53 Pre-implantation exposure to bisphenol A and 4-tert-octylphenol result in disruption of calcium channels

Abstract

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.