Project description:DUSP1 is involved in different cellular pathways including cancer cell proliferation, angiogenesis, invasion and resistance to chemotherapy. To gain insight into the cellular signaling pathways involving DUSP1 actions and the response to Cisplatin (CDDP) in non small cell lung cancer (NSCLC), we have used a double strategy that combines microarray and SiRNA technology. This strategy provided a differential expression profile of genes involved in CDDP response in NSCLC cell line regulated by DUSP1 using H460 and H460cri and a time course to CDDP. KEYWORDS: Expression profiling by array in cells with genetic modification in response to CCDP treatment

Project description:DUSP1 is involved in different cellular pathways including cancer cell proliferation, angiogenesis, invasion and resistance to chemotherapy. To understand more about the cellular responses regulated by DUSP1 in NSCLC cells, we interfered DUSP1 expression in the NSCLC cell line H460 and studied the changes in gene expression differentially regulated by this phosphatase. Keywords: Expression profiling by array in cells with genetic modification The human non small lung cancer cell line H460 used in this study was from ATCC (American Type Culture Collection). The cell line was maintained in RPMI (Gibco, Invitrogen) supplemented with 10% bovine serum and transfected by Lipofectamine Plus Reagent from Life Technologies as directed by the manufacturer. The DUSP1 pSuperRetro-derived vectors were constructed as described (Chattoppadhyay et al., 2006). Clones expressing siRNA for DUSP1 were selected for their ability to grow in the presence of puromycin and kept for selection. Stable transfection was confirmed by Western blotting. RNA was extracted and quality control was checked before hybridization on Affymetrix microarrays.

Project description:DUSP1 is involved in different cellular pathways including cancer cell proliferation, angiogenesis, invasion and resistance to chemotherapy. To gain insight into the cellular signaling pathways involving DUSP1 actions and the response to Cisplatin (CDDP) in non small cell lung cancer (NSCLC), we have used a double strategy that combines microarray and SiRNA technology. This strategy provided a differential expression profile of genes involved in CDDP response in NSCLC cell line regulated by DUSP1 using H460 and H460cri and a time course to CDDP. KEYWORDS: Expression profiling by array in cells with genetic modification in response to CCDP treatment The human non small lung cancer cell line H460 used in this study was from ATCC (American Type Culture Collection). The cell line was maintained in RPMI (Gibco, Invitrogen) supplemented with 10% bovine serum and transfected by Lipofectamine Plus Reagent from Life Technologies as directed by the manufacturer. The DUSP1 pSuperRetro-derived vectors were constructed as described (Chattoppadhyay et al., 2006). Clones expressing siRNA for DUSP1 were selected for their ability to grow in the presence of puromycin and kept for selection. Stable transfection was confirmed by Western blotting. We analyzed the differences in expression of 47000 genes in H460 cells expressing DUSP1SiRNA (H460cri) compared with the parental cell line H460pSuperRetro vector (H460v) after 0, 1, 3 and 6 hours of CDDP exposure, in order to know the different pathways that were activated by CDDP treatment dependent on expression of DUSP1. RNA was extracted and quality control was checked before hybridization on Affymetrix microarrays.

Project description:Metastasis is a major cause leading to mortality for lung cancer patients. We identified YWHAZ as a potential metastasis-promoting candidate and found that overexpression of YWHAZ promotes lung cancer cell proliferation, anchorage-independent growth, migration, and invasion in vitro, as well as tumorigenesis and metastasis in vivo. It not only increases cell protrusions and branchings but also induces epithelial-mesenchymal transition. Most importantly, YWHAZ protein could prevent £]-catenin from ubiquitination via its association with £]-catenin and enhance slug transcriptional activity which is regulated by £]-catenin/TCF signaling pathway. Moreover, YWHAZ expression was higher in tumors than in adjacent normal tissues in 63 Non-small-cell lung cancer (NSCLC) patients. NSCLC patients with high YWHAZ expressing tumors had shorter overall survival than those with low-expressing tumors. We conclude that YWHAZ play a critical role in promoting NSCLC metastasis. In this investigation, we used a lung cancer invasion cell model to identify the genes involved in cancer progression. YWHAZ is a potential oncogene whose expression is correlated to the survival of patients with breast, prostate and liver cancers. However, the role of YWHAZ in lung caner progression has not been reported, particularly in metastasis. Here, YWHAZ was ectopically expressed in lower invasive lung cancer cell line its impact on colonogenesis, migration and invasiveness was assessed. The underlying mechanism was explored by YWHAZ-expressed transfectants and microarrays and the clinical relevance was evaluated by quantitative RT-PCR.

