The placenta exchanges vital factors, including oxygen, carbon dioxide, copper, iron, calcium cations, and glucose, which are essential to fetal growth. Each molecule is transferred by specific receptors that are located at the cell membrane or in the cytoplasm. Copper, iron, calcium cations, and glucose transfer genes are regulated by estrogens, vitamin D, and human placental lactogen. Regulations of these receptors depend on pregnancy time length and maternal and fetal nutrient environment with various pathways. Some synthetic plastics known as endocrine disrupting chemicals (EDC) have a similar structure to reproductive hormones such as estrogens. Thus, these substances have a potential effect on the expression of genes which are regulated by estrogens or progesterone by interfering their pathways. Having an estrogenic property, EDC interact with oestrogen receptors and elevate or decrease the expression of target genes which are responsible for transporting essential molecules such as copper, iron, and calcium. To examine the effects of EDC exposure during pregnancy, we conducted an in vitro model study using the BeWo human trophoblast cell line. The BeWo cell was treated with well-known EDC, octyl-phenol (OP), nonyl-phenol (NP), and bisphenol A (BPA) in a dose-dependent manner (10–7, 10–6, and 10–5 M) for 24 h. The expression of copper (CTR1, ATP7A), iron (IREG1, HEPH), and calcium transporting genes (PMCA1, TRPV6), were measured by real-time RT–PCR and Western blot. The expression of copper, iron, and calcium transporting genes were elevated in a dose-dependent manner by all well-known EDC, including OP, NP, and BPA, as well as E2. To unveil the mechanism of these elevations of ionic transporting genes, an ERE promoter study will be needed. Taken together, essential cation transporting genes in placenta are modulated by EDC.
Endocrine-disrupting chemicals (EDC) are substances similar to steroid hormones that can disturb normal physiological functions of male and female reproductive organs. Endocrine-disrupting chemicals tend to bind to steroid hormone receptors. Sex steroid hormones modulate calcium signalling in the cardiac muscle in early embryo development. Among the steroid hormones, progesterone (P4) has been reported to affect blood pressure and other aspects of the cardiovascular system. The EDC that have similar structure to P4, such as octyl-phenol (OP) and bisphenol A (BPA), are potentially harmful to development of the heart. To confirm the effect of OP and BPA on early differentiation of mouse embryonic stem cells (mES) into cardiomyocytes, the hanging-drop method with mESC cell line (ES-E14TG2a) was used for forming embryoid bodies. Pluripotent mESC were cultured in basal medium with leukemia inhibitory factor and grown on mitomycin C-treated mouse embryonic fibroblasts in a 60-mm plate at 37°C in a 5% CO2 humidified tissue culture incubator with basal medium consisting of DMEM/F-12 supplemented with nonessential amino acids, 10% heat-inactivated and certified fetal bovine serum (FBS), 2-mercaptoethanol, penicillin, and streptomycin. The mouse embryoid bodies (mEB) were suspended onto 6-well plates and cultured with differentiation medium containing steroid-free FBS without leukemia inhibitory factor. Progesterone, OP, and BPA were added on Day 2 from mEB attachment. In addition, mifepristone (RU486), an antagonist for progesterone receptor (PR), was used to confirm the effect of P4 through PR. To determine whether RU486 is capable of attenuating the inhibition effect of P4, RU486 was added for 1 day starting on Day 11. Assessment of cardiomyocyte differentiation was determined by checking the number of beating cell populations divided by the total number of attached mEB. Total RNA was extracted using Trizol reagent and synthesised to cDNA using Moloney murine leukemia virus (MMLV) reverse transcriptase. Messenger RNA level was assessed using quantitative real-time PCR. To investigate calcium signalling, the mRNA levels of calcium channel gene Trpv2 and contraction-related genes Ryr2, Cam2, and Mylk3 were analysed. Beating ratio was decreased in P4, OP, and BPA treatments. Data were analysed by one-way ANOVA followed by Tukey’s multiple comparison tests, and P<0.05 was considered statistically significant in least 3 different replicates. The mRNA level of Pgr was significantly increased in P4, OP, and BPA-treated group. However, the mRNA level of calcium channel gene Trpv2 was significantly decreased in the P4, OP, and BPA-treated group. Expression of contraction-related genes such as Ryr2, Cam2, and Mlck3 were significantly decreased in the P4, OP, and BPA-treated group. In addition, treatment with RU486 rescues altered calcium channel gene and contraction-related genes. Taken together, these results suggest that OP and BPA may affect the differentiation of mESC into cardiomyocyte and disrupts differentiation of cardiomyocytes.
