Project description:How artificial environmental cues are biologically integrated and transgenerationally inherited is still poorly understood. Here, we investigate the mechanisms of inheritance of reproductive outcomes elicited by the model environmental chemical Bisphenol A (BPA) in C. elegans. We show that BPA exposure causes the derepression of an epigenetically silenced transgene in the germline for 5 generations, regardless of ancestral response. ChIP-seq, histone modifications quantitation, and immunofluorescence assays revealed that this effect is associated with a reduction of the repressive marks H3K9me3 and H3K27me3 in whole worms and in germline nuclei in the F3 as well as with reproductive dysfunctions including germline apoptosis and embryonic lethality. Furthermore, targeting of the Jumonji demethylases JMJD-2 and JMJD-3/UTX-1 restores H3K9me3 and H3K27me3 levels, respectively, and fully alleviates the BPA-induced transgenerational effects. Together, our results demonstrate the central role of repressive histone modifications in the inheritance of reproductive defects elicited by a common environmental chemical exposure.

Project description:Despite the fact that we are constantly exposed to various environmental compounds, very few studies explore the impact of combined exposure to physical and chemical pollutants on reproductive health. Until now, assessment of pollutants is mostly based on the evaluation of single pollutant or combination of chemicals with common features and modes of action. In this context, numerous studies have demonstrated that steroidogenesis and gametogenesis, the main testicular functions, are well-known to be sensitize by endocrine disruptors (as Bisphenol A) and DNA-damaging agents (as γ-rays) respectively. In this study, we aim to investigate short and long term testicular transcriptionnal alterations of combined fetal exposure to well-known environmental toxicants: γ-rays (RAD) and BPA. To discriminate specific signatures of BPA or RAD exposure after combined exposure and evidence the type of synergisms between this pollutants, we performed transcriptomic analyses on testis exposed to BPA or RAD alone and co-exposed with BPA and RAD and compared gene expression with control condition. For this, we exposed pregnant mice from 10.5 dpc to 18.5 dpc to 10µM of BPA (in drinking water) and/or we irradiated mice at 12.5 dpc to 0.2 Gy. We performed transcriptomic analyses on fetal testis (18.5 dpc) and adult testis (3 months) to evaluate short and long term cell response after in utero exposure.

Project description:Sperm chromatin retains small amounts of histones, and the chromatin states of sperm mirror gene expression programs of the next generation. It remains largely unknown how paternal epigenetic information is transmitted through sperm chromatin. Here we developed a novel mouse model of paternal epigenetic inheritance in which deposition of Polycomb repressive complex 2 (PRC2) mediated-repressive H3K27me3 is attenuated in the paternal germline. By applying modified methods of assisted reproductive technology, we rescued infertility of mice absent of Polycomb protein SCML2, which is the regulator of germline gene expression through the establishment of H3K27me3 on bivalent promoters with other active marks H3K4me2/3. In F1 males of Scml2-knockout mice, which has wild-type genotype, gene expression is dysregulated in the male germline during spermiogenesis. These dysregulated genes are targets of SCML2-mediated H3K27me3 in mature sperm. Thus, SCML2 mediates intergenerational inheritance of paternal epigenetic information through the regulation of sperm chromatin.

Project description:How epigenetic information is transmitted from generation to generation remains largely unknown. Deletion of the C. elegans Histone H3 lysine 4 dimethyl (H3K4me2) demethylase spr-5 leads to inherited accumulation of the euchromatic H3K4me2 mark and progressive decline in fertility. Here we identified a genetic network of chromatin-modifying factors, including the H3K4me1/me2 methyltransferases SET-17 and SET-30, the H3K9me1/me2 methyltransferase MET-2, an H3K9me3 methyltransferase, SET-26, the H3K9me3 demethylase JMJD-2, and an H3K9me reader EAP-1, which regulate the trans-generational flow of epigenetic information. Importantly, genetic ablation of set-17, set-30, jmjd-2, or eap-1 suppresses the progressive transgenerational phenotypes, while loss of SET-26 or MET-2 accelerates the infertility of spr-5 mutant worms. We further show that loss of spr-5 also causes a trans-generational increase in lifespan, which is dependent on these chromatin regulators as well as DAF-36 and DAF-12, which control a germline to soma longevity signaling pathway. These findings suggest that the balance between the euchromatic H3K4 and the heterochromatic H3K9 methylation regulates trans-generational effects on longevity and fertility. EAP-1 binding ChIPseq libraries were prepared from 50 ul of packed young adult worms which were maintained at 16 degrees until the appropriate generation and then shifted to 25 degrees after birth. Two biological repeats were generated for wildtype and generation 20 spr-5(by101) mutant worms and a single repeat for generation 10. There were four input samples and eap-1 null mutant worms were also analyzed.

Project description:The endocrine disrupting chemical bisphenol A (BPA) can affect reproductive organs, tissues and cells in several species. Treatment of human endometrial endothelial cells (HEECs) with 50 µM BPA decreased their proliferation compared with the control. Microarray analyses revealed that BPA affected biological processes such as the cell cycle, cell division, and cytoskeleton organization, confirming the results of the proliferation assay. Expression of three of the most differentially expressed genes identified in the microarray analysis was verified by real-time quantitative reverse transcription polymerase chain reaction in five HEEC cultures obtained from women in the proliferative phase and in five cultures obtained from women in the secretory phase of the menstrual cycle after treatment with BPA. The present study supports our previous findings of decreased proliferation and increased cell death in response to BPA, and may offer important clues to the mechanisms of action of BPA. Keywords: Exposure analysis Two-condition experiments, BPA-exposed vs. control HEEC. Biological replicates: 5 HEEC cultures, independently grown, exposed and harvested. One replicate per array. Dye-swaps for exposed and reference samples between replicates.

