Project description:Objective: Head and neck squamous cell carcinoma (HNSCC) is one severe malignancy driven by complex cellular and signaling mechanisms. However, the roles of circular RNAs (circRNAs) in HNSCC’s development remains poorly understood. Therefore, this study investigated the functions of differentially expressed circRNAs in regulating HNSCC cell functions. Methods: Differentially expressed circRNAs were characterized through RNA sequencing in HNSCC tissues. CircRNA’s identity was then confirmed using RT-PCR and Sanger’s sequencing. Next, expression levels of circRNA and mRNA were detected by qRT-PCR, after which protein abundances were measured by Western blotting. Subsequently, the proliferation, migration, and invasion of HNSCC cells was assessed by MTS, wound healing, and Transwell system, respectively, followed by identification of circRNA-binding proteins in HNSCC cells by circRNA pull-down, coupled with mass spectrometry. Results: Great alterations in circRNA profiles were detected in HNSCC tissues, including the elevated expression of circ_0000045. As observed, silencing of circ_0000045 effectively repressed the proliferation, migration, and invasion of HNSCC cell lines (FaDu and SCC-9). Contrarily, circ_0000045’s overexpression promoted the proliferation, migration, and invasion in FaDu and SCC-9 cells. Results also showed that circ_0000045 was associated with multiple RNA-binding proteins in HNSCC cells, such as HSP70. Moreover, circ_0000045 knockdown enhanced HSP70 expression and promoted JNK2 and P38’s expression in HNSCC cells, which were oppositely regulated by circ_0000045’s overexpression. Conclusion: The high expression of circ_0000045; therefore, promoted cell proliferation, migration, and invasion during HNSCC’s development through association with HSP70 protein to activate mitogen-activated protein kinase signaling.

Project description:The aim of present study was to study the changes in peripheral blood gene expression profile induced by smoking. RNA was extracted from the PBMCs of 48 persons with detailed smoking history (24 were non-smokers, 16 were current smokers and 8 were ex-smokers). Gene expression profile was evaluated with the RNA sequencing and results were analyzed separately in males (24) and females (24). In male smokers, 13 genes were statistically significantly (FDR < 0.1) differentially expressed. In female smoker, 5 genes were differentially expressed with the FDR<0.1. Most of the differentially expressed genes were different between male and female smokers. However, GPR15, expression was changed in male and female smokers compared to non-smokers. Further analysis on the methylation of the genes GPR15 identified significant hypomethylation in smokers compared to non-smokers. GPR15 is the chemo-attractant receptor that regulates T-cell migration and immunity. Up-regulation of GPR15 could explain to some extend the health hazards of smoking for chronic inflammatory diseases

Project description:Introduction: In vitro 3-dimension spheroid culture has been widely used as model to enrich CD44+CD24dim/- cancer stem cells with high ALDH1 activity. However, present of the CD24+ population in the 3D spheroid also requests further attention as this side-population of cells may response differently to drug treatment comparing to the cancer stem cells. Methods: In this study, CD24+ population from the MCF-7 spheroid was sorted and subjected to spheroid formation test, stem cell markers immunofluorescence, invasion/migration test, and microRNA expression profiling. MCF-7 CD24+ cells sorted from primary spheroid reform 3D spheroid after longer period of time associated with dim expression of surface SOX-2, CD44, CD49f and Nanog comparing to the primary spheroid. Results: Remarkably, the MCF-7 CD24+ cells was found with high expression of ALDH1 protein, which subsequently contributed to higher resistant against doxorubicin and cisplatin. MicroRNA profiling has shown that absent of cancer stem cell phenotypes were contributed by the downregulation of major cancer stem cells related pathways including Hedgehog, Wnt and MAPK signalling pathways. Besides, resistance of CD24+ cells was correlated to dyregulation of cell death pathway.