Project description:CircTLCD4-RWDD3 promotes lymphatic metastasis in non-small cell lung cancer

Project description:Lung cancer is the leading cause of cancer deaths. Its high mortality is associated with high metastatic potential. Here, we show that the RAC1-selective guanine nucleotide exchange factor T cell invasion and metastasis-inducing protein 1 (TIAM1) promotes cell migration and invasion in the most common subtype of lung cancer, non-small-cell lung cancer (NSCLC), through an unexpected nuclear function. We show that TIAM1 interacts with TRIM28, a master regulator of gene expression, in the nucleus of NSCLC cells. We reveal that a TIAM1-TRIM28 complex promotes epithelial-to-mesenchymal transition, a phenotypic switch implicated in cell migration and invasion. This occurs through H3K9me3-induced silencing of protocadherins and by decreasing E-cadherin expression, thereby antagonizing cell–cell adhesion. Consistently, TIAM1 or TRIM28 depletion suppresses the migration of NSCLC cells, while migration is restored by the simultaneous depletion of protocadherins. Importantly, high nuclear TIAM1 in clinical specimens is associated with advanced-stage lung adenocarcinoma, decreased patient survival, and inversely correlates with E-cadherin expression.

Project description:DUSP1 is involved in different cellular pathways including cancer cell proliferation, angiogenesis, invasion and resistance to chemotherapy. To understand more about the cellular responses regulated by DUSP1 in NSCLC cells, we interfered DUSP1 expression in the NSCLC cell line H460 and studied the changes in gene expression differentially regulated by this phosphatase. Keywords: Expression profiling by array in cells with genetic modification

Project description:Lung cancer is the leading cause of cancer-related deaths worldwide. Despite advancements and improvements in surgical and medical treatments, the survival rate of lung cancer patients remains frustratingly poor. Local control for early stage non-small cell lung cancer (NSCLC) has dramatically improved over the last decades for both operable and inoperable patients. However, the molecular mechanisms of NSCLC invasion leading to regional and distant disease spread remain poorly understood. Here we identify miR-224 to be significantly up-regulated in NSCLC tissues, in particular in resected NSCLC metastasis. Increased miR-224 expression promotes cell migration, invasion and proliferation by directly targeting the tumor suppressors, TNFAIP1 and SMAD4. In concordance with in vitro studies, mouse xenograft studies validated that miR-224 function as a potent oncomiR in NSCLC in vivo. Moreover, we found promoter hypomethylation and activated ERK signaling to be involved in the regulation of miR-224 expression in NSCLC. Up-regulated mir-224 thus facilitates tumor progression by shifting the equilibrium of the partially antagonist functions of SMAD4 and TNFAIP1 towards enhanced invasion and growth in NSCLC. Our findings indicate that targeting miR-224 could be effective in the treatment of certain lung cancer patients Oncogenic role of miR-224 in lung cancer

Project description:Metastasis is a major cause leading to mortality for lung cancer patients. We identified YWHAZ as a potential metastasis-promoting candidate and found that overexpression of YWHAZ promotes lung cancer cell proliferation, anchorage-independent growth, migration, and invasion in vitro, as well as tumorigenesis and metastasis in vivo. It not only increases cell protrusions and branchings but also induces epithelial-mesenchymal transition. Most importantly, YWHAZ protein could prevent £]-catenin from ubiquitination via its association with £]-catenin and enhance slug transcriptional activity which is regulated by £]-catenin/TCF signaling pathway. Moreover, YWHAZ expression was higher in tumors than in adjacent normal tissues in 63 Non-small-cell lung cancer (NSCLC) patients. NSCLC patients with high YWHAZ expressing tumors had shorter overall survival than those with low-expressing tumors. We conclude that YWHAZ play a critical role in promoting NSCLC metastasis.

Project description:The mechanisms underlying cancer metastasis remain poorly understood. Here, we report that TFAM deficiency rapidly and stably induced spontaneous lung metastasis in mice with liver cancer. Interestingly, unexpected polymerization of nuclear actin was observed in TFAM-knockdown HCC cells when cytoskeleton was examined. Polymerization of nuclear actin is causally linked to the high-metastatic ability of HCC cells by modulating chromatin accessibility and coordinating the expression of genes associated with extracellular matrix remodeling, angiogenesis, and cell migration. Mechanistically, TFAM deficiency blocked the TCA cycle and increased the intracellular malonyl-CoA levels. Malonylation of mDia2, which drives actin assembly, promotes its nuclear translocation. Importantly, inhibition of malonyl-CoA production or nuclear actin polymerization significantly impeded the spread of HCC cells in mice. Moreover, TFAM was significantly downregulated in metastatic HCC tissues and was associated with overall survival and time to tumor recurrence of HCC patients. Taken together, our study connects mitochondria to the metastasis of human cancer via uncovered mitochondria-to-nucleus retrograde signaling, indicating that TFAM may serve as an effective target to block HCC metastasis.