Centre for Health Protection, National Institute for Public Health and the Environment (RIVM), Bilthoven, The Netherlands.
Department of Environmental Health, Norwegian Institute of Public Health, Oslo, Norway.
Crit Rev Toxicol. 2021 Feb;51(2):141-164. doi: 10.1080/10408444.2021.1888073. Epub 2021 Apr 15.
Associations between per- and polyfluoroalkyl substances (PFASs) and increased blood lipids have been repeatedly observed in humans, but a causal relation has been debated. Rodent studies show reverse effects, i.e. decreased blood cholesterol and triglycerides, occurring however at PFAS serum levels at least 100-fold higher than those in humans. This paper aims to present the main issues regarding the modulation of lipid homeostasis by the two most common PFASs, PFOS and PFOA, with emphasis on the underlying mechanisms relevant for humans. Overall, the apparent contrast between human and animal data may be an artifact of dose, with different molecular pathways coming into play upon exposure to PFASs at very low high levels. Altogether, the interpretation of existing rodent data on PFOS/PFOA-induced lipid perturbations with respect to the human situation is complex. From a mechanistic perspective, research on human liver cells shows that PFOS/PFOA activate the PPARα pathway, whereas studies on the involvement of other nuclear receptors, like PXR, are less conclusive. Other data indicate that suppression of the nuclear receptor HNF4α signaling pathway, as well as perturbations of bile acid metabolism and transport might be important cellular events that require further investigation. Future studies with human-relevant test systems would help to obtain more insight into the mechanistic pathways pertinent for humans. These studies shall be designed with a careful consideration of appropriate dosing and toxicokinetics, so as to enable biologically plausible quantitative extrapolations. Such research will increase the understanding of possible perturbed lipid homeostasis related to PFOS/ PFOA exposure and the potential implications for human health.
已有研究反复表明,全氟和多氟烷基物质(PFASs)与血液中脂质升高有关,但两者之间是否存在因果关系尚存争议。啮齿动物研究表明,PFASs 会产生相反的作用,即降低血液中的胆固醇和甘油三酯,但这种作用出现在 PFAS 血清水平达到人类水平的 100 倍以上时。本文旨在介绍两种最常见的 PFASs(全氟辛烷磺酸和 PFOA)对脂质动态平衡调节的主要问题,重点介绍与人类相关的潜在机制。总的来说,人类和动物数据之间明显的差异可能是剂量的一种表现,因为在接触 PFASs 时,不同的分子途径在极低和极高的水平下可能会发挥作用。总的来说,对于 PFOS/PFOA 引起的脂质紊乱,现有啮齿动物数据与人类情况的相关性解释较为复杂。从机制角度来看,关于 PFOS/PFOA 激活 PPARα 通路的研究表明,PFOS/PFOA 会激活 PPARα 通路,而关于其他核受体(如 PXR)参与的研究则不那么明确。其他数据表明,抑制核受体 HNF4α 信号通路以及扰乱胆汁酸代谢和转运可能是重要的细胞事件,需要进一步研究。使用与人类相关的测试系统进行的未来研究将有助于更深入地了解与人类相关的机制途径。这些研究应在仔细考虑适当剂量和毒物动力学的基础上进行设计,以便能够进行合理的定量外推。这种研究将增加对与 PFOS/PFOA 暴露相关的可能紊乱的脂质动态平衡以及对人类健康潜在影响的理解。
