Project description:Background: Although acquired immunodeficiency syndrome-related mortality has decreased since the introduction of antiretroviral therapy, the incidence of lung cancer in patients living with HIV (PLWH) remains high. Understanding the effects of tobacco smoke on airway gene expression in PLWH may provide insight into the elevated lung cancer risk associated with HIV. Methods: Airway epithelial brushings were collected from 12 PLWH who smoke and 19 PLWH who have never smoked and profiled using RNA-seq. Linear models were used to identify genes differentially expressed between people who smoke and have never smoked and between people who previously smoked and have never smoked. Gene set enrichment analysis was used to validate smoking-related gene signatures across datasets. Data was integrated with gene expression data from a cohort of patients without HIV to identify genes differentially modulated by both smoking and HIV status. Results: We found that previous smoking-related gene signatures are similarly associated with smoking in PLWH, including the persistent differential expression of a subset of "irreversibly altered" genes in people who previously smoked compared to people who have never smoked. We also identified and validated two gene signatures specifically modulated in people who smoke without HIV. Conclusions: Many of the effects of smoking on bronchial gene expression are shared between PLWH and non-HIV individuals. Of the subset of genes that differ between PLWH and non-HIV individuals, it appears that the effect of smoking on gene expression is more attenuated in PLWH. This includes genes related to oxidative stress and epithelial integrity, and suggests potential mechanisms that may contribute to smoking-related outcomes that are more prevalent in PLWH, such as lung cancer.

Project description:Prior microarray studies of smokers at high risk for lung cancer have demonstrated that heterogeneity in bronchial airway epithelial cell gene expression response to smoking can serve as an early diagnostic biomarker for lung cancer. This study examines the relationship between gene expression variation and genetic variation in a central molecular pathway (NRF2-mediated antioxidant response) associated with smoking exposure and lung cancer. We assessed global gene expression in histologically normal airway epithelial cells obtained at bronchoscopy from smokers who developed lung cancer (SC, n=20), smokers without lung cancer (SNC, n=24), and never smokers (NS, n=8). Functional enrichment showed that the NRF2-mediated antioxidant response pathway differed significantly among these groups. Keywords: Global mRNA expression profiling

Project description:Prior microarray studies of smokers at high risk for lung cancer have demonstrated that heterogeneity in bronchial airway epithelial cell gene expression response to smoking can serve as an early diagnostic biomarker for lung cancer. This study examines the relationship between gene expression variation and genetic variation in a central molecular pathway (NRF2-mediated antioxidant response) associated with smoking exposure and lung cancer. We assessed global gene expression in histologically normal airway epithelial cells obtained at bronchoscopy from smokers who developed lung cancer (SC, n=20), smokers without lung cancer (SNC, n=24), and never smokers (NS, n=8). Functional enrichment showed that the NRF2-mediated antioxidant response pathway differed significantly among these groups. Keywords: Global mRNA expression profiling 21 total arrays (20 unique patients) run on total RNA obtained from Bronchial Epithelium of Smokers with Lung Cancer 30 total arrays (24 unique patients) run on total RNA obtained from Bronchial Epithelium of Smokers without Lung Cancer 9 total arrays (8 unique patients) run on total RNA obtained from Bronchial Epithelium of Never Smokers

Project description:Objective: People with HIV (PWH) experience excess comorbidities, including neurocognitive disorders, which are linked to inflammation, particularly monocyte-macrophage activation. Smoking contributes to morbidity and mortality in well-treated PWH. We investigated associations between smoking, neurocognitive function, and inflammation in PWH on ART. Design: We used baseline data on cognition and inflammation from a randomized treatment study among smoking and non-smoking PWH. Participants completed 4 neurocognitive tests (7 measures), with a composite score as the primary measure. Inflammatory markers were plasma sCD14, sCD163, and CCL2/MCP-1; %CD14+ monocytes expressing CD16, CD163, and CCR2; and %CD8+ T cells co-expressing CD38/HLA-DR. Exploratory analyses included a plasma cytokine/chemokine panel, hsCRP, neurofilament light chain (NFL) and monocyte transcriptomes by RNAseq. Results: We recruited 58 PWH (26 smokers, 32 non-smokers). Mean composite and individual neurocognitive scores did not differ significantly by smoking status except for the color shape task; smokers exhibited worse cognitive flexibility, with adjusted mean times 317.2 (95%CI 1.4, 632.9) msec longer than non-smokers. Smokers had higher plasma sCD14 than non-smokers (median(IQR) 1820(1678, 2105) versus 1551(1284, 1760) ng/ml, p=0.009). Other inflammatory markers were not significantly different between smokers and non-smokers. Monocyte transcriptomes showed several functions, regulators and gene sets that differed by smoking status. Conclusions: sCD14, a marker of monocyte activation, is elevated in PWH who smoke. While neurocognitive measures and other inflammatory markers did not generally differ, these data implicate smoking-related myeloid activation and monocyte gene dysregulation in the HIV/smoking synergy driving HIV-associated comorbidities.

