全氟和多氟烷基化合物暴露对甲状腺的毒作用机制概述

Possible mechanisms of toxic effects of per-and polyfluoroalkyl substances exposure on thyroid

  • 摘要: 全氟和多氟烷基化合物(PFASs)是一种持久性有机污染物(POPs),被广泛应用于食品包装、餐具涂层、耐污渍家具等工业生产中。人类每天都暴露于PFASs,主要通过饮用水与食品、使用含有PFASs的消费品以及在PFASs或相关产品生产过程中的职业暴露等途径接触PFASs。越来越多的毒理学研究表明PFASs暴露会破坏甲状腺激素(TH)系统,引起甲状腺功能减退,人群流行病学研究也进一步支持了此结果。PFASs可以破坏甲状腺滤泡细胞和钠/碘转运体损害甲状腺细胞的碘摄取;干扰甲状腺球蛋白合成、降低甲状腺过氧化物酶活性,影响TH的合成分泌;与TH竞争性结合甲状腺转运蛋白或者甲状腺激素受体,干扰TH转运及发挥生物学效应;破坏TH信号通路,脱碘酶活性,干扰负反馈机制,加速TH代谢排泄。TH的合成、转运、降解及发挥生物学效应等过程均可能受到PFASs暴露的影响,故本文从TH生物合成、转运、作用于靶细胞和代谢排泄阶段这四个方面阐述PFASs对甲状腺的可能毒作用机制,对PFASs暴露引起的甲状腺毒性作一概述。

     

    Abstract: Per- and polyfluoroalkyl substances (PFASs) are persistent organic pollutants (POPs). They are widely used in food packaging, tableware coating, stain resistant furniture, and other industrial production. Humans are exposed to PFASs on a daily basis through drinking water and intaking food, use of consumer products containing PFASs, and occupational exposure during the production of PFASs or related products. A growing body of toxicological studies has shown that PFASs exposure disrupts the thyroid hormone (TH) system and causes hypothyroidism, which is further supported by population epidemiological studies. PFASs can damage thyroid follicular cells and sodium/iodine transporters to impair iodine uptake by thyroid cells. They interfere with the synthesis of thyroglobulin, reduce the activity of thyroid peroxidase, and affect the synthesis and secretion of TH. They interfere with TH transportation and biological effects via TH competitive binding thyroid transporter or thyroid hormone receptor. They suppress TH signaling pathway and deiodinase activity, interfere negative feedback mechanism, and accelerate TH metabolism and excretion. The processes of TH synthesis, transport, degradation, and biological effects may all be affected by PFASs exposure. This paper described possible toxic mechanisms of PFASs on the thyroid from four aspects: TH biosynthesis, transport, action on target cells, and metabolic excretion stage, and summarized the thyroid toxicity associated with PFASs exposure.

     

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