway affected; the presence of prognostic biomarkers; the method of efficacy assessment; the stage of the disease and other drugs involved. Monoclonal antibodies, Toll-like receptor agonists and cancer vaccines have shown modest effects on survival. Refinement of treatment regimens and prognostic biomarkers will help improve the survival of patients in the future.

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Biomarkers for ALK and ROS1 in Lung Cancer: Immunohistochemistry and Fluorescent In Situ Hybridization

Archives of Pathology & Laboratory Medicine ◽

10.5858/arpa.2017-0502-ra ◽

2018 ◽

Vol 142 (8) ◽

pp. 922-928 ◽

Cited By ~ 6

Author(s):

Peter P. Luk ◽

Christina I. Selinger ◽

Annabelle Mahar ◽

Wendy A. Cooper

Keyword(s):

Lung Cancer ◽

In Situ Hybridization ◽

Fluorescence In Situ Hybridization ◽

Kinase Inhibitors ◽

Screening Method ◽

Genetic Alterations ◽

Small Cell ◽

Small Cell Lung ◽

Lung Cancers

Context.— A small proportion of non–small cell lung cancers harbor rearrangements of ALK or ROS1 genes, and these tumors are sensitive to targeted tyrosine kinase inhibitors. It is crucial for pathologists to accurately identify tumors with these genetic alterations to enable patients to access optimal treatments and avoid unnecessary side effects of less effective agents. Although a number of different techniques can be used to identify ALK- and ROS1-rearranged lung cancers, immunohistochemistry and fluorescence in situ hybridization are the mainstays. Objective.— To review the role of immunohistochemistry in assessment of ALK and ROS1 rearrangements in lung cancer, focusing on practical issues in comparison with other modalities such as fluorescence in situ hybridization. Data Sources.— This manuscript reviews the current literature on ALK and ROS1 detection using immunohistochemistry and fluorescence in situ hybridization as well as current recommendations. Conclusions.— Although fluorescence in situ hybridization remains the gold standard for detecting ALK and ROS1 rearrangement in non–small cell lung cancer, immunohistochemistry plays an important role and can be an effective screening method for detection of these genetic alterations, or a diagnostic test in the setting of ALK.

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Low Frequency of p53AND k-ras Codon 12 Mutations in Non-Small Cell Lung Carcinoma(NSCLC) Tumors and Surgical Margins

Tumori Journal ◽

10.1177/030089160709300511 ◽

2007 ◽

Vol 93 (5) ◽

pp. 473-477 ◽

Cited By ~ 6

Author(s):

Ozgur Vatan ◽

Rahmi Bilaloglu ◽

Berrin Tunca ◽

Gulsah Cecener ◽

Cengiz Gebitekin ◽

...

Keyword(s):

Lung Cancer ◽

Tumor Cells ◽

Gene Mutations ◽

P53 Gene ◽

Genetic Alterations ◽

Small Cell ◽

Surgical Margins ◽

Small Cell Lung ◽

Lung Cancers ◽

P53 Gene Mutations

Aims and Background Lung cancer is one of the most common cancers and has became a predominant cause of cancer-related death throughout the world. The k-ras codon 12 mutation, which is the most common lung cancer mutation, is found in 15 to 30% of all lung cancers. Furthermore, the p53 gene has a very important role in the biological properties of tumor cells, and it is mutated in about 50% of non-small cell lung cancers. Residual tumor cells remain in surgical margins diagnosed as tumor free by histopathological techniques, and they can play a role in forming any local recurrence. Molecular methods may be exploited that are sensitive enough to detect small numbers of tumor cells. Methods In the present study, we examined p53 gene mutations and k-ras codon 12 mutations from the tumor samples and surgical margins of 34 non-small-cell lung cancer patients. P53 gene mutations were analyzed by single strand conformational polymorphism analysis, heterodublex analysis and DNA sequencing. K-ras codon 12 mutations were analyzed by the mutagenic PCR-restricted fragment length polymorphism method. Results A p53 mutation was detected only in primary tumors of 3 out of 34 patients (8.82%). These mutations were clustered in exon 5. Moreover, a k-ras codon 12 mutation was detected in both the primary tumor and the surgical margin tissues of 2 out of 34 patients (5.88%). Conclusions The detected mutation rate was low, in the range given in the literature. We think that different mechanisms related to other genes and individual genetic differences might play a role in cancer formation in our study group. We believe that molecular studies are necessary to identify biomarkers and to determine genetic alterations in histopathologically normal surgical margins.

