Your search keyword '"Guay, Simon-Pierre"' showing total 6 results

1. DNA methylation at LRP1 gene locus mediates the association between maternal total cholesterol changes in pregnancy and cord blood leptin levels.

Author

Guay, Simon-Pierre, Houde, Andrée-Anne, Breton, Edith, Baillargeon, Jean-Patrice, Perron, Patrice, Gaudet, Daniel, Hivert, Marie-France, Brisson, Diane, and Bouchard, Luigi

Abstract

Placental lipids transfer is essential for optimal fetal development, and alterations of these mechanisms could lead to a higher risk of adverse birth outcomes. Low-density lipoprotein receptor (LDLR), LDL receptor-related protein 1 (LRP1), and scavenger receptor class B type 1 (SCARB1) genes are encoding lipoprotein receptors expressed in the placenta where they participate in cholesterol exchange from maternal to fetal circulation. The aim of this study was thus to investigate the association between maternal lipid changes occurring in pregnancy, placental DNA methylation (DNAm) variations at LDLR, LRP1, and SCARB1 gene loci, and newborn's anthropometric profile at birth. Sixty-nine normoglycemic women were followed from the first trimester of pregnancy until delivery. Placental DNAm was quantified at 43 Cytosine-phosphate-Guanines (CpGs) at LDLR, LRP1, and SCARB1 gene loci using pyrosequencing: 4 CpGs were retained for further analysis. Maternal clinical data were collected at each trimester of pregnancy. Newborns' data were collected from medical records. Statistical models included minimally newborn sex and gestational and maternal age. Maternal total cholesterol changes during pregnancy (ΔT3-T1) were correlated with DNAm variations at LDLR (r = −0.32, p = 0.01) and LRP1 (r = 0.34, p = 0.007). DNAm at these loci was also correlated with newborns' cord blood triglyceride and leptin levels. Mediation analysis supports a causal relationship between maternal cholesterol changes, DNAm levels at LRP1 locus, and cord blood leptin concentration (pmediation = 0.02). These results suggest that LRP1 DNAm link maternal blood cholesterol changes in pregnancy and offspring adiposity at birth, which provide support for a better follow-up of blood lipids in pregnancy. [ABSTRACT FROM AUTHOR]

Published

2020

2. Placental lipoprotein lipase DNA methylation alterations are associated with gestational diabetes and body composition at 5 years of age.

Author

Gagné-Ouellet, Valérie, Houde, Andrée-Anne, Guay, Simon-Pierre, Perron, Patrice, Gaudet, Daniel, Guérin, Renée, Jean-Patrice, Baillargeon, Hivert, Marie-France, Brisson, Diane, and Bouchard, Luigi

Abstract

Gestational diabetes mellitus (GDM) is associated with obesity in childhood. This suggests that consequences ofin uteroexposure to maternal hyperglycemia extend beyond the fetal development, possibly through epigenetic programming. The aims of this study were to assess whether placental DNA methylation (DNAm) marks were associated with maternal GDM status and to offspring body composition at 5 years old in a prospective birth cohort. DNAm levels were measured in the fetal side of the placenta in 66 samples (24 from GDM mothers) using bisDNA-pyrosequencing. Anthropometric and body composition (bioimpedance) were measured in children at 5 years of age. Mann-Whitney and Spearman tests were used to assess associations between GDM, placental DNAm levels at thelipoprotein lipase(LPL) locus and children's weight, height, body mass index (BMI), body fat, and lean masses at 5 years of age. Weight, height, and BMI z-scores were computed according to the World Health Organization growth chart. Analyses were adjusted for gestational age at birth, child sex, maternal age, and pre-pregnancy BMI.LPLDNAm levels were positively correlated with birth weight z-scores (r = 0.252,P= 0.04), and with mid-childhood weight z-scores (r = 0.314,P= 0.01) and fat mass (r = 0.275,P= 0.04), and negatively correlated with lean mass (r = −0.306,P= 0.02). We found a negative correlation betweenLPLDNAm and mRNA levels in placenta (r = −0.459;P< 0.001), which highlights the regulation of transcriptional activity by these epivariations. We demonstrated that alterations in fetal placental DNAm levels at theLPLgene locus are associated with the anthropometric profile in children at 5 years of age. These findings support the concept of fetal metabolic programming through epigenetic changes. [ABSTRACT FROM PUBLISHER]

Published

2017

3. PPARGC1α gene DNA methylation variations in human placenta mediate the link between maternal hyperglycemia and leptin levels in newborns.

