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全氟辛烷磺酸(PFOS)和全氟辛酸(PFOA)与血清蛋白的立体特异性结合亲和力。

Isomer-Specific Binding Affinity of Perfluorooctanesulfonate (PFOS) and Perfluorooctanoate (PFOA) to Serum Proteins.

出版信息

Environ Sci Technol. 2015 May 5;49(9):5722-31. doi: 10.1021/es505399w. Epub 2015 Apr 13.

DOI:10.1021/es505399w
PMID:25826685
Abstract

Perfluorooctanesulfonate (PFOS) and perfluorooctanoate (PFOA) are among the most prominent contaminants in human serum, and these were historically manufactured as technical mixtures of linear and branched isomers. The isomers display unique pharmacokinetics in humans and in animal models, but molecular mechanisms underlying isomer-specific PFOS and PFOA disposition have not previously been studied. Here, ultrafiltration devices were used to examine (i) the dissociation constants (Kd) of individual PFOS and PFOA isomers with human serum albumin (HSA) and (ii) relative binding affinity of isomers in technical mixtures spiked to whole calf serum and human serum. Measurement of HSA Kd's demonstrated that linear PFOS (Kd=8(±4)×10(-8) M) was much more tightly bound than branched PFOS isomers (Kd range from 8(±1)×10(-5) M to 4(±2)×10(-4) M). Similarly, linear PFOA (Kd=1(±0.9)×10(-4) M) was more strongly bound to HSA compared to branched PFOA isomers (Kd range from 4(±2)×10(-4) M to 3(±2)×10(-4) M). The higher binding affinities of linear PFOS and PFOA to total serum protein were confirmed when both calf serum and human serum were spiked with technical mixtures. Overall, these data provide a mechanistic explanation for the longer biological half-life of PFOS in humans, compared to PFOA, and for the higher transplacental transfer efficiencies and renal clearance of branched PFOS and PFOA isomers, compared to the respective linear isomer.

摘要

全氟辛烷磺酸 (PFOS) 和全氟辛酸 (PFOA) 是人体血清中最主要的污染物之一,这两种物质在历史上都是作为直链和支链异构体的技术混合物来生产的。这些异构体在人体和动物模型中表现出独特的药代动力学特性,但以前尚未研究过导致 PFOS 和 PFOA 特异性处置的分子机制。本研究采用超滤装置,分别考察了 (i) 各 PFOS 和 PFOA 异构体与人血清白蛋白 (HSA) 的解离常数 (Kd),以及 (ii) 全牛血清和人血清中添加技术混合物的异构体的相对结合亲和力。HSA Kd 的测量结果表明,直链 PFOS (Kd=8(±4)×10(-8) M) 的结合强度远大于支链 PFOS 异构体 (Kd 范围为 8(±1)×10(-5) M 至 4(±2)×10(-4) M)。同样,与支链 PFOA 异构体 (Kd 范围为 4(±2)×10(-4) M 至 3(±2)×10(-4) M) 相比,直链 PFOA (Kd=1(±0.9)×10(-4) M) 与 HSA 的结合强度更强。当全牛血清和人血清中添加技术混合物时,直链 PFOS 和 PFOA 与总血清蛋白的更高结合亲和力得到了进一步证实。总的来说,这些数据为 PFOS 在人体内的生物半衰期比 PFOA 长,以及支链 PFOS 和 PFOA 异构体比相应的直链异构体具有更高的胎盘转移效率和肾脏清除率提供了一种机制解释。

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