Project description:Cigarette smoke is a major risk factor for the development and progression of chronic obstructive pulmonary disease. Tobacco smoking is also the main cause of lung cancer and the main preventable cause of other lung and heart disease. Strategies to eliminate cigarette smoking have led to the emergence of new tobacco-related products as alternatives for cigarette smoking or tools for smoking cessation. Electronic cigarettes (E-cigarettes) have been introduced to the market in recent years as an alternative to smoking conventional cigarettes. E-cigarettes are nicotine delivery devices by heating and converting to aerosol a liquid mixture composed of propylene glycol, vegetable glycerine, flavouring chemicals, and nicotine. Despite the lack of appropriate studies, e-cigarettes are nowadays widely used and advertised as safe cigarette replacements and the number of users is rapidly growing. Unlike cigarette smoke, where the determinant effects are well studied and documented, very limited amount of research has been done on the health effects and public health of e-cigarettes. The study aims to investigate the effects of e-cigarette vapour extract on gene expression in different primary isolated mouse lung cells [pulmonary arterial smooth muscle cells (PASMC) and alveolar epithelial type two cells (AECII)]. The cells will be exposed to e-cigarette vapour extract (ECVE).

Project description:Gene expression patterns were assessed in normal human bronchial epithelial (NHBE) cells exposed to cigarette smoke from a reference cigarette (2R4F, University of Kentucky) and a typical American brand of "light" cigarettes ("Lights") in order to develop a better understanding of the genomic impact of tobacco exposure, which can ultimately define biomarkers that discriminate tobacco-related effects and outcomes in a clinical setting. NHBE cells were treated with whole cigarette smoke for 15 minutes and alterations to the transcriptome assessed at 2, 4, 8 and 24 hours post-exposure using high-density oligonucleotide microarrays. Keywords: time course, cigarette smoke exposure

Project description:Gene expression patterns were assessed in normal human bronchial epithelial (NHBE) cells exposed to cigarette smoke from a reference cigarette (2R4F, University of Kentucky) and a typical American brand of "light" cigarettes ("Lights") in order to develop a better understanding of the genomic impact of tobacco exposure, which can ultimately define biomarkers that discriminate tobacco-related effects and outcomes in a clinical setting. NHBE cells were treated with whole cigarette smoke for 15 minutes and alterations to the transcriptome assessed at 2, 4, 8 and 24 hours post-exposure using high-density oligonucleotide microarrays. Experiment Overall Design: 4 replicate Petri dishes of cells were exposed in a custom-built smoke exposure chamber. Cigarettes were smoked as per FTC protocols, and the smoke diluted such that the cells were at least 50% viable as compared to mock (air)-exposed controls after 24h. RNA from each replicate dish was analyzed using a separate array. Four replicates of an incubator (untreated with either smoke or air) are included also.

Project description:Cystathionine Beta Synthase (CBS), an enzyme that utilizes a methionine precursor to generate glutathione (GSSH), has been implicated in the mitigation of ROS production in COPD lung. Additionally, post-translational modification analysis on mouse and human cells treated with cigarette smoke showed the unique presence of mono- and di-methylated histone H3 lysine 27 that was not seen in controls, suggesting that cigarette smoke could lead to loss of Polycomb Repressive Complex 2 (PRC2) activity. To elucidate CBS as a potential upstream target for PRC2 inhibition, we overexpressed CBS in Human Bronchial Epithelial Cells (HBECs), grew them as 2D cultures, then conducted bulk RNA seq analysis.

