Publication Type Academic Article
Authors Hackett N, Butler M, Shaykhiev R, Salit J, Omberg L, Rodriguez-Flores J, Mezey J, Strulovici-Barel Y, Wang G, Didon L, Crystal R
Journal BMC Genomics
Volume 13
Pagination 82
Date Published 02/29/2012
ISSN 1471-2164
Keywords Gene Expression Profiling, Respiratory Mucosa, Transcriptome
Abstract BACKGROUND: The small airway epithelium (SAE), the cell population that covers the human airway surface from the 6th generation of airway branching to the alveoli, is the major site of lung disease caused by smoking. The focus of this study is to provide quantitative assessment of the SAE transcriptome in the resting state and in response to chronic cigarette smoking using massive parallel mRNA sequencing (RNA-Seq). RESULTS: The data demonstrate that 48% of SAE expressed genes are ubiquitous, shared with many tissues, with 52% enriched in this cell population. The most highly expressed gene, SCGB1A1, is characteristic of Clara cells, the cell type unique to the human SAE. Among other genes expressed by the SAE are those related to Clara cell differentiation, secretory mucosal defense, and mucociliary differentiation. The high sensitivity of RNA-Seq permitted quantification of gene expression related to infrequent cell populations such as neuroendocrine cells and epithelial stem/progenitor cells. Quantification of the absolute smoking-induced changes in SAE gene expression revealed that, compared to ubiquitous genes, more SAE-enriched genes responded to smoking with up-regulation, and those with the highest basal expression levels showed most dramatic changes. Smoking had no effect on SAE gene splicing, but was associated with a shift in molecular pattern from Clara cell-associated towards the mucus-secreting cell differentiation pathway with multiple features of cancer-associated molecular phenotype. CONCLUSIONS: These observations provide insights into the unique biology of human SAE by providing quantitative assessment of the global transcriptome under physiological conditions and in response to the stress of chronic cigarette smoking.
DOI 10.1186/1471-2164-13-82
PubMed ID 22375630
PubMed Central ID PMC3337229
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