IF IT LOOKS LIKE A DUCT AND ACTS LIKE A DUCT: ON THE ROLE OF REPROGRAMMED HEPATOCYTES IN CHOLANGIOPATHIES.

Q2 Biochemistry, Genetics and Molecular Biology Gene expression Pub Date : 2020-06-12 DOI:10.3727/105221619X15664105014956

Kari Nejak‐Bowen

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引用次数: 9

Abstract

Cholangiopathies are chronic, progressive diseases of the biliary tree, and can be either acquired or genetic. The primary target is the cholangiocyte (CC), the cell type lining the bile duct that is responsible for bile modification and transport. Despite advances in our understanding and diagnosis of these diseases in recent years, there are no proven therapeutic treatments for the majority of the cholangiopathies, and liver transplantation is the only life-extending treatment option for patients with end-stage cholestatic liver disease. One potential therapeutic strategy is to facilitate endogenous repair of the biliary system, which may alleviate intrahepatic cholestasis caused by these diseases. During biliary injury, hepatocytes (HC) are known to alter their phenotype and acquire CC-like features, a process known as cellular reprogramming. This brief review discusses the potential ways in which reprogrammed HC may contribute to biliary repair, thereby restoring bile flow and reducing the severity of cholangiopathies. Some of these include modifying bile to reduce toxicity, serving as a source of de novo CC to repair the biliary epithelium, or creating new channels to facilitate bile flow.

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如果它看起来像一个管道和行为像一个管道:重编程肝细胞在胆管疾病中的作用。

胆管病是胆道树的慢性进行性疾病，可获得性或遗传性。主要靶点是胆管细胞(CC)，胆管细胞是胆管内负责胆汁修饰和运输的细胞类型。尽管近年来我们对这些疾病的认识和诊断有了进步，但大多数胆管病变没有得到证实的治疗方法，肝移植是终末期胆汁淤积性肝病患者唯一延长生命的治疗选择。一个潜在的治疗策略是促进胆道系统的内源性修复，这可能会减轻由这些疾病引起的肝内胆汁淤积。在胆道损伤期间，肝细胞(HC)已知会改变其表型并获得cc样特征，这一过程被称为细胞重编程。这篇简短的综述讨论了重编程HC可能有助于胆道修复的潜在途径，从而恢复胆汁流动并降低胆道疾病的严重程度。其中一些包括修改胆汁以降低毒性，作为新生CC的来源以修复胆道上皮，或创建新的通道以促进胆汁流动。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Gene expression 生物-生物工程与应用微生物

CiteScore

3.80

自引率

0.00%

发文量

审稿时长

>12 weeks

期刊介绍： Gene Expression, The Journal of Liver Research will publish articles in all aspects of hepatology. Hepatology, as a research discipline, has seen unprecedented growth especially in the cellular and molecular mechanisms of hepatic health and disease, which continues to have a major impact on understanding liver development, stem cells, carcinogenesis, tissue engineering, injury, repair, regeneration, immunology, metabolism, fibrosis, and transplantation. Continued research and improved understanding in these areas will have a meaningful impact on liver disease prevention, diagnosis, and treatment. The existing journal Gene Expression has expanded its focus to become Gene Expression, The Journal of Liver Research to meet this growing demand. In its revised and expanded scope, the journal will publish high-impact original articles, reviews, short but complete articles, and special articles (editorials, commentaries, opinions) on all aspects of hepatology, making it a unique and invaluable resource for readers interested in this field. The expanded team, led by an Editor-in-Chief who is uniquely qualified and a renowned expert, along with a dynamic and functional editorial board, is determined to make this a premier journal in the field of hepatology.