Developmental effects of tobacco smoke exposure during human embryonic stem cell differentiation are mediated through the transforming growth factor-β superfamily member, Nodal

While the pathologies associated with in utero smoke exposure are well established, their underlying molecular mechanisms are incompletely understood. We differentiated human embryonic stem cells in the presence of physiological concentrations of tobacco smoke and nicotine. Using post hoc microarray...

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Bibliographic Details
Published in:Differentiation (London) 2012-04, Vol.83 (4), p.169-178
Main Authors: Liszewski, Walter, Ritner, Carissa, Aurigui, Julian, Wong, Sharon S.Y., Hussain, Naveed, Krueger, Winfried, Oncken, Cheryl, Bernstein, Harold S.
Format: Article
Language:English
Subjects:
Blotting, Western
Cell Differentiation - physiology
Differentiation
Embryonic Stem Cells - cytology
Human embryonic stem cell
Humans
Mesoderm
MicroRNA
Nicotine
Nodal Protein - physiology
Real-Time Polymerase Chain Reaction
Smoke
Tobacco
Transforming Growth Factor beta - physiology
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Summary:While the pathologies associated with in utero smoke exposure are well established, their underlying molecular mechanisms are incompletely understood. We differentiated human embryonic stem cells in the presence of physiological concentrations of tobacco smoke and nicotine. Using post hoc microarray analysis, quantitative PCR, and immunoblot analysis, we demonstrated that tobacco smoke has lineage- and stage-specific effects on human embryonic stem cell differentiation, through both nicotine-dependent and -independent pathways. We show that three major stem cell pluripotency/differentiation pathways, Notch, canonical Wnt, and transforming growth factor-β, are affected by smoke exposure, and that Nodal signaling through SMAD2 is specifically impacted by effects on Lefty1, Nodal, and FoxH1. These events are associated with upregulation of microRNA-302a, a post-transcriptional silencer of Lefty1. The described studies provide insight into the mechanisms by which tobacco smoke influences fetal development at the cellular level, and identify specific transcriptional, post-transcriptional, and signaling pathways by which this likely occurs. ► Pathologies associated with in utero smoke exposure are incompletely understood. ► We used human embryonic stem cells as a model of tissue differentiation. ► Notch, canonical Wnt, and TGFβ pathways were affected by smoke exposure. ► Nodal signaling through SMAD2 was mediated by miR-302a, Lefty1, and FoxH1.
ISSN:0301-4681
1432-0436
1432-0436
DOI:10.1016/j.diff.2011.12.005