A microfluidic thyroid-liver platform to assess chemical safety in humans.

IF 4.5 2区 医学 Q2 MEDICINE, RESEARCH & EXPERIMENTAL Altex-Alternatives To Animal Experimentation Pub Date : 2023-01-01 DOI:10.14573/altex.2108261
Julia Kühnlenz, Diana Karwelat, Thomas Steger-Hartmann, Marian Raschke, Sophie Bauer, Özlem Vural, Uwe Marx, Helen Tinwell, Remi Bars
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引用次数: 7

Abstract

Thyroid hormones (THs) are crucial regulators of human metabolism and early development. During the safety assessment of plant protection products, the human relevance of chemically induced TH perturbations observed in test animals remains uncertain. European regulatory authorities request follow-up in vitro studies to elucidate human-relevant interferences on thyroid gland function or TH catabolism through hepatic enzyme induction. However, human in vitro assays based on single molecular initiating events poorly reflect the complex TH biology and related liver-thyroid axis. To address this complexity, we present human three-dimensional thyroid and liver organoids with key functions of TH metabolism. The thyroid model resembles in vivo-like follicular architecture and a TSH-dependent triiodothyronine synthesis over 21 days, which is inhibited by methimazole. The HepaRG-based liver model, secreting the critical TH-binding proteins albumin and thyroxine-binding globulin, emulates an active TH catabolism via the formation of glucuronidated and sulfated thyroxine (gT4/sT4). Activation of the nuclear receptors PXR and AHR was demonstrated via the induction of specific CYP isoenzymes by rifampicin, pregnenolone-16α-carbonitrile, and β-naphthoflavone. However, this nuclear receptor activation, assumed to regulate UDP-glucuronosyltransferases and sulfotransferases, appeared to have no effect on gT4 and sT4 formation in this human-derived hepatic cell line model. Finally, established single-tissue models were successfully co-cultured in a perfused two-organ chip for 21 days. In conclusion, this model presents a first step towards a complex multimodular human platform that will help to identify both direct and indirect thyroid disruptors that are relevant from a human safety perspective.

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微流控甲状腺-肝脏平台评估人体化学品安全性。
甲状腺激素(THs)是人体代谢和早期发育的重要调节因子。在植物保护产品的安全性评估期间,在试验动物中观察到的化学诱导TH扰动与人类的相关性仍然不确定。欧洲监管机构要求进行后续的体外研究,以阐明人类对甲状腺功能或通过肝酶诱导的TH分解代谢的干扰。然而,基于单分子起始事件的人体外实验很难反映复杂的TH生物学和相关的肝-甲状腺轴。为了解决这一复杂性,我们提出了具有TH代谢关键功能的人体三维甲状腺和肝脏类器官。甲状腺模型类似于体内样卵泡结构和tsh依赖的三碘甲状腺原氨酸合成超过21天,甲巯咪唑抑制。基于heparg的肝脏模型,分泌关键的TH结合蛋白白蛋白和甲状腺素结合球蛋白,通过形成葡萄糖醛酸和硫酸甲状腺素(gT4/sT4)模拟活跃的TH分解代谢。通过利福平、孕烯醇酮-16α-碳腈和β-萘黄酮诱导特异性CYP同工酶,证实了核受体PXR和AHR的活化。然而,这种核受体的激活,被认为是调节udp -葡萄糖醛基转移酶和硫转移酶,似乎对人源性肝细胞系模型中gT4和sT4的形成没有影响。最后,将建立的单组织模型成功地在灌注的双器官芯片中共培养21天。总之,该模型向复杂的多模块人类平台迈出了第一步,该平台将有助于识别从人类安全角度相关的直接和间接甲状腺干扰物。
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来源期刊
Altex-Alternatives To Animal Experimentation
Altex-Alternatives To Animal Experimentation MEDICINE, RESEARCH & EXPERIMENTAL-
CiteScore
7.70
自引率
8.90%
发文量
89
审稿时长
2 months
期刊介绍: ALTEX publishes original articles, short communications, reviews, as well as news and comments and meeting reports. Manuscripts submitted to ALTEX are evaluated by two expert reviewers. The evaluation takes into account the scientific merit of a manuscript and its contribution to animal welfare and the 3R principle.
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