Project description:Background: Age-related comorbidities remain a burden in People living with HIV (PLWH). DNA methylation may be a link between HIV, aging, and the increased risk of lung comorbidities. Here, we investigate whether bronchoalveolar lavage (BAL) cells of PLWH demonstrate epigenome wide disruptions and advanced epigenetic aging. Methods: BAL cell DNA methylation profiles from 25 PLWH and 16 uninfected controls were tested for differential methylation of transposable elements Alu and LINE-1, a marker of aging. We used a weighted gene correlation network analysis to identify co-methylation networks associated with HIV and age. We tested the effect of HIV on DNA methylation using a robust linear model. An enrichment analysis was conducted to identify differentially methylated pathways (false discovery rate <0.10). Results: The BAL cells of PLWH were marked by global hypomethylation in both Alu and LINE-1 elements. Six co-methylated CpG networks were identified that were significantly associated with age; of these, the red module was significantly differentially methylated in PLWH and enriched pathways associated with HIV, Ras signaling, T cell receptors, and bacterial invasion of epithelial cells. We identified 6,428 differentially methylated sites associated with HIV. Conclusions: We have shown here for the first time that alterations in the DNA methylation of BAL cells (mainly macrophages) in the lung HIV show in a pattern of advanced aging. In conjunction with our findings in blood cells and airway cells, this study strongly support that HIV may contribute to increase the risk of lung comorbidities through the epigenetic regulation of aging.

Project description:The apical junctional complex (AJC), composed of tight junctions and adherens junctions, is essential for maintaining epithelial barrier function. Since cigarette smoking and chronic obstructive pulmonary disease (COPD), the major smoking-induced disease, are both associated with increased lung epithelial permeability, we hypothesized that smoking alters the transcriptional program regulating AJC integrity in the small airway epithelium (SAE), the primary site of pathological changes in COPD. Transcriptome analysis revealed a global down-regulation of physiological AJC gene expression in the SAE of healthy smokers (n=53) compared to healthy nonsmokers (n=59), an observation associated with changes in molecular pathways regulating epithelial differentiation such as PTEN signaling and accompanied by induction of cancer-related AJC genes. Genome-wide co-expression analysis identified a smoking-sensitive AJC transcriptional network. The overall expression of AJC-associated genes was further decreased in COPD smokers (n=23). Exposure of human airway epithelial cells to cigarette smoke extract in vitro resulted in down-regulation of several AJC-related genes, accompanied by decreased transepithelial resistance. Thus, cigarette smoking alters the AJC gene expression architecture in the human airway epithelium, providing a molecular basis for the dysregulation of airway epithelial barrier function during the development of smoking-induced lung disease. The apical junctional complex (AJC), composed of tight junctions and adherens junctions, is essential for maintaining epithelial barrier function. Since cigarette smoking and chronic obstructive pulmonary disease (COPD), the major smoking-induced disease, are both associated with increased lung epithelial permeability, we hypothesized that smoking alters the transcriptional program regulating AJC integrity in the small airway epithelium (SAE), the primary site of pathological changes in COPD. In this study, microarray analysis of the SAE obtained from 53 healthy nonsmokers, 59 healthy smokers, and 23 smokers with COPD was performed to determine physiological AJC gene expression architecture in the SAE and its modification by cigarette smoking and during the development of COPD.

Project description:Cigarette smoke is associated with the majority of lung cancers: however, 25% of lung cancer patients are non-smokers, and half of all newly diagnosed lung cancer patients are former smokers. Lung tumors exhibit distinct epidemiological, clinical, pathological, and molecular features depending on smoking status, suggesting divergent mechanisms underlie tumorigenesis in smokers and non-smokers. MicroRNAs (miRNAs) are integral contributors to tumorigenesis and mediate biological responses to smoking. Based on the hypothesis that smoking-specific miRNA differences in lung adenocarcinomas reflect distinct tumorigenic processes selected by different smoking and non-smoking environments, we investigated the contribution of miRNA disruption to lung tumor biology and patient outcome in the context of smoking status. Results: We discovered novel and distinct smoking-status-specific patterns of miRNA and miRNA-mediated gene networks, and identified miRNAs that were prognostically significant in a smoking-dependent manner. Conclusions: We conclude that miRNAs disrupted in a smoking-status-dependent manner affect distinct cellular pathways and differentially influence lung cancer patient prognosis in current, former and never smokers. Our findings may represent promising biologically relevant markers for lung cancer prognosis or therapeutic intervention.

