Chunbao Guo1, Jin Zhu, Cong-Lun Pu, Yu-Hua Deng, Ming-Man Zhang. 1. Department of Hepatobiliary Surgery, Children's Hospital, Chongqing Medical University, Chongqing, People's Republic of China. gchunbao@yahoo.com.cn
Abstract
INTRODUCTION: To our knowledge, elucidating the immune pathogenesis of disease, especially characteristic T-cell and natural killer (NK) cell expansions, has not been performed before now. We investigated the role of T lymphocytes and NK lymphocytes in the destruction of extrahepatic bile ducts of patients with biliary atresia. METHODS: Lymphocytes from the liver and extrahepatic bile duct remnants of patients with biliary atresia were characterized by immunofluorescence staining, fluorescence-activated cell sorter analysis, and real-time reverse-transcriptase PCR. Cholangiocyte lysis assays were performed to confirm cytotoxicity of activated hepatic NK lymphocytes or CD8(+) cells. RESULTS: The inflammatory milieu from portal tracts and/or biliary remnants consisted of greater numbers of Kupffer cells, T lymphocytes, and NK lymphocytes in the patients with biliary atresia as compared with the cholestatic and noncholestatic controls. In patients with biliary atresia, expression of NK or CD8+ costimulatory molecules was upregulated as compared with controls. Hepatic NK lymphocytes or CD8(+) cells from patients with biliary atresia were demonstrated to be cytotoxic to the duct epithelium. DISCUSSION: Specific immune responses from NK and CD8(+) cells were involved in the injury to the duct epithelium and play a significant role in the phenotype of experimental biliary atresia.
INTRODUCTION: To our knowledge, elucidating the immune pathogenesis of disease, especially characteristic T-cell and natural killer (NK) cell expansions, has not been performed before now. We investigated the role of T lymphocytes and NK lymphocytes in the destruction of extrahepatic bile ducts of patients with biliary atresia. METHODS: Lymphocytes from the liver and extrahepatic bile duct remnants of patients with biliary atresia were characterized by immunofluorescence staining, fluorescence-activated cell sorter analysis, and real-time reverse-transcriptase PCR. Cholangiocyte lysis assays were performed to confirm cytotoxicity of activated hepatic NK lymphocytes or CD8(+) cells. RESULTS: The inflammatory milieu from portal tracts and/or biliary remnants consisted of greater numbers of Kupffer cells, T lymphocytes, and NK lymphocytes in the patients with biliary atresia as compared with the cholestatic and noncholestatic controls. In patients with biliary atresia, expression of NK or CD8+ costimulatory molecules was upregulated as compared with controls. Hepatic NK lymphocytes or CD8(+) cells from patients with biliary atresia were demonstrated to be cytotoxic to the duct epithelium. DISCUSSION: Specific immune responses from NK and CD8(+) cells were involved in the injury to the duct epithelium and play a significant role in the phenotype of experimental biliary atresia.