BACKGROUND: Reovirus is a proposed cause of infantile biliary atresia. However, mechanistic insight regarding