Project description:Background Despite compelling evidence that cigarette smoking impacts the risk of developing Multiple Sclerosis (MS), little is known about smoking-associated changes in the primary exposed cells in the lung of patients. We aimed to examine molecular changes occurring in pulmonary immune cells from MS patients in relation to smoking and in comparison to healthy controls (HC). Methods We profiled genome-wide DNA methylation (5mC) and hydroxymethylation (5hmC) in bronchoalveolar lavage (BAL) cells collected from female MS patients (9 smokers, 8 non-smokers) and healthy volunteers (10 smokers, 12 non-smokers), using Illumina Infinium EPIC arrays on conventional (BS) and oxidative (oxBS) bisulfite DNA. We profiled gene expression using RNA-sequencing in non-smoker MS patients and controls. Findings The most prominent changes were found in relation to smoking, with 1376 BS-differentially methylated positions (DMPs), 131 5mC-DMPs and 4 5hmC-DMP (adjusted P < 0.05) differing between MS smokers and non-smokers. Approximately 30% of the affected genes overlapped with smoking-associated changes in HC, leading to a strong common smoking signature in both MS and HC after gene ontology analysis. Smoking in MS patients resulted in additional discrete changes related to neuronal processes. To further explore MS-specific signature, we performed RNA sequencing in BAL cells from non-smoker MS patients and controls. Overall, methylome and transcriptome analyses in non-smokers suggest that BAL cells from MS patients display very subtle but concordant changes associated to genes connected to reduced transcriptional/translational processes and enhanced cellular adhesion and migration, further corroborating findings from animal studies. Interpretation Our study provides new insights into the impact of smoking on lung inflammation in the immunopathogenesis of MS. -

Project description:Understanding the possible impact of potential confounding factors is necessary for any approach to radiation biodosimetry. Potential confounding factors have not been fully addressed for gene expression-based biodosimetry approaches, such as we are developing. To begin addressing this need, we have used an ex vivo irradiated peripheral blood cell model to investigate the potential effect of smoking on the global radiation gene expression response, and looked for genes that respond to radiation differently in smokers and non-smokers, and also in males and females. The results indicate that only a small number of genes may be significantly confounded by either factor, supporting the idea of developing peripheral blood gene expression strategies for radiation biodosimetry.

Project description:Cigarette smoking is the major cause of cancers of the respiratory tract, including non-small cell lung cancer (NSCLC) and head and neck cancer (HNC). In order to better understand carcinogenesis of the lung and upper airways, we have compared the gene expression profiles of tumour-distant, histologically normal bronchial biopsy specimens obtained from current smokers with NSCLC or HNC (SC, considered as a single group), as well as non-smokers (NS) and smokers without cancer (SNC). RNA from a total of 97 biopsies was used for gene expression profiling (Affymetrix HG-U133 Plus 2.0 array). Differentially expressed genes were used to compare NS, SNC, and SC, and functional analysis was carried out using Ingenuity Pathway Analysis (IPA). Smoking-related cancer of the respiratory tract was found to affect the expression of genes encoding xenobiotic biotransformation proteins, as well as proteins associated with crucial inflammation/immunity pathways and other processes that protect the airway from the chemicals in cigarette smoke or contribute to carcinogenesis. Finally, we used the prediction analysis for microarray (PAM) method to identify gene signatures of cigarette smoking and cancer, and uncovered a 15-gene signature that distinguished between SNC and SC with an accuracy of 83%. Thus, gene profiling of histologically normal bronchial biopsy specimens provided insight into cigarette-induced carcinogenesis of the respiratory tract and gene-signatures of cancer in smokers.

Project description:Understanding the possible impact of potential confounding factors is necessary for any approach to radiation biodosimetry. Potential confounding factors have not been fully addressed for gene expression-based biodosimetry approaches, such as we are developing. To begin addressing this need, we have used an ex vivo irradiated peripheral blood cell model to investigate the potential effect of smoking on the global radiation gene expression response, and looked for genes that respond to radiation differently in smokers and non-smokers, and also in males and females. The results indicate that only a small number of genes may be significantly confounded by either factor, supporting the idea of developing peripheral blood gene expression strategies for radiation biodosimetry. Blood from each of 24 different donors was exposed to four doses of ionizing radiation (0, 0.1, 0.5, or 2 Gy) and analyzed using single-color microarray hybridization. The donors represented equal numbers of male and female smokers (1 or more packs a day) and non-smokers. There are 95 data sets in the study as the sample from one of the female smokers exposed to 2 Gy was lost.

