Project description:To characterize gene expression changes induced by oncogenes implicated in human lung adenocarcinoma, we analyzed the whole transcriptome of NIH3T3 cells expressing mutant EGFR (exon 19 deletion) or wild-type EGFR. Expression levels of several genes from this list were validated by quantitative RT-PCR using the same RNA samples.

Project description:Recent studies demonstrated that cancer stem cells (CSCs) have higher tumorigenesis properties than those of differentiated cancer cells and that transcriptional factor-SOX2 plays a vital role in maintaining the unique properties of CSCs; however, the function and underlying mechanism of SOX2 in carcinogenesis of lung cancer are still elusive. This study applied immunohistochemistry to analyze the expression of SOX2 in human lung tissues of normal individuals as well as patients with adenocarcinoma, squamous cell carcinoma, large cell and small cell carcinoma and demonstrated specific overexpression of SOX2 in all types of lung cancer tissues. This finding supports the notion that SOX2 contributes to the tumorigenesis of lung cancer cells and can be used as a diagnostic probe. In addition, obviously higher expression of oncogenes c-MYC, WNT1, WNT2 and NOTCH1 was detected in side population (SP) cells than in none side population (NSP) cells of human lung adenocarcinoma cell line-A549, revealing a possible mechanism for the tenacious tumorigenic potential of CSCs. To further elucidate the function of SOX2 in tumorigenesis of cancer cells, A549 cells were established with expression of luciferase and doxycycline inducible shRNA targeting SOX2. We found silencing of SOX2 gene reduces the tumorigenic property of A549 cells with attenuated expression of c-MYC, WNT1, WNT2 and NOTCH1 in xenografted NOD/SCID mice. By RNA-Seq method, additional 246 target cancer genes of SOX2 were revealed. These results present evidence that SOX2 may regulate the expression of oncogenes in CSCs to promote the development of human lung cancer. Examination of mRNA profiles in A549 cells with SOX2 silencing

Project description:Recent studies demonstrated that cancer stem cells (CSCs) have higher tumorigenesis properties than those of differentiated cancer cells and that transcriptional factor-SOX2 plays a vital role in maintaining the unique properties of CSCs; however, the function and underlying mechanism of SOX2 in carcinogenesis of lung cancer are still elusive. This study applied immunohistochemistry to analyze the expression of SOX2 in human lung tissues of normal individuals as well as patients with adenocarcinoma, squamous cell carcinoma, large cell and small cell carcinoma and demonstrated specific overexpression of SOX2 in all types of lung cancer tissues. This finding supports the notion that SOX2 contributes to the tumorigenesis of lung cancer cells and can be used as a diagnostic probe. In addition, obviously higher expression of oncogenes c-MYC, WNT1, WNT2 and NOTCH1 was detected in side population (SP) cells than in none side population (NSP) cells of human lung adenocarcinoma cell line-A549, revealing a possible mechanism for the tenacious tumorigenic potential of CSCs. To further elucidate the function of SOX2 in tumorigenesis of cancer cells, A549 cells were established with expression of luciferase and doxycycline inducible shRNA targeting SOX2. We found silencing of SOX2 gene reduces the tumorigenic property of A549 cells with attenuated expression of c-MYC, WNT1, WNT2 and NOTCH1 in xenografted NOD/SCID mice. By RNA-Seq method, additional 246 target cancer genes of SOX2 were revealed. These results present evidence that SOX2 may regulate the expression of oncogenes in CSCs to promote the development of human lung cancer.

Project description:Gene expression and Comparative genomic hybridization (CGH) microarrays performed in a set of 8 Lung cancer Cell lines. The search for oncogenes is becoming increasingly important in cancer genetics because they constitute suitable targets for therapeutic intervention. To identify novel oncogenes, activated by gene amplification, we performed high-resolution CGH (Comparative Genome Hybridization) analysis on cDNA microarrays and compared DNA copy number and mRNA expression levels in lung cancer cell lines. We have performed both microarrays (expression and CGH) in a set of 8 human lung cancer cell lines: Calu3, H23, H441, A427, H522, A549, H1299, H2126.

Project description:The gene regulation of miR-10a* in lung cancer

Project description:Chronic obstructive pulmonary disease (COPD) is an independent risk factor for lung cancer, suggesting that COPD stroma favors cancer initiation. Therefore, we used proteomics and polysome-profiling to identify gene expression programs that distinguish stroma of patients harboring lung cancer from those that do not, with varied COPD severities. This profiling unveiled distinct COPD-dependent cancer-associated gene expression programs predominantly manifesting as alterations in mRNA translation. Mechanistically, such programs are downstream of the mammalian target of rapamycin pathway in mild COPD and pathological extracellular matrix in more severe COPD; and both programs parallel activation of distinct pro-cancer fibroblast-derived secretomes. Therefore, depending upon COPD severity, the lung stroma can exist in two states favoring cancer initiation, which likely result in distinct disease entities.