Author

Côté, Sandra, Gagné-Ouellet, Valérie, Guay, Simon-Pierre, Allard, Catherine, Houde, Andrée-Anne, Perron, Patrice, Baillargeon, Jean-Patrice, Gaudet, Daniel, Guérin, Renée, Brisson, Diane, Hivert, Marie-France, and Bouchard, Luigi

Subjects

DNA methylation, PLACENTA physiology, HYPERGLYCEMIA, PHYSIOLOGY

Abstract

Background: Children exposed to gestational diabetes mellitus (GDM) are at a higher risk of developing obesity and type 2 diabetes. This susceptibility might involve brown adipose tissue (BAT), which is suspected to protect against obesity. The objective of this study is to assess whether fetal exposure to maternal hyperglycemia is associated with DNA methylation variations in genes involved in BAT genesis and activation. Methods: DNA methylation levels at the PRDM16, BMP7, CTBP2, and PPARGC1α gene loci were measured in placenta samples using bisulfite pyrosequencing in E-21 (n = 133; 33 cases of GDM) and the HumanMethylation450 array in Gen3G (n = 172, all from non-diabetic women) birth cohorts. Glucose tolerance was assessed in all women using an oral glucose tolerance test at the second trimester of pregnancy. Participating women were extensively phenotyped throughout pregnancy, and placenta and cord blood samples were collected at birth. Results: We report that maternal glycemia at the second and third trimester of pregnancy are correlated with variations in DNA methylation levels at PRDM16, BMP7, and PPARGC1α and with cord blood leptin levels. Variations in PRDM16 and PPARGC1α DNA methylation levels were also correlated with cord blood leptin levels. Mediation analyses support that DNA methylation variations at the PPARGC1α gene locus explain 0.8% of the cord blood leptin levels variance independently of maternal fasting glucose levels (p = 0.05). Conclusions: These results suggest that maternal glucose in pregnancy could produce variations in DNA methylation in BAT-related genes and that some of these DNA methylation marks seem to mediate the impact of maternal glycemia on cord blood leptin levels, an adipokine regulating body weight. [ABSTRACT FROM AUTHOR]

Published

2016

4. DNA methylation signature of interleukin 1 receptor type II in asthma.

Author

Gagné-Ouellet, Valérie, Guay, Simon-Pierre, Boucher-Lafleur, Anne-Marie, Bouchard, Luigi, and Laprise, Catherine

Subjects

*EPIGENETICS, *DNA methylation, *ALKYLATION, *ASTHMA, *BRONCHIAL diseases, *ATOPY, *CYTOKINE receptors

Abstract

Interleukin 1 and its receptors are associated with allergic diseases such as asthma. In the present study, we measured DNA methylation at the IL1R1 and IL1R2 gene loci and assessed for associations with asthma-related phenotypes and gene expressions. We found that asthmatic and atopic individuals have higher IL1R2 promoter DNA methylation than control subjects. Additionally, we observed a negative correlation between DNA methylation at the IL1R2 promoter and IL1R2 mRNA expression. These results suggest for the first time that IL1R2 promoter DNA methylation is associated with its gene repression in allergic diseases such as asthma. [ABSTRACT FROM AUTHOR]

Published

2015

5. Adaptations of placental and cord blood ABCA1 DNA methylation profile to maternal metabolic status.

Author

Houde, Andrée-Anne, Guay, Simon-Pierre, Desgagné, Véronique, Hivert, Marie-France, Baillargeon, Jean-Patrice, St-Pierre, Julie, Perron, Patrice, Gaudet, Daniel, Brisson, Diane, and Bouchard, Luigi

Published

2013

6. IGF2 DNA methylation is a modulator of newborn's fetal growth and development.

Author

St-Pierre, Julie, Hivert, Marie-France, Perron, Patrice, Poirier, Paul, Guay, Simon-Pierre, Brisson, Diane, and Bouchard, Luigi

Published

2012