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Association with PD-L1 Expression and Clinicopathological Features in 1000 Lung Cancers: A Large Single-Institution Study of Surgically Resected Lung Cancers with a High Prevalence of EGFR Mutation

International Journal of Molecular Sciences ◽

10.3390/ijms20194794 ◽

2019 ◽

Vol 20 (19) ◽

pp. 4794 ◽

Cited By ~ 7

Author(s):

Lee ◽

Kim ◽

Sung ◽

Lee ◽

Han ◽

...

Keyword(s):

Lung Cancer ◽

Egfr Mutation ◽

Cell Cancer ◽

Genetic Alterations ◽

Clinicopathological Factors ◽

Lung Cancers ◽

Molecular Features ◽

Histologic Pattern ◽

Alk Positive ◽

Egfr Mutant

Programmed cell death ligand 1 (PD-L1) expression is an important biomarker for predicting response to immunotherapy in clinical practice. Hence, identification and characterization of factors that predict high expression of PD-L1 in patients is critical. Various studies have reported the association of PD-L1 expression with driver genetic status in non-small cell cancer; however, the results have been conflicting and inconclusive. We analyzed the relationship between PD-L1 expression and clinicopathological factors including driver genetic alterations in 1000 resected lung cancers using a clinically validated PD-L1 immunohistochemical assay. PD-L1 expression was significantly higher in squamous cell carcinoma (SCC) compared to adenocarcinomas. PD-L1 expression in adenocarcinoma was associated with higher N-stage, solid histologic pattern, EGFR wild type, and ALK positive, but no significant association with the clinicopathological factors in SCC. EGFR mutant adenocarcinomas with distinctive clinicopathologic features, especially solid histologic pattern and higher stage showed higher PD-L1 expression. To the best of our knowledge, this study is the largest to evaluate the association between PD-L1 expression and clinicopathological and molecular features in lung cancer with a highly prevalent EGFR mutation. Therefore, our results are useful to guide the selection of lung cancer, even EGFR-mutated adenocarcinoma patients with PD-L1 expression, for further immunotherapy.

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Genomic and Proteomic Profiling of Lung Cancers: Lung Cancer Classification in the Age of Targeted Therapy

Journal of Clinical Oncology ◽

10.1200/jco.2005.15.511 ◽

2005 ◽

Vol 23 (14) ◽

pp. 3219-3226 ◽

Cited By ~ 63

Author(s):

Matthew Meyerson ◽

David Carbone

Keyword(s):

Lung Cancer ◽

Messenger Rna ◽

Expression Profiles ◽

Tumor Development ◽

Cancer Classification ◽

Proteomic Profiling ◽

Lung Cancers ◽

Development And Differentiation ◽

Patient Prognosis ◽

Cancer Multiple

Both proteomic and genomic methods offer promise for the classification of human lung carcinomas. This review summarizes the range of proteomic methods in development for lung cancer classification, and describes a number of recent analyses of messenger RNA expression in lung cancer. Multiple independent studies of mRNA expression profiles in lung adenocarcinoma have proven highly reproducible. Analyses of the relationship between expression profiles and tumor development and differentiation, the presence or absence of specific pathogenic mutations, patient prognosis and survival after surgical treatment, and specific histopathology all appear to be promising.

