Environmental Chemistry Department, IDAEA, CSIC, Jordi Girona 18-26, Barcelona, 08034, Spain.
Department of Chemical Engineering and Analytical Chemistry, University of Barcelona, Av Diagonal 645, Barcelona, 08028, Spain.
Environ Pollut. 2019 Jan;244:513-521. doi: 10.1016/j.envpol.2018.10.045. Epub 2018 Oct 12.
BADGE (bisphenol A diglycidyl ether) is a synthesis product of bisphenol A (BPA), which, like other plasticizers, can cross the human placenta and reach the foetus. However, compared to BPA, there is almost no toxicological information. This work investigates the toxicity, endocrine and lipid disruption potential of BADGE and its hydrolysed and chlorinated derivatives (BADGE·HO and BADGE·2HCl) in human placental JEG-3 cells. The analysis of culture medium by HPLC-ESI(+)-QqQ evidenced a good bioavailability of BADGE·2HCl and BADGE·HO, but low stability of BADGE. Regardless, BADGE·2HCl and BADGE showed higher cytotoxicity than BADGE·HO, which was the only compound that significantly inhibited CYP19 activity (IC 49 ± 5 μM). JEG-3 cells lipidome analyzed by FIA-ESI(+/-)-Orbitrap was significantly altered by exposure to BADGE·2HCl and BADGE at concentrations at the low μM range. BADGE·2HCl lead to a strong decrease of diacyl- and triacyl-glycerides (DGs,TGs) together with some membrane lipids, while BADGE lead to an accumulation of TGs. The results evidence the ability of BADGE and derivatives to affect placental lipid handling and to modulate placental CYP19 activity (BADGE·HO) and highlights the need to monitor human exposure to these compounds, at least as intensely as BPA is monitored.
BADGE(双酚 A 二缩水甘油醚)是双酚 A(BPA)的合成产物,与其他增塑剂一样,它可以穿过胎盘进入胎儿体内。然而,与 BPA 相比,关于 BADGE 的毒理学信息几乎没有。本研究旨在调查 BADGE 及其水解和氯化衍生物(BADGE·HO 和 BADGE·2HCl)在人胎盘 JEG-3 细胞中的毒性、内分泌干扰和脂质紊乱潜力。通过 HPLC-ESI(+)-QqQ 对培养基进行分析,证明了 BADGE·2HCl 和 BADGE·HO 的生物利用度良好,但 BADGE 的稳定性较低。尽管如此,BADGE·2HCl 和 BADGE 的细胞毒性均高于 BADGE·HO,BADGE·HO 是唯一显著抑制 CYP19 活性的化合物(IC 49 ± 5 μM)。通过 FIA-ESI(+/-)-Orbitrap 对 JEG-3 细胞脂质组进行分析,结果表明 BADGE·2HCl 和 BADGE 在低 μM 浓度范围内暴露会显著改变细胞的脂质组。BADGE·2HCl 导致二酰基和三酰基甘油(DGs,TGs)以及一些膜脂质的强烈减少,而 BADGE 则导致 TG 的积累。结果表明 BADGE 和衍生物有能力影响胎盘脂质代谢,并调节胎盘 CYP19 活性(BADGE·HO),这突出表明需要监测这些化合物在人体内的暴露情况,至少要像监测 BPA 那样严密。