Project description:As a heterogeneous reproductive disorder with unclear etiopathogenesis, polycystic ovary syndrome (PCOS) can be caused by genetic, diet, and environmental factors. Bisphenol A (BPA), a global environmental contaminant, can induce PCOS and NAFLD due to direct exposure; however, whether these phenotypes persist in future unexposed generations is not currently understood. We observed genes abnormally expressed in the ovary of BPA lineage, similar to human PCOS patients. IPA analyses revealed activation of the cancerous pathway, arginine-proline metabolism, insulin signaling, AMPK, and HOTAIR regulatory pathways, as well as upstream regulators esr1 and tgf β.

Project description:Germ cells have evolved unique mechanisms to ensure an everlasting transmission of their genetic and epigenetic information to future generations, whose alteration compromises germ cell immortality. In many instances, epigenetic factors play fundamental roles in these mechanisms. Despite H3K36 and H3K27 methyltransferases shape and propagate over generations a pattern of histone methylation essential for C. elegans germ cell maintenance, the role of respective histone demethylases in this context remains mainly unexplored. Here, we show that jmjd-5 regulates the level of H3K36me2 and H3K27me3, preserves germ cell immortality at high temperature and protects germ cell identity by controlling somatic and germline gene expression. Strikingly, the biological and transcriptional effects of jmjd-5 loss can be hindered by the removal of demethylases for H3K27, indicating that H3K36/K27 demethylases act in a transcriptional framework and promote the accurate balance between H3K36 and H3K27 methylation required for the maintenance of germ cell immortality. Furthermore, we found that in wild-type, but not in jmjd-5 mutant animals, alterations of H3K27 and H3K36 methylation and transcription occur at high temperature, suggesting a role for jmjd-5 in adaptation to environmental changes.

Project description:The endocrine disrupting chemical bisphenol A (BPA) can affect reproductive organs, tissues and cells in several species. Treatment of human endometrial endothelial cells (HEECs) with 50 µM BPA decreased their proliferation compared with the control. Microarray analyses revealed that BPA affected biological processes such as the cell cycle, cell division, and cytoskeleton organization, confirming the results of the proliferation assay. Expression of three of the most differentially expressed genes identified in the microarray analysis was verified by real-time quantitative reverse transcription polymerase chain reaction in five HEEC cultures obtained from women in the proliferative phase and in five cultures obtained from women in the secretory phase of the menstrual cycle after treatment with BPA. The present study supports our previous findings of decreased proliferation and increased cell death in response to BPA, and may offer important clues to the mechanisms of action of BPA. Keywords: Exposure analysis

Project description:How epigenetic information is transmitted from generation to generation remains largely unknown. Deletion of the C. elegans Histone H3 lysine 4 dimethyl (H3K4me2) demethylase spr-5 leads to inherited accumulation of the euchromatic H3K4me2 mark and progressive decline in fertility. Here we identified a genetic network of chromatin-modifying factors, including the H3K4me1/me2 methyltransferases SET-17 and SET-30, the H3K9me1/me2 methyltransferase MET-2, an H3K9me3 methyltransferase, SET-26, the H3K9me3 demethylase JMJD-2, and an H3K9me reader EAP-1, which regulate the trans-generational flow of epigenetic information. Importantly, genetic ablation of set-17, set-30, jmjd-2, or eap-1 suppresses the progressive transgenerational phenotypes, while loss of SET-26 or MET-2 accelerates the infertility of spr-5 mutant worms. We further show that loss of spr-5 also causes a trans-generational increase in lifespan, which is dependent on these chromatin regulators as well as DAF-36 and DAF-12, which control a germline to soma longevity signaling pathway. These findings suggest that the balance between the euchromatic H3K4 and the heterochromatic H3K9 methylation regulates trans-generational effects on longevity and fertility.

Project description:The purpose of this study was to determine 1) the transcriptional program elicited by exposure to three estrogen receptor (ER) agonists: 17 a-ethynyl estradiol (EE), genistein (Ges) and bisphenol A (BPA) during fetal development of the rat testis and epididymis; and 2) whether very low dosages of estrogens (evaluated over five orders of magnitude of dosage) produce unexpected changes in gene expression (i.e., a non-monotonic dose-response curve). In three independently conducted experiments, Sprague-Dawley rats were dosed (s.c.) with 0.001-10mg EE/kg/day, 0.001-100 mg Ges/kg/day or 0.002-400mg BPA/kg/day. While morphological changes in the developing reproductive system were not observed, the gene expression profile of target tissues were modified in a dose-responsive manner. Independent dose-response analyses of the three studies identified 56 genes that are significantly modified by EE, 28 genes by Ges and 15 genes by BPA (out of 8740). Even more genes were observed to be significantly changed when only the high dose is compared with all lower doses: 141, 46 and 67 genes, respectively. Global analyses aimed at detecting genes consistently modified by all of the chemicals identified 52 genes whose expression changed in the same direction across the three chemicals. The dose-response curve for gene expression changes was monotonic for each chemical, with both the number of genes significantly changed and the magnitude of change, for each gene, decreasing with decreasing dose. Using the available annotation of the gene expression changes induced by ER-agonist, our data suggest that a variety of cellular pathways are affected by estrogen exposure. These results indicate that gene expression data are diagnostic of mode of action and, if they are evaluated in the context of traditional toxicological end-points, can be used to elucidate dose-response characteristics.