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新生儿自然杀伤细胞通过Nkg2d靶向小鼠胆管上皮,并在实验性胆道闭锁中引发组织特异性损伤。

Neonatal NK cells target the mouse duct epithelium via Nkg2d and drive tissue-specific injury in experimental biliary atresia.

作者信息

Shivakumar Pranavkumar, Sabla Gregg E, Whitington Peter, Chougnet Claire A, Bezerra Jorge A

机构信息

Cincinnati Children's Hospital Medical Center and Department of Pediatrics, University of Cincinnati College of Medicine, Cincinnati, Ohio 45229-3039, USA.

出版信息

J Clin Invest. 2009 Aug;119(8):2281-90. doi: 10.1172/jci38879.

DOI:10.1172/jci38879
PMID:19662681
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2719928/
Abstract

Biliary atresia is a neonatal obstructive cholangiopathy that progresses to end-stage liver disease. Although the etiology is unknown, a neonatal adaptive immune signature has been mechanistically linked to obstruction of the extrahepatic bile ducts. Here, we investigated the role of the innate immune response in the pathogenesis of biliary atresia. Analysis of livers of infants at diagnosis revealed that NK cells populate the vicinity of intrahepatic bile ducts and overexpress several genes involved in cytotoxicity. Using a model of rotavirus-induced biliary atresia in newborn mice, we found that activated NK cells also populated murine livers and were the most abundant cells in extrahepatic bile ducts at the time of obstruction. Rotavirus-primed hepatic NK cells lysed cholangiocytes in a contact- and Nkg2d-dependent fashion. Depletion of NK cells and blockade of Nkg2d each prevented injury of the duct epithelium after rotavirus infection, maintained continuity of duct lumen between the liver and duodenum, and enabled bile flow, despite the presence of virus in the tissue and the overexpression of proinflammatory cytokines. These findings identify NK cells as key initiators of cholangiocyte injury via Nkg2d and demonstrate that injury to the duct epithelium drives the phenotype of experimental biliary atresia.

摘要

胆道闭锁是一种进展为终末期肝病的新生儿阻塞性胆管病。尽管病因不明,但新生儿适应性免疫特征已在机制上与肝外胆管阻塞相关联。在此,我们研究了固有免疫反应在胆道闭锁发病机制中的作用。对诊断时婴儿肝脏的分析显示,自然杀伤细胞(NK细胞)聚集在肝内胆管附近,并过度表达几种参与细胞毒性的基因。利用新生小鼠轮状病毒诱导的胆道闭锁模型,我们发现活化的NK细胞也聚集在小鼠肝脏中,并且在阻塞时是肝外胆管中最丰富的细胞。轮状病毒致敏的肝脏NK细胞以接触和Nkg2d依赖的方式裂解胆管细胞。NK细胞的耗竭和Nkg2d的阻断均能预防轮状病毒感染后胆管上皮的损伤,维持肝脏与十二指肠之间胆管腔的连续性,并使胆汁流动,尽管组织中存在病毒且促炎细胞因子过度表达。这些发现确定NK细胞是通过Nkg2d导致胆管细胞损伤的关键启动因子,并证明胆管上皮损伤驱动了实验性胆道闭锁的表型。

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