Your search keyword '"Busato, Florence"' showing total 8 results

1. Multiplex digital PCR for the simultaneous quantification of a miRNA panel

Author

Busato, Florence, Ursuegui, Sylvain, Deleuze, Jean-François, and Tost, Jorg

Published

2025

2. Genome-wide DNA methylation analyses in lung adenocarcinomas: Association with EGFR, KRAS and TP53 mutation status, gene expression and prognosis

Author

Bjaanæs, Maria Moksnes, Fleischer, Thomas, Halvorsen, Ann Rita, Daunay, Antoine, Busato, Florence, Solberg, Steinar, Jørgensen, Lars, Kure, Elin, Edvardsen, Hege, Børresen-Dale, Anne-Lise, Brustugun, Odd Terje, Tost, Jörg, Kristensen, Vessela, and Helland, Åslaug

Published

2016

3. Prenatal exposure to triclosan assessed in multiple urine samples and placental DNA methylation.

Author

Jedynak, Paulina, Broséus, Lucile, Tost, Jörg, Busato, Florence, Gabet, Stephan, Thomsen, Cathrine, Sakhi, Amrit K., Pin, Isabelle, Slama, Rémy, Lepeule, Johanna, and Philippat, Claire

Subjects

TRICLOSAN, DNA methylation, PRENATAL exposure, PLACENTA, URINE, PLACENTAL growth factor, GENE mapping

Abstract

A previous study reported positive associations of maternal urinary concentrations of triclosan, a synthetic phenol with widespread exposure in the general population, with placental DNA methylation of male fetuses. Given the high number of comparisons performed in -omic research, further studies were needed to validate and extend on these findings. Using a cohort of male and female fetuses with repeated maternal urine samples to assess exposure, we studied the associations between triclosan and placental DNA methylation. We assessed triclosan concentrations in two pools of 21 urine samples collected among 395 women from the SEPAGES cohort. We used Infinium Methylation EPIC arrays to measure DNA methylation in placental biopsies collected at delivery. We performed a candidate study restricted to a set of candidate CpGs (n = 500) identified in a previous work as well as an exploratory epigenome-wide association study to investigate the associations between triclosan and differentially methylated probes and regions. Analyses were conducted on the whole population and stratified by child's sex. Mediation analysis was performed to test whether heterogeneity of placental tissue may mediate the observed associations. In the candidate approach, we confirmed 18 triclosan-associated genes when both sexes were considered. After stratification for child's sex, triclosan was associated with 72 genes in females and three in males. Most of the associations were positive and several CpGs mapped to imprinted genes: FBRSL1 , KCNQ1 , RHOBTB3 , and SMOC1. A mediation effect by placental tissue heterogeneity was identified for most of the observed associations. In the exploratory analysis, we identified a few isolated associations in the sex-stratified analysis. In line with a previous study on male placentas, our approach revealed several positive associations between triclosan exposure and placental DNA methylation. Several identified loci mapped to imprinted genes. [Display omitted] • Pregnancy exposure to triclosan assessed from two pools of 21 urine samples per woman. • Triclosan increased placental DNA methylation at several loci. • 18 candidate genes were confirmed in the whole population, 72 in females, three in males. • Placental cell composition mediated part of these associations. • Several identified loci mapped to imprinted genes. [ABSTRACT FROM AUTHOR]

Published

2023

4. Pregnancy exposure to synthetic phenols and placental DNA methylation — An epigenome-wide association study in male infants from the EDEN cohort.

Author

Jedynak, Paulina, Tost, Jörg, Calafat, Antonia M., Bourova-Flin, Ekaterina, Busato, Florence, Forhan, Anne, Heude, Barbara, Jakobi, Milan, Rousseaux, Sophie, Schwartz, Joel, Slama, Rémy, Vaiman, Daniel, Philippat, Claire, and Lepeule, Johanna