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Lung Cancers: Molecular Characterization, Clonal Heterogeneity and Evolution, and Cancer Stem Cells

Cancers ◽

10.3390/cancers10080248 ◽

2018 ◽

Vol 10 (8) ◽

pp. 248 ◽

Cited By ~ 62

Author(s):

Ugo Testa ◽

Germana Castelli ◽

Elvira Pelosi

Keyword(s):

Lung Cancer ◽

Small Cell Lung Cancer ◽

Cell Lung Cancer ◽

Genetic Alterations ◽

Lung Tumors ◽

Small Cell ◽

Small Cell Lung ◽

Lung Cancers ◽

Molecular Abnormalities ◽

Recurrent Mutations

Lung cancer causes the largest number of cancer-related deaths in the world. Most (85%) of lung cancers are classified as non-small-cell lung cancer (NSCLC) and small-cell lung cancer (15%) (SCLC). The 5-year survival rate for NSCLC patients remains very low (about 16% at 5 years). The two predominant NSCLC histological phenotypes are adenocarcinoma (ADC) and squamous cell carcinoma (LSQCC). ADCs display several recurrent genetic alterations, including: KRAS, BRAF and EGFR mutations; recurrent mutations and amplifications of several oncogenes, including ERBB2, MET, FGFR1 and FGFR2; fusion oncogenes involving ALK, ROS1, Neuregulin1 (NRG1) and RET. In LSQCC recurrent mutations of TP53, FGFR1, FGFR2, FGFR3, DDR2 and genes of the PI3K pathway have been detected, quantitative gene abnormalities of PTEN and CDKN2A. Developments in the characterization of lung cancer molecular abnormalities provided a strong rationale for new therapeutic options and for understanding the mechanisms of drug resistance. However, the complexity of lung cancer genomes is particularly high, as shown by deep-sequencing studies supporting the heterogeneity of lung tumors at cellular level, with sub-clones exhibiting different combinations of mutations. Molecular studies performed on lung tumors during treatment have shown the phenomenon of clonal evolution, thus supporting the occurrence of a temporal tumor heterogeneity.

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Calpeptin Induces Apoptosis in A549 Non-Small Cell Lung Cancer Cells

10.21203/rs.3.rs-947991/v1 ◽

2021 ◽

Author(s):

Chiharu Tabata ◽

Rie Tabata

Keyword(s):

Lung Cancer ◽

A549 Cells ◽

Small Cell ◽

Calpain Inhibitor ◽

Small Cell Lung ◽

Lung Cancers ◽

Novel Treatments ◽

Stage Disease ◽

Induced Apoptosis ◽

Nsclc Patients

Abstract Lung cancer is a leading cause of cancer-related death worldwide, and most are non-small cell lung cancers (NSCLC). Since the overall survival remains very poor for NSCLC patients with advanced-stage disease, the development of novel treatments is needed. Previous studies reported a relationship between calpain and tumorigenesis. In this study, we examined the apoptotic effects of calpeptin (Cal), a calpain inhibitor, on A549 NSCLC cells. We assessed whether Cal induced apoptosis in A549 cells. Cal induced apoptosis in A549 cells and also activated p38MAPK. These results suggest a possible clinical use of Cal for the treatment of NSCLC.

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N6-methyladenosine induced miR-143-3p promotes the brain metastasis of lung cancer via regulation of VASH1

Molecular Cancer ◽

10.1186/s12943-019-1108-x ◽

2019 ◽

Vol 18 (1) ◽

Cited By ~ 19

Author(s):

Hongsheng Wang ◽

Qianqian Deng ◽

Ziyan Lv ◽

Yuyi Ling ◽

Xue Hou ◽

...