Project description:normal human bronchial epithelial cultures from two cultures in parallel exposed to cigarette smoke (CS) or air (mock) at timepoints 4 hours and 24 hours. Keywords = cigarette smoke Keywords = microarray Keywords = bronchial cell Keywords = tobacco Keywords: time-course

Project description:These studies tested the hypotheses that smoke induces changes in mRNA profiles that are dependent on sex and the health status of the lung, and that the effects of smoke are different after 1 day compared to 5 days of smoke exposure. The ways in which the lungs modulate their response to cigarette smoke after repeated exposures are important for understanding the toxicology of smoke, for developing biomarkers of chronic smoke exposure, and for understanding the therapeutic potential in regulatory signaling pathways that are beneficial or detrimental to lung health. Sex-matched 5-7-week old wildtype (WT) and Scnn1b-overexpressing (BENaC) littermates were exposed to cigarette smoke or sham (room air) exposure. Exposure occurred in a plexiglass chamber attached to a smoke delivery device using an exposure chamber and smoking machine (inExpose Exposure System, SCIREQ, Chandler, AZ). Mice were exposed to mainstream + sidestream smoke from 6 reference cigarettes with filters removed per day (3R4F research cigarettes, University of Kentucky). Each cigarette was puffed for 2 sec every 25 sec, using the standard Federal Trade Commission smoking machine protocol. The sham-exposed control mice were exposed to room air in the exposure chamber for a time equivalent to that needed for active smoke exposure. Mice were exposed to cigarette or sham smoke for 1 day or 5 consecutive days. Samples were harvested 4 hours after the completion of the final smoke exposure. The right lung was used for gene expression analysis.

Project description:Cigarette smoke (CS) is an aerosol containing more than 6,000 chemicals and one of the risk factor in the development of chronic inflammatory lung disease. To evaluate biological effect of CS on human respiratory tract, organotypic bronchial epithelial cultures can be used to replicate in vivo tissue conditions. The MucilAir organotypic bronchial epithelial cultures were exposed to mainstream aerosols from the 3R4F cigarette and a novel tobacco vapor product (NTV), which we recently developed, using a Vitrocell exposure system. This system consists of three steps: the generation of CS, dilution, and exposure to an air-liquid interface cultured cells in a specially designed module. This exposure scenario mimics CS exposure in the human airway (i.e. direct aerosol exposure to the apical surface of air-liquid interface-cultured cells), We found a dose-dependent increase in the number of differentially expressed genes following 3R4F cigarette smoke exposure, compared with expression in air-exposed controls. In contrast, no changes were detected following exposure to NTV vapor.

Project description:Cigarette smoking is the leading cause of lung cancer worldwide. Carcinogens in smoke produced during the combustion of cigarette tobacco are responsible for airway epithelial changes underlying lung carcinogenesis. Reduction of harmful constituents by heating rather than combusting tobacco would be a sound strategy to reduce the risk for lung cancer. In this study we characterized the functional and molecular changes during long-term treatment of human bronchial epithelial cells with total particulate matter (TPM) from a new candidate modified risk tobacco product (cMRTP), the tobacco heated system 2.2 (THS2.2) in comparison with TPM from combustible 3R4F reference cigarettes.

Project description:Cigarette smoking is the leading cause of lung cancer worldwide. Carcinogens in smoke produced during the combustion of cigarette tobacco are responsible for airway epithelial changes underlying lung carcinogenesis. Reduction of harmful constituents by heating rather than combusting tobacco would be a sound strategy to reduce the risk for lung cancer. In this study we characterized the functional and molecular changes during long-term treatment of human bronchial epithelial cells with total particulate matter (TPM) from a new candidate modified risk tobacco product (cMRTP), the tobacco heated system 2.2 (THS2.2) in comparison with TPM from combustible 3R4F reference cigarettes.

Project description:Gene expression patterns were assessed in normal human bronchial epithelial (NHBE) cells exposed to cigarette smoke (CS) from a typical "full flavor" American brand of cigarettes in order to develop a better understanding of the genomic impact of tobacco exposure, which can ultimately define biomarkers that discriminate tobacco-related effects and outcomes in a clinical setting. NHBE cells were treated with CS for 15 minutes and alterations to the transcriptome assessed at 1,2,4 and 24 hours post-CS-exposure using high-density oligonucleotide microarrays. Keywords: Time course