Subjects

DNA methylation, PLACENTA, TRICLOSAN, PHENOLS, PHENOL, MORPHOGENESIS

Abstract

In utero exposure to environmental chemicals, such as synthetic phenols, may alter DNA methylation in different tissues, including placenta — a critical organ for fetal development. We studied associations between prenatal urinary biomarker concentrations of synthetic phenols and placental DNA methylation. Our study involved 202 mother-son pairs from the French EDEN cohort. Nine phenols were measured in spot urine samples collected between 22 and 29 gestational weeks. We performed DNA methylation analysis of the fetal side of placental tissues using the IlluminaHM450 BeadChips. We evaluated methylation changes of individual CpGs in an adjusted epigenome-wide association study (EWAS) and identified differentially methylated regions (DMRs). We performed mediation analysis to test whether placental tissue heterogeneity mediated the association between urinary phenol concentrations and DNA methylation. We identified 46 significant DMRs (≥5 CpGs) associated with triclosan (37 DMRs), 2,4-dichlorophenol (3), benzophenone-3 (3), methyl- (2) and propylparaben (1). All but 2 DMRs were positively associated with phenol concentrations. Out of the 46 identified DMRs, 7 (6 for triclosan) encompassed imprinted genes (APC , FOXG1 , GNAS , GNASAS , MIR886 , PEG10 , SGCE), which represented a significant enrichment. Other identified DMRs encompassed genes encoding proteins responsible for cell signaling, transmembrane transport, cell adhesion, inflammatory, apoptotic and immunological response, genes encoding transcription factors, histones, tumor suppressors, genes involved in tumorigenesis and several cancer risk biomarkers. Mediation analysis suggested that placental cell heterogeneity may partly explain these associations. This is the first study describing the genome-wide modifications of placental DNA methylation associated with pregnancy exposure to synthetic phenols or their precursors. Our results suggest that cell heterogeneity might mediate the effects of triclosan exposure on placental DNA methylation. Additionally, the enrichment of imprinted genes within the DMRs suggests mechanisms by which certain exposures, mainly to triclosan, could affect fetal development. [Display omitted] • Pregnancy exposure to synthetic phenols was associated with placental DNA methylation changes. • We identified 37 differently methylated regions (DMRs) associated with exposure to triclosan. • Identified DMRs were enriched for imprinted genes. • Placental cell heterogeneity may mediate association of triclosan with DNA methylation. [ABSTRACT FROM AUTHOR]

Published

2021

5. Unique epigenetic signature in T cell compartment after epicutaneous immunotherapy in peanut sensitized mice.

Author

Mondoulet, Lucie, Dioszeghy, Vincent, Plaquet, Camille, Roche, Elodie, Dhelft, Veronique, Busato, Florence, Dupont, Christophe, Sampson, Hugh A., and Tost, Jorg

Published

2018

6. Epicutaneous but Not Oral Immunotherapy Leads to Sustainable GATA-3 Hypermethylation and Foxp3 Hypomethylation in Peanut Sensitized Mice.

Author

Tost, Jorg, Mondoulet, Lucie, Puteaux, Emilie, Busato, Florence, Ligouis, Mélanie, Dhelft, Véronique, Plaquet, Camille, Dupont, Christophe, and Benhamou, Pierre-Henri

Published

2016

7. Epigenetic footprints: Investigating placental DNA methylation in the context of prenatal exposure to phenols and phthalates.

Author

Jedynak, Paulina, Siroux, Valérie, Broséus, Lucile, Tost, Jörg, Busato, Florence, Gabet, Stephan, Thomsen, Cathrine, Sakhi, Amrit K., Sabaredzovic, Azemira, Lyon-Caen, Sarah, Bayat, Sam, Slama, Rémy, Philippat, Claire, and Lepeule, Johanna

Subjects

*PHTHALATE esters, *DNA methylation, *PRENATAL exposure, *PARABENS, *PHENOLS, *ENDOCRINE disruptors, *PHENOL