Project description:Squamous cell lung cancer (SCC) and adenocarcinoma are the most common subtypes of the lung tumours. The search for cancer-directed treatments has increased the need for understanding molecular features of either histological subtype. The aim of this study was to identify transcriptional regulation differences due to miRNA expression profiles between SCC and adenocarcinoma. For this propose, a total of 44 patients were evaluated to assess the correlation between the miRNA and messenger RNA (mRNA) expression levels. Total RNA were isolated, amplified, labeled and hybridized on Agilent human whole genome V2 22 K microarray chip. qRT-PCR was conducted to validate our microarray data. MicroRNA expression was detected and quantified using the TaqMan Low Density Arrays. Predicted miRNA-mRNA interactions were taken from miRanda, miRWalk and TargetScan. After processing data, changes in 56 mRNAs as well as in 9 miRNAs were detected between SCC and adenocarcinoma. Nearly 20% of overall deregulated genes were targeted by at least one of the 9 miRNAs (miR-149, miR-205, miR-375, miR-378, miR-422a, miR-483-5p, miR-494, miR-601 and miR-708) differentially expressed between SCC and adenocarcinoma. Genes predicted (CEACAM6, CGN, CLDN3, ABCC3, MLPH, ACSL5, TMEM45B, MUC1) to be targeted by several miRNAs were individually validated by qRT-PCR. We found genes involved in tight junctions and other involved in resistance to anticancer agents. These genes were reliable biomarkers, with high sensitivity and specificity, to detect differences between the two most common histological subtypes of lung cancer. In conclusion, our data demonstrate that the transcriptional regulation differences through miRNA expression play an important role in key hallmarks of non-small cell lung cancer. Identification of new molecular markers in lung carcinoma 44 tumour samples following surgical resection for clinical early stage NSCLC (SCC and adenocarcinoma) This series represents the mRNA profiling only (not miRNA). The related miRNA data are in Series GSE43000.

Project description:Introduction: Lung cancer is the leading cause of cancer-related death in people. There are several chemically induced and genetically modified mouse models used to study lung cancer. We hypothesized that spontaneous murine (B6C3F1) lung tumors can serve as a model to study human non-small cell lung cancer (NSCLC). Methods: RNA was extracted from untreated 2-year-old B6C3F1 mouse spontaneous lung (SL) tumors and age-matched normal lung tissue from a chronic inhalation NTP study. Global gene expression analysis was performed using Affymetrix Mouse Genome 430 2.0 GeneChip® arrays. After data normalization, for each probe set, pairwise comparisons between groups were made using a bootstrap t-test while controlling the mixed directional false discovery rate (mdFDR) to generate a differential gene expression list. IPA, KEGG, and EASE software tools were used to evaluate the overrepresented cancer genes and pathways. Results: MAPK and TGF-beta pathways were overrepresented within the dataset. Almost all of the validated genes by quantitative real time RT-PCR had comparable directional fold changes with the microarray data. The candidate oncogenes included Kras, Braf, Raf1, Id2, Hmga1, Cks1b, and Foxf1. The candidate tumor suppressor genes included Rb1, Cdkn2a, Hnf4a, Tcf21, Ptprd, Hpgd, Hopx, Ogn, Id4, Hoxa5, Smad6, Smad7, Zbtb16, Cyr61, Dusp4, and Ifi16. In addition, several genes important in lung development were also differentially expressed, such as Smad6, Hopx, Sox4, Sox9 and Mycn. Conclusion: In this study, we have demonstrated that several cancer genes and signaling pathways relevant for human NSCLC were similarly altered in spontaneous murine lung tumors. Six spontaneous lung tumors and six normal lungs (as controls) from 2-year-old B6C3F1 mice.

Project description:FAM198B is identified as a novel tumor supressor gene in lung adenocarcinoma. This study aim to investigate the effects of the glycoprotein protein, FAM198B, on the biological behavior and global gene expression profiles of lung cancer cells. Expression microarray and bioinformatics analyses indicated that FAM198B mainly regulated ERK-mediated MMP1 pathway in CL1-5 cells, which results in tumor metastasus inhibition. We used microarrays to identify the global gene alterarion in lung cancer CL1-5 cells after ectopic expressing FAM198B

Project description:High intensity aerobic exercise suppresses cancer growth by regulating skeletal muscle-derived oncogenes and tumor suppressors (Lung)