Reduced Hepatocyte Bicarbonate Output Accelerates Periductal Inflammation and Fibrosis in mdr2-/- Mouse Liver

Paracelsus proceedings of experimental medicine Pub Date : 2023-06-24 DOI:10.33594/000000634

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Abstract

Background/Aims: Mice deficient for the canalicular phospholipid transporter MDR2 (ABCB4) develop sclerosing cholangitis due to high biliary concentrations of monomeric bile acids. This study determines whether a selective reduction in biliary bicarbonate output, secondary to the deletion of the hepatocyte-expressed carbonic anhydrase CAXIV (Car14) aggravates the bile acid-induced damage observed in the mdr2-/- mouse model. Methods: Bile flow was measured gravimetrically and HCO3- output by microtitration before and during stimulation with intravenously applied tauroursodesoxycholic acid (TUDCA) in car14-/-mdr2-/- (abcb4-/-), car14-/-/mdr2+/+, car14+/+/mdr2-/- and wt mice. Cholangiocyte proliferation, hepatic inflammation and fibrosis was studied by gene and/or protein expression for proinflammatory and profibrotic cytokines, cholangiocyte proliferation markers, and by (immuno) histochemical assessment. The impact of Car14 deficiency was also assessed in a xenobiotic cholangitis model. Results: TUDCA stimulated HCO3-output was significantly increased in 6 week old mdr2-/- mice, and significantly decreased in both car14-/- as well as car14-/-/mdr2-/-mice, compared to wt, while bile flow was unaltered. Both bile flow and HCO3- output were significantly decreased in 11 week old mdr2-/-, and more so in car14-/-/mdr2-/- mice. Loss of Car14 significantly increased inflammatory liver injury and cholangiocyte proliferation, and aggravated liver fibrosis in car14-/-/mdr2-/- mice compared to mdr2-/- mice. In contrast, the absence of Car14 did not affect the hepatic functional and morphological alterations in 3,5-diethoxycarbonyl-1,4-dihydroxychollidine (DDC) fed mice. Conclusions: Car14 deletion reduced biliary HCO3- output and aggravated the functional, inflammatory and morphological alterations in the liver of mdr2-/-mice. These results demonstrate the importance of sufficient hepatocellular bicarbonate output in the protection of the hepatobiliary epithelium against toxic bile acids.

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肝细胞碳酸氢盐输出减少加速mdr2-/-小鼠肝脏导管周围炎症和纤维化

背景/目的：缺乏小管磷脂转运蛋白MDR2（ABCB4）的小鼠由于胆汁中单体胆汁酸浓度高而发展为硬化性胆管炎。本研究确定了肝细胞表达的碳酸酐酶CAXIV（Car14）缺失后胆汁碳酸氢盐输出的选择性减少是否会加重在mdr2-/-小鼠模型中观察到的胆汁酸诱导的损伤。方法：在静脉注射牛磺脱氧胆酸（TUDCA）刺激car14-/-mdr2-/-（abcb4-/-）、car14-/-/mdr2+/+、car14++/mdr2-/-和wt小鼠之前和期间，用重量法测量胆汁流量和微量滴定法测定HCO3-输出。通过促炎和促纤维化细胞因子、胆管细胞增殖标志物的基因和/或蛋白质表达以及（免疫）组织化学评估来研究胆管细胞增殖、肝脏炎症和纤维化。在外源性胆管炎模型中也评估了Car14缺乏的影响。结果：与wt相比，TUDCA刺激的HCO3输出在6周龄的mdr2-/-小鼠中显著增加，在car14-/-和car14-/-/mdr2-/-小鼠中显著降低，而胆汁流量没有改变。11周龄的mdr2-/-小鼠的胆汁流量和HCO3-输出均显著降低，car14-/-/mdr2-/-小鼠的情况更为严重。与mdr2-/-小鼠相比，Car14的缺失显著增加了Car14-/-/mdr2-/-小鼠的炎症性肝损伤和胆管细胞增殖，并加重了肝纤维化。相反，Car14的缺失不会影响3,5-二乙氧基羰基-1,4-二羟基chollidine（DDC）喂养小鼠的肝脏功能和形态变化。结论：Car14缺失降低了mdr2-/-小鼠胆汁中HCO3的输出，并加重了肝脏的功能、炎症和形态学改变。这些结果证明了充足的肝细胞碳酸氢盐输出在保护肝胆上皮免受有毒胆汁酸侵害方面的重要性。

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Paracelsus proceedings of experimental medicine

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