Abstract

• 28 differentially methylated regions (DMRs), 40 for females and 42 for males. • Sex-specific effects, with few common probes and DMRs between sexes. • Most DMRs associated with parabens, DEHP, and DiNP metabolites. • DMRs encompassed 9 imprinted genes. • Enrichment in adiposity, lipid and glucose metabolism, and cardiovascular phenotypes. Endocrine disrupting compounds (EDCs) such as phthalates and phenols can affect placental functioning and fetal health, potentially via epigenetic modifications. We investigated the associations between pregnancy exposure to synthetic phenols and phthalates estimated from repeated urine sampling and genome wide placental DNA methylation. The study is based on 387 women with placental DNA methylation assessed with Infinium MethylationEPIC arrays and with 7 phenols, 13 phthalates, and two non-phthalate plasticizer metabolites measured in pools of urine samples collected twice during pregnancy. We conducted an exploratory analysis on individual CpGs (EWAS) and differentially methylated regions (DMRs) as well as a candidate analysis focusing on 20 previously identified CpGs. Sex-stratified analyses were also performed. In the exploratory analysis, when both sexes were studied together no association was observed in the EWAS. In the sex-stratified analysis, 114 individual CpGs (68 in males, 46 in females) were differentially methylated, encompassing 74 genes (36 for males and 38 for females). We additionally identified 28 DMRs in the entire cohort, 40 for females and 42 for males. Associations were mostly positive (for DMRs: 93% positive associations in the entire cohort, 60% in the sex-stratified analysis), with the exception of several associations for bisphenols and DINCH metabolites that were negative. Biomarkers associated with most DMRs were parabens, DEHP, and DiNP metabolite concentrations. Some DMRs encompassed imprinted genes including APC (associated with parabens and DiNP metabolites), GNAS (bisphenols), ZIM2;PEG3;MIMT1 (parabens, monoethyl phthalate), and SGCE ; PEG10 (parabens, DINCH metabolites). Terms related to adiposity, lipid and glucose metabolism, and cardiovascular function were among the enriched phenotypes associated with differentially methylated CpGs. The candidate analysis identified one CpG mapping to imprinted LGALS8 gene, negatively associated with ethylparaben. By combining improved exposure assessment and extensive placental epigenome coverage, we identified several novel genes associated with the exposure, possibly in a sex-specific manner. [ABSTRACT FROM AUTHOR]

Published

2024

8. Pregnancy exposure to phthalates and DNA methylation in male placenta — An epigenome-wide association study.

Author

Jedynak, Paulina, Tost, Jörg, Calafat, Antonia M., Bourova-Flin, Ekaterina, Broséus, Lucile, Busato, Florence, Forhan, Anne, Heude, Barbara, Jakobi, Milan, Schwartz, Joel, Slama, Rémy, Vaiman, Daniel, Lepeule, Johanna, and Philippat, Claire

Subjects

*DNA methylation, *NUCLEOTIDE exchange factors, *PHTHALATE esters, *POLLUTANTS, *HEAT shock proteins, *PLACENTA

Abstract

[Display omitted] Exposure to phthalates during pregnancy may alter DNA methylation in the placenta, a crucial organ for the growth and development of the fetus. We studied associations between urinary concentrations of phthalate biomarkers during pregnancy and placental DNA methylation. We measured concentrations of 11 phthalate metabolites in maternal spot urine samples collected between 22 and 29 gestational weeks in 202 pregnant women. We analyzed DNA methylation levels in placental tissue (fetal side) collected at delivery. We first investigated changes in global DNA methylation of repetitive elements Alu and LINE-1. We then performed an adjusted epigenome-wide association study using IlluminaHM450 BeadChips and identified differentially methylated regions (DMRs) associated with phthalate exposure. Monobenzyl phthalate concentration was inversely associated with placental methylation of Alu repeats. Moreover, all phthalate biomarkers except for monocarboxy- iso -octyl phthalate and mono(2-ethyl-5-hydroxyhexyl) phthalate were associated with at least one DMR. All but three DMRs showed increased DNA methylation with increased phthalate exposure. The largest identified DMR (22 CpGs) was positively associated with monocarboxy- iso -nonyl phthalate and encompassed heat shock proteins (HSPA1A , HSPA1L). The remaining DMRs encompassed transcription factors and nucleotide exchange factors, among other genes. This is the first description of genome-wide modifications of placental DNA methylation in association with pregnancy exposure to phthalates. Our results suggest epigenetic mechanisms by which exposure to these compounds could affect fetal development. Of interest, four identified DMRs had been previously associated with maternal smoking, which may suggest particular sensitivity of these genomic regions to the effect of environmental contaminants. [ABSTRACT FROM AUTHOR]

Published

2022