School of Life Sciences, Zhejiang Chinese Medical University, Hangzhou, Zhejiang, People's Republic of China.
Environ Health Perspect. 2024 Nov;132(11):117003. doi: 10.1289/EHP14634. Epub 2024 Nov 8.
Environmental chemical exposures have been associated with metabolic outcomes, and typically, their binding to nuclear hormone receptors is considered the molecular initiating event (MIE) for a number of outcomes. However, more studies are needed to understand the influence of such exposures on cell membrane-bound adiponectin receptors (AdipoRs), which are critical metabolic regulators.
We aimed to clarify the potential interactions between AdipoRs and environmental chemicals, specifically organophosphorus flame retardants (OPFRs), and the resultant effects.
Employing simulation, cell thermal shift, and noncompetitive binding assays, we screened eight OPFRs for interactions with AdipoR1 and AdipoR2. We tested two key events underlying AdipoR modulation upon OPFR exposure in a liver cell model. The Toxicological Prioritization Index (ToxPi)scoring scheme was used to rank OPFRs according to their potential to disrupt AdipoR-associated metabolism. We further examined the inhibitory effect of OPFRs on AdipoR signaling activation in mouse models.
Analyses identified pi-pi stacking and pi-sulfur interactions between the aryl-OPFRs 2-ethylhexyl diphenyl phosphate (EHDPP), triphenyl phosphate (TPhP), and tricresyl phosphate (TCP) and the transmembrane cavities of AdipoR1 and AdipoR2. Cell thermal shift assays showed a rightward shift in the AdipoR proteins' melting curves upon exposure to these three compounds. Although the binding sites differed from adiponectin, results suggest that aryl-OPFRs noncompetitively inhibited the binding of the endogenous peptide ligand ADP355 to the receptors. Analyses of key events underlying AdipoR modulation revealed that glucose uptake was notably lower, whereas lipid content was higher in cells exposed to aryl-OPFRs. EHDPP, TCP, and TPhP were ranked as the top three disruptors according to the ToxPi scores. A noncompetitive binding between these aryl-OPFRs and AdipoRs was also observed in wild-type (WT) mice. In db/db mice, the finding of lower blood glucose levels after ADP355 injection was diminished in the presence of a typical aryl-OPFR (TCP). WT mice exposed to TCP demonstrated lower AdipoR1 signaling, which was marked by lower phosphorylated AMP-activated protein kinase (pAMPK) and a higher expression of gluconeogenesis-related genes. Moreover, WT mice exposed to ADP355 demonstrated higher levels of pAMPK protein and peroxisome proliferator-activated receptor- messenger RNA. This was accompanied by higher glucose disposal and by lower levels of long-chain fatty acids and hepatic triglycerides; these metabolic improvements were negated upon TCP co-treatment.
, , and assays suggest that aryl-OPFRs act as noncompetitive inhibitors of AdipoRs, preventing their activation by adiponectin, and thus function as antagonists to these receptors. Our study describes a novel MIE for chemical-induced metabolic disturbances and highlights a new pathway for environmental impact on metabolic health. https://doi.org/10.1289/EHP14634.
环境化学暴露与代谢结果有关,通常情况下,它们与核激素受体的结合被认为是许多结果的分子起始事件(MIE)。然而,需要更多的研究来了解这些暴露对细胞膜结合的脂联素受体(AdipoRs)的影响,AdipoRs 是关键的代谢调节剂。
我们旨在阐明 AdipoRs 与环境化学物质,特别是有机磷阻燃剂(OPFRs)之间的潜在相互作用及其产生的影响。
我们采用模拟、细胞热转移和非竞争性结合测定法,筛选了 8 种 OPFRs 与 AdipoR1 和 AdipoR2 的相互作用。我们在肝细胞模型中测试了 OPFR 暴露后调节 AdipoR 的两个关键事件。采用毒性优先指数(ToxPi)评分方案根据 OPFR 破坏 AdipoR 相关代谢的潜力对其进行排名。我们还进一步研究了 OPFRs 对小鼠模型中 AdipoR 信号激活的抑制作用。
分析确定了芳基-OPFRs 2-乙基己基二苯基磷酸酯(EHDPP)、三苯基磷酸酯(TPhP)和磷酸三邻甲苯酯(TCP)与 AdipoR1 和 AdipoR2 的跨膜腔之间的π-π堆积和π-硫相互作用。细胞热转移测定显示,这三种化合物暴露后,AdipoR 蛋白的熔点曲线向右移动。尽管结合位点与脂联素不同,但结果表明芳基-OPFRs 非竞争性地抑制了内源性肽配体 ADP355 与受体的结合。对调节 AdipoR 的关键事件的分析表明,暴露于芳基-OPFRs 的细胞中葡萄糖摄取明显降低,而脂质含量升高。根据 ToxPi 评分,EHDPP、TCP 和 TPhP 被评为前三种破坏剂。在野生型(WT)小鼠中也观察到这些芳基-OPFRs 与 AdipoRs 之间的非竞争性结合。在 db/db 小鼠中,在存在典型芳基-OPFR(TCP)的情况下,注射 ADP355 后血糖水平降低的现象减弱。暴露于 TCP 的 WT 小鼠表现出较低的 AdipoR1 信号,其特征是磷酸化 AMP 激活的蛋白激酶(pAMPK)水平较低,以及与糖异生相关的基因表达较高。此外,暴露于 ADP355 的 WT 小鼠表现出较高水平的 pAMPK 蛋白和过氧化物酶体增殖物激活受体-信使 RNA。这伴随着葡萄糖处置的增加,以及长链脂肪酸和肝三酰甘油水平的降低;这些代谢改善在 TCP 共同处理时被否定。
模拟、细胞热转移和非竞争性结合测定表明,芳基-OPFRs 作为 AdipoRs 的非竞争性抑制剂,阻止它们被脂联素激活,因此作为这些受体的拮抗剂发挥作用。我们的研究描述了化学诱导的代谢紊乱的新的分子起始事件,并强调了环境对代谢健康影响的新途径。
