Environmental Toxin Biliatresone-Induced Biliary Atresia-like Abnormal Cilia and Bile Duct Cell Development of Human Liver Organoids

类有机物 纤毛 胆管上皮细胞 细胞生物学 生物 运动纤毛 纤毛形成 胆管 胆道闭锁 内科学 内分泌学 医学 移植 肝移植
作者
Haibing Yue,Menon Sudheer Sivasankaran,Babu Rosana Ottakandathil,Zhongluan Wu,So Man-Ting,Bhy Chung,Wong Kak-Yuen,Tam Kwong-Hang,Lui Chi-Hang
出处
期刊:Toxins [Multidisciplinary Digital Publishing Institute]
卷期号:16 (3): 144-144 被引量:13
标识
DOI:10.3390/toxins16030144
摘要

Biliary atresia (BA) is a poorly understood and devastating obstructive bile duct disease of newborns. Biliatresone, a plant toxin, causes BA-like syndrome in some animals, but its relevance in humans is unknown. To validate the hypothesis that biliatresone exposure is a plausible BA disease mechanism in humans, we treated normal human liver organoids with biliatresone and addressed its adverse effects on organoid development, functions and cellular organization. The control organoids (without biliatresone) were well expanded and much bigger than biliatresone-treated organoids. Expression of the cholangiocyte marker CK19 was reduced, while the hepatocyte marker HFN4A was significantly elevated in biliatresone-treated organoids. ZO-1 (a tight junction marker) immunoreactivity was localized at the apical intercellular junctions in control organoids, while it was markedly reduced in biliatresone-treated organoids. Cytoskeleton F-actin was localized at the apical surface of the control organoids, but it was ectopically expressed at the apical and basal sides in biliatresone-treated organoids. Cholangiocytes of control organoids possess primary cilia and elicit cilia mechanosensory function. The number of ciliated cholangiocytes was reduced, and cilia mechanosensory function was hampered in biliatresone-treated organoids. In conclusion, biliatresone induces morphological and developmental changes in human liver organoids resembling those of our previously reported BA organoids, suggesting that environmental toxins could contribute to BA pathogenesis.

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