Project description:Despite successful combination antiretroviral therapy (cART), persistent low-grade immune activation together with inflammation and toxic antiretroviral drugs can lead to long-lasting metabolic flexibility and adaptation in people living with HIV (PLWH). Our study investigated alterations in the plasma metabolic profiles by comparing PLWH on long-term cART(>5years) and matched HIV-negative controls (HC) in two cohorts from low- and middle-income countries (LMIC), Cameroon and India, respectively to understand the system-level dysregulation in HIV-infection. Using untargeted and targeted LC-MS/MS-based metabolic profiling and applying advanced system biology methods, an altered amino acid metabolism, more specifically to glutaminolysis in PLWH than HC were reported. A significantly lower level of neurosteroids were observed in both cohorts and could potentiate neurological impairments in PLWH. Further, modulation of cellular glutaminolysis promoted increased cell death and latency reversal in pre-monocytic HIV-1 latent cell model U1, which may be essential for the clearance of the inducible reservoir in HIV-integrated cells.

Project description:Testican 3 (coded for by SPOCK3), is an extracellular matrix heparan/chondroitin sulphate proteoglycan that possesses serine and cysteine protease inhibitor-like domains Based on the knowledge that serine proteases contribute to the destruction of the lung in cigarette smokers, but that only a fraction of smokers develop smoking-induced lung disease, we hypothesized that smokers expressed SPOCK3 at lower levels in the small airway epithelium, the initial site of smoking-induced disease, and further, that genetic variability modulates the expression of SPOCK3 in the airway epithelium. Assessment of gene expression in the small airway epithelium (10th -12th order bronchi) of healthy non-smokers (n=38) and healthy smokers (n=42), demonstrated that the expression levels of SPOCK3 were significantly lower in healthy smokers compared to healthy nonsmokers (p<0.04). Affymetrix Human SNP array 5.0 was used to assess genome wide single nucleotide polymorphisms (SNPs) within 100 kbp of the SPOCK3 gene in the same nonsmokers and smokers, and these SNPs were correlated with small airway gene expression of SPOCK3, with correction for variation in genetic ancestry. There was a significant correlation of SPOCK3 small airway epithelial gene expression with 13 adjacent SNPs in the SPOCK3 gene (p<10-3, all comparisons, Wald test). For example, the TT allele of rs13124292, located in intron 3, was associated with a small airway epithelial expression levels of 0.56 ± 0.07, and the AA genotype with expression levels of 2.31 ± 0.26 (p<10-6, pairwise t test). Interestingly, smoking appeared to lessen the degree to which genotype associated with SPOCK3 expression level, i.e., smoking to some extent overrode the influence of genetic variation. The observation that SPOCK3 gene expression in the small airway epithelium is reduced in smokers, and that smoking interacts with cis-genomic variations to determine the levels of SPOCK3 small airway epithelial gene expression, is consistent with the concept that everyone is at risk for smoking-induced lung disease, but that inherited genetic variations contribute to the pathogenesis of susceptibility to smoking-induced disease.

Project description:Background: Waterpipe (hookah, shisha, narghile), a worldwide, commonly used method to smoke tobacco, is considered “safe” by its users because the smoke is “filtered” by water before inhalation. Based on the knowledge that lung cells take the brunt of inhaled smoke, we hypothesized that even mild waterpipe smoking is associated with disordering of lung biology. Methods: Young (25±4 yr), mild (3.5±2.5 sessions/wk for 4.1±2.5 years) waterpipe smokers with no history of cigarette smoking (n=21) were assessed in comparison to nonsmokers (33±9 yr, n=19) for routine clinical paramters, lung epithelial lining fluid metabolome, small airway epithelial (SAE) cell differential and transcriptome, alveolar macrophage (AM) transcriptome, plasma endothelial cell microparticles (EMPs), cough and sputum scores, lung function, chest HRCT. Results: Compared to nonsmokers, waterpipe smokers had increased levels of blood carboxy-hemoglobin, an abnormal epithelial lining fluid metabolome profile, increased proportions of SAE secretory and intermediate cells, reduced proportions of ciliated and basal cells, markedly abnormal SAE and AM transcriptomes, elevated levels of EMPs derived from apoptotic pulmo-nary endothelium, more cough and sputum, and lower diffusion capacity (DLCO). Conclusions: Young, mild-use waterpipe-only smokers have a variety of abnormalities in multiple lung-related biologic and clinical parameters, suggesting that even limited waterpipe use may be linked to lung disease, i.e., waterpipe smoking may be associated with a significant public health risk.