Similarities and differences between smoking-related gene expression in nasal and bronchial epithelium

Previous studies have shown that physiological responses to cigarette smoke can be detected via bronchial airway epithelium gene expression profiling and that heterogeneity in this gene expression response to smoking is associated with lung cancer. In this study, we sought to determine the similarity of the effects of tobacco smoke throughout the respiratory tract by determining patterns of smoking-related gene expression in paired nasal and bronchial epithelial brushings collected from 14 healthy nonsmokers and 13 healthy current smokers. Using whole genome expression arrays, we identified 119 genes whose expression was affected by smoking similarly in both bronchial and nasal epithelium, including genes related to detoxification, oxidative stress, and wound healing. While the vast majority of smoking-related gene expression changes occur in both bronchial and nasal epithelium, we also identified 27 genes whose expression was affected by smoking more dramatically in bronchial epithelium than nasal epithelium. Both common and site-specific smoking-related gene expression profiles were validated using independent microarray datasets. Differential expression of select genes was also confirmed by RT-PCR. That smoking induces largely similar gene expression changes in both nasal and bronchial epithelium suggests that the consequences of cigarette smoke exposure can be measured in tissues throughout the respiratory tract. Our findings suggest that nasal epithelial gene expression may serve as a relatively noninvasive surrogate to measure physiological responses to cigarette smoke and/or other inhaled exposures in large-scale epidemiological studies.

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Early response of gene clusters is associated with mouse lung resistance or sensitivity to cigarette smoke

AJP Lung Cellular and Molecular Physiology ◽

10.1152/ajplung.90382.2008 ◽

2009 ◽

Vol 296 (3) ◽

pp. L418-L429 ◽

Cited By ~ 20

Author(s):

Eleonora Cavarra ◽

Paolo Fardin ◽

Silvia Fineschi ◽

Annamaria Ricciardi ◽

Giovanna De Cunto ◽

...

Keyword(s):

Gene Expression ◽

Cigarette Smoke ◽

Gene Clusters ◽

Early Response ◽

Cigarette Smoke Exposure ◽

Mouse Lung ◽

Individual Response ◽

Molecular Signaling ◽

Gene Expression Response ◽

Real Time Quantitative Pcr

We have investigated the effects of cigarette smoke exposure in three different strains of mice. DBA/2 and C57BL/6J are susceptible to smoke and develop different lung changes in response to chronic exposure, whereas ICR mice are resistant to smoke and do not develop emphysema. The present study was carried out to determine early changes in the gene expression profile of mice exposed to cigarette smoke with either a susceptible or resistant phenotype. The three strains of mice were exposed to smoke from three cigarettes per day, 5 days/wk, for 4 wk. Microarray analysis was carried out on total RNA extracted from the lung using the Affymetrix platform. Cigarette smoke modulates several clusters of genes (i.e., proemphysematous, acute phase response, and cell adhesion) in smoke-sensitive DBA/2 or C57BL/6J strains, but the same genes are not altered by smoke in ICR resistant mice. Only a few genes were commonly modulated by smoke in the three strains of mice. This pattern of gene expression suggests that the response to smoke is strain-dependent and may involve different molecular signaling pathways. Real-time quantitative PCR was used to verify the pattern of modulation of selected genes and their potential biological relevance. We conclude that gene expression response to smoke is highly dependent on the mouse genetic background. We speculate that the definition of gene clusters associated, to various degrees, with mouse susceptibility or resistance to smoke may be instrumental in defining the molecular basis of the individual response to smoke-induced lung injury in humans.

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Use of lung gene expression profiles to determine exposure to oxidative stress-related constituents during cigarette smoke exposure in rodents

Toxicology Letters ◽

10.1016/j.toxlet.2013.05.046 ◽

2013 ◽

Vol 221 ◽

pp. S69

Author(s):

Marc Fariss ◽

Yin Guo ◽

Mariano Scian ◽

Jeffery Edmiston

Keyword(s):

Oxidative Stress ◽

Gene Expression ◽

Cigarette Smoke ◽

Expression Profiles ◽

Gene Expression Profiles ◽

Smoke Exposure ◽

Cigarette Smoke Exposure

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Mouse Protocadherin-1 Gene Expression Is Regulated by Cigarette Smoke Exposure In Vivo

PLoS ONE ◽

10.1371/journal.pone.0098197 ◽

2014 ◽

Vol 9 (7) ◽

pp. e98197 ◽

Cited By ~ 7

Author(s):

Henk Koning ◽

Antoon J. M. van Oosterhout ◽

Uilke Brouwer ◽

Lisette E. den Boef ◽

Renée Gras ◽

...