Premature ovarian failure (POF) is observed in women under 40 years with primary or secondary amenorrhea. The causes for POF are idiopathic, genetic, iatrogenic incidence, autoimmunity, and adverse effects from toxic chemical exposures. Several classes of chemicals have been shown to alter follicle development and reduce fertility, leading to POF in mammals. We investigated the synergistic effects of 4-vinylcyclohexene diepoxide (VCD) and phthalates, including di(2-ethylhexyl) phthalate (DEHP), butyl benzyl phthalate (BBP), and di-n-butyl phthalate (DBP), on POF. Both VCD and these phthalates have been reported to disrupt the folliculogenesis and steroidogenesis in many species. In the vehicle group, female Sprague-Dawley rats (8 weeks of age) received an IP injection of corn oil daily for 2 weeks. The 7 other groups received VCD+corn oil, DEHP, DEHP+VCD, BBP, BBP+VCD, DBP, or DBP+VCD. After receiving the VCD or vehicle injection IP for 2 weeks, corn oil or a phthalate were orally administered once a day for the entire 6-week study period. The mRNA expressions of Amh and Sohlh2 were significantly decreased in the combination groups compared to the control and individual groups. Serum Amh levels were significantly lower in the combination groups. Additionally, serum levels of FSH were markedly higher in combination groups. Our findings suggest that the combination of VCD and phthalates can accelerate the POF by disturbance in folliculogenesis and hormone regulation.
Miscarriage due to blastocyst implantation failure occurs in up to two-thirds of all miscarriage cases in humans. Calcium (Ca2+) has been shown to involve many cellular signal transduction pathways as well as regulation of cell adhesion, which is necessary for the physiology process of endometrial epithelial cell transformation and stromal cell decidualization during embryo implantation. Exposure to endocrine-disrupting chemicals (ED) can regulate the expression of genes associated with calcium transport in during pregnancy such as TRPV5, TRPV6, PMCA, and NCX1. Additionally, exposure to ED during early gestation results in disrupted intrauterine implantation, uterine receptive, leading to implantation failure. In this study, oestrogen (E2), bisphenol A (BPA), octylphenol (OP), and/or ICI 182,780 (oestrogen receptor antagonist, ICI) were injected subcutaneously from gestation Day 1 to gestation Day 3 post coitus. The number of implantation sites was significantly lower in the OP group, and no implantation site was observed in the E2 and ED+ICI groups. There were differences in the expression of calcium transient transport channel between maternal uterine and implantation. The level of TRPV6 and TRPV5 mRNA and protein was significantly increased by ED and/or ICI treatment in the uterus. The levels of TRPV5 and TRPV6 gene expression were significantly increased by ED with/without ICI treatment in the uterus. However, TRPV5 and TRPV6 gene expression was significantly lower in implantation site samples. The NCX1 and PMCA1 mRNA levels were significantly decreased by OP and BPA in the implantation site samples. Both mRNA and protein levels of MUC1 were markedly higher in all groups, except the BPA group when compared with the vehicle group in the uterus. The LIF and HOXA-10 mRNA were significantly low in E2; BPA+ICI; OP; and/or ICI in both the uterus and implantation site. Expression of the oestrogen receptor (ERa) and progesterone receptor (PR) was significantly lower in all groups except the BPA group when compared with the vehicle group. Taken together, E2, BPA, and OP disrupt the success of implantation through altered expression of calcium transport genes.
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