Epigenetic Alterations of Maternal Tobacco Smoking during Pregnancy: A Narrative Review.
Aurélie NakamuraOlivier FrançoisJohanna LepeulePublished in: International journal of environmental research and public health (2021)
In utero exposure to maternal tobacco smoking is the leading cause of birth complications in addition to being associated with later impairment in child's development. Epigenetic alterations, such as DNA methylation (DNAm), miRNAs expression, and histone modifications, belong to possible underlying mechanisms linking maternal tobacco smoking during pregnancy and adverse birth outcomes and later child's development. The aims of this review were to provide an update on (1) the main results of epidemiological studies on the impact of in utero exposure to maternal tobacco smoking on epigenetic mechanisms, and (2) the technical issues and methods used in such studies. In contrast with miRNA and histone modifications, DNAm has been the most extensively studied epigenetic mechanism with regard to in utero exposure to maternal tobacco smoking. Most studies relied on cord blood and children's blood, but placenta is increasingly recognized as a powerful tool, especially for markers of pregnancy exposures. Some recent studies suggest reversibility in DNAm in certain genomic regions as well as memory of smoking exposure in DNAm in other regions, upon smoking cessation before or during pregnancy. Furthermore, reversibility could be more pronounced in miRNA expression compared to DNAm. Increasing evidence based on longitudinal data shows that maternal smoking-associated DNAm changes persist during childhood. In this review, we also discuss some issues related to cell heterogeneity as well as downstream statistical analyses used to relate maternal tobacco smoking during pregnancy and epigenetics. The epigenetic effects of maternal smoking during pregnancy have been among the most widely investigated in the epigenetic epidemiology field. However, there are still huge gaps to fill in, including on the impact on miRNA expression and histone modifications to get a better view of the whole epigenetic machinery. The consistency of maternal tobacco smoking effects across epigenetic marks and across tissues will also provide crucial information for future studies. Advancement in bioinformatic and biostatistics approaches is key to develop a comprehensive analysis of these biological systems.
Keyphrases
- smoking cessation
- dna methylation
- pregnancy outcomes
- gene expression
- birth weight
- genome wide
- replacement therapy
- poor prognosis
- gestational age
- cord blood
- mental health
- pregnant women
- nk cells
- copy number
- type diabetes
- case control
- magnetic resonance imaging
- emergency department
- body mass index
- mass spectrometry
- long non coding rna
- social media
- high resolution
- skeletal muscle
- working memory
- bone marrow
- weight loss
- multidrug resistant
- adipose tissue
- health information
- mesenchymal stem cells
- artificial intelligence