Keyword(s):

Gene Expression ◽

Cigarette Smoke ◽

Smoke Exposure ◽

Cigarette Smoke Exposure ◽

Exposure In Vivo

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Oxidative stress underlies heritable impacts of paternal cigarette smoke exposure

10.1101/750638 ◽

2019 ◽

Author(s):

Patrick J Murphy ◽

Jingtao Guo ◽

Timothy G Jenkins ◽

Emma R James ◽

John R Hoidal ◽

...

Keyword(s):

Oxidative Stress ◽

Gene Expression ◽

Dna Methylation ◽

Cigarette Smoke ◽

Cigarette Smoke Exposure ◽

Epigenetic Changes ◽

Sperm Dna ◽

Increased Risk ◽

Paternal Smoking ◽

Sperm Dna Methylation

SUMMARYPaternal cigarette smoke (CS) exposure is associated with increased risk of behavioral disorders and cancer in offspring, but the mechanism has not been identified. This study used mouse models to evaluate: 1) what impact paternal CS exposure has on sperm DNA methylation (DNAme), 2) whether sperm DNAme changes persist after CS exposure ends, 3) the degree to which DNAme and gene expression changes occur in offspring and 4) the mechanism underlying impacts of CS exposure. We demonstrate that CS exposure induces sperm DNAme changes that are partially corrected within 28 days of removal from CS exposure. Additionally, paternal smoking causes changes in neural DNAme and gene expression in offspring. Remarkably, the effects of CS exposure are largely recapitulated in oxidative stress-compromised Nrf2-/- mice and their offspring, independent of paternal smoking. These results demonstrate that paternal CS exposure impacts offspring phenotype and that oxidative stress underlies CS induced heritable epigenetic changes.

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Cigarette Smoke Exposure Alters Bacterial-Host Interactions in the Respiratory Tract to Promote Disease

Barcelona Respiratory Network ◽

10.24875/brn.m17000016 ◽

2017 ◽

Vol 3 (3) ◽

Author(s):

Pamela Shen ◽

Martin R. Stämpfli

Keyword(s):

Respiratory Tract ◽

Cigarette Smoke ◽

Smoke Exposure ◽

Cigarette Smoke Exposure ◽

Bacterial Host ◽

Host Interactions

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ABA accelerates blackberry (Rubus spp.) fruit ripening by positively affecting ripening-related gene expression and metabolite profiles

Journal of Berry Research ◽

10.3233/jbr-210725 ◽

2021 ◽

pp. 1-16

Author(s):

Chunhong Zhang ◽

Yaqiong Wu ◽

Zhenghao Xiong ◽

Weilin Li ◽

Wenlong Wu ◽

...

Keyword(s):

Gene Expression ◽

Cell Wall ◽

Fruit Ripening ◽

Plant Hormone ◽

Expression Profiles ◽

Related Gene ◽

Commercial Use ◽

Metabolite Profiles ◽

Metabolite Accumulation ◽

Aba Synthesis

BACKGROUND: The softness of blackberry fruits limits their postharvest shelf-life and commercial use, and abscisic acid (ABA) is considered one of the key hormones involved in fruit ripening. OBJECTIVE: This study aimed to explore the underlying physiological and molecular actions of ABA on blackberry fruit ripening and softening. METHODS: Various physiological indices of and plant hormone levels in treated and untreated blackberry fruits were determined simultaneously. The differentially expressed genes (DEGs) were analyzed by RNA-sequencing, and their expression profiles were detected. The ripening mechanism was elucidated by UHPLC-MS using two groups of fruits at 28 d. RESULTS: After 25 d, the ABA concentration and polygalacturonase (PG) and beta-1,4-endoglucanase (EG) activities in ABA-treated fruits were significantly higher than those in untreated fruits. Large differences in the expression profiles were detected at 28 d. The expression of DEGs related to cell wall softening and ABA synthesis was largely triggered after 25 or 28 d. Sixty-nine differentially accumulated metabolites were ultimately annotated as related to fruit ripening. CONCLUSIONS: ABA stimulates blackberry fruit ripening by promoting cell wall enzyme activities, the expression of various ripening-related genes and metabolite accumulation.

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