Keyword(s):

Lung Cancer ◽

Brain Metastasis ◽

Expression Profiles ◽

Primary Lung Cancer ◽

Lung Cancers ◽

Lung Cancer Patients ◽

Cancer Pathogenesis ◽

Cancer Tissues

Abstract Background Brain metastasis (BM) is one of the principal causes of mortality for lung cancer patients. While the molecular events that govern BM of lung cancer remain frustrating cloudy. Methods The miRNA expression profiles are checked in the paired human BM and primary lung cancer tissues. The effect of miR-143-3p on BM of lung cancer cells and its related mechanisms are investigated. Results miR-143-3p is upregulated in the paired BM tissues as compared with that in primary cancer tissues. It can increase the invasion capability of in vitro blood brain barrier (BBB) model and angiogenesis of lung cancer by targeting the three binding sites of 3’UTR of vasohibin-1 (VASH1) to inhibit its expression. Mechanistically, VASH1 can increase the ubiquitylation of VEGFA to trigger the proteasome mediated degradation, further, it can endow the tubulin depolymerization through detyrosination to increase the cell motility. m6A methyltransferase Mettl3 can increase the splicing of precursor miR-143-3p to facilitate its biogenesis. Moreover, miR-143-3p/VASH1 axis acts as adverse prognosis factors for in vivo progression and overall survival (OS) rate of lung cancer. Conclusions Our work implicates a causal role of the miR-143-3p/VASH1 axis in BM of lung cancers and suggests their critical roles in lung cancer pathogenesis.

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Targeted DNA sequencing analysis to reveal genetic diversity and androgen-receptor alteration in advanced EGFR mutant lung adenocarcinoma.

Journal of Clinical Oncology ◽

10.1200/jco.2020.38.15_suppl.9526 ◽

2020 ◽

Vol 38 (15_suppl) ◽

pp. 9526-9526

Author(s):

Wei Wu ◽

Ross A. Okimoto ◽

Collin Michael Blakely ◽

James Fraser ◽

Trever G. Bivona

Keyword(s):

Lung Cancer ◽

Androgen Receptor ◽

Functional Annotation ◽

Early Stage ◽

Genetic Alterations ◽

Egfr Mutations ◽

Driver Mutations ◽

Lung Cancers ◽

Egfr Mutant ◽

Lung Adenocarcinomas

9526 Background: Lung cancer remains the leading cause of death from cancer around the world. Several oncogenic drivers have been identified from large cancer genome projects focused mainly on profiling early-stage lung cancers. Targeted therapies have been developed for specific activated driver gene mutations and are used in advanced-stage patients. For instance, advanced EGFR mutant lung cancer is primarily treated with EGFR tyrosine receptor inhibitors (TKIs). However, resistance remains an obstacle to durable anti-tumor control. We hypothesize that concurrent genetic alterations co-exiting with EGFR driver mutations contribute to the failure of EGFR TKI therapy. Methods: To understand the complexity and diversity of genetic alterations present in EGFR mutant advanced lung cancers, we utilized 660 EGFR mutant advanced lung adenocarcinomas samples with targeted DNA sequencing from Foundation Medicine, 394 cases from MSK-IMPACT dataset, along with TCGA lung cancer data. We performed systematic co-mutation analysis, molecular simulation, functional annotation and pathway enrichment analysis. Results: We updated mutational profiling on EGFR gene with hotspots at exon 18, 19, 20 and 21. Among them, EGFR L858R, exon19 deletion, T790M and G719A are top ranking alleles among EGFR mutations. Interestingly, a subset (n = 26 cases) of EGFR T790M mutations parallel with other EGFR mutations, which could affect the TKI binding pocket as inferred by molecular simulations. Furthermore, in advanced lung cancer EGFR mutations co-occurred with known oncogenic mutations in KRAS, MET, NF-1, MAP2K1, ERBB2, and ALK/ROS-1/RET fusions. Functional annotation suggests that concurrent mutated genes and copy number alterations in advanced EGFR mutant lung cancer were enriched in signatures of epigenetic modifiers, genome instability, WNT signaling, and RNA splicing. Compared to early stage TCGA-lung adenocarcinomas, Cell cycle, DNA repair, WNT signaling and androgen receptor-mediated signaling pathways are predominantly altered in advanced EGFR mutant lung cancers. Conclusions: We characterized the genetic landscape of advanced EGFR-mutant lung adenocarcinomas and further dissected concurrent mutated genes with EGFR driver mutations. Our findings provide a rational for polytherapy roadmap for testing in advanced EGFR-mutant lung cancer.

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