Project description:The first changes associated with smoking are in the small airway epithelium (SAE). Given that smoking alters SAE gene expression, but only a fraction of smokers develop chronic obstructive pulmonary disease (COPD), we hypothesized that assessment of SAE genome-wide gene expression would permit biologic phenotyping of the smoking response, and that a subset of healthy smokers would have a “COPD-like” SAE transcriptome. SAE (10th-12th generation) was obtained via bronchoscopy of healthy nonsmokers, healthy smokers and COPD smokers and microarray analysis was used to identify differentially expressed genes. Individual responsiveness to smoking was quantified with an index representing the % of smoking-responsive genes abnormally expressed (ISAE), with healthy smokers grouped into “high” and “low” responders based on the proportion of smoking-responsive genes up- or down-regulated in each smoker. Smokers demonstrated significant variability in SAE transcriptome with ISAE ranging from 2.9 to 51.5%. While the SAE transcriptome of “low” responder healthy smokers differed from both “high” responders and smokers with COPD, the transcriptome of the “high” responder healthy smokers was indistinguishable from COPD smokers. The SAE transcriptome can be used to classify clinically healthy smokers into subgroups with lesser and greater responses to cigarette smoking, even though these subgroups are indistinguishable by clinical criteria. This identifies a group of smokers with a “COPD-like” SAE transcriptome.

Project description:The extracellular matrix (ECM) proteins play an important role in the physiological and pathological processes of tumor development and progression. EMILIN1 (Elastic Microfibril Interface Located ProteIN-1), a homotrimeric ECM glycoprotein, has been reported to be associated with cell adhesion and migration. We previously identified downregulated-EMILIN1 as a prognostic biomarker for secondary primary malignancy in head and neck squamous cell carcinoma (HNSCC). We hypothesized that EMILIN1 functions as a tumor suppressor in HNSCC. In this study, we overexpressed exogenous EMILIN1 expression in the FaDu and CAL27 cell lines and knockdown EMILIN1 expression in both HNSCC Cancer-Associated Fibroblast (CAF) and normal fibroblast cells. Our results showed that EMILIN1 overexpression decreased cell proliferation, cell migration, and cell invasion in FaDu and CAL27 cells. Knockdown EMILIN1 in CAFs also induced cell proliferation and migration. RNA-sequencing analysis revealed the cell cycle and Aurora kinase signaling as the most significant enrichment pathways, and we then confirmed this finding at the protein level. Furthermore, we studied the effect of EMILIN1 on tumor development in vivo using chick chorioallantoic membrane (CAM) assay. EMILIN1overexpression reduced tumor area, Ki67-positive cells, and increased cleaved caspase-3 apoptotic cells. These findings suggest the tumor suppressing role of EMILIN1 in HNSCC through the inactivation of cell cycle pathway and Aurora kinase signaling. To the best of our knowledge, this is the first study to show that Aurora kinases are the key players in EMILIN1 tumor suppressive functions in head and neck cancer cells.

Project description:Little is known about alteration of the global gene expression by cigarette smoke (CS) and few biomarkers for smoking-related harm are available. We used Affymetrix HG-U133A GeneChips to measure the transcriptomes in eight cultured lymphocyte samples exposed to cigarette smoke condensate (CSC) in vitro . The in vitro exposure of lymphocytes to CSC significantly changed expression levels of 2,266 genes many of which biologically interacted. They included genes encoding for xenobiotic metabolism and oxidative stress-response (e.g. Nrf2 and AhR signaling pathways), inflammation/immune response (e.g. cytokines), apoptosis, cell cycle and tumorigenesis. However, the magnitude of expression responses for some genes showed high inter-individual variability. Experiment Overall Design: The goals of this study were to evaluate novel gene expression profiles and pathways affected by cigarette smoke condensate (CSC), and to identify potential biomarkers for cigarette smoke exposure and harm. To this end, we isolated the PBMC from eight light smokers, cultured the cells in vitro and exposed them to 2R4F CSC, then determined the gene expression profiles with Affymetrix microarray and analyzed alteration of global gene expression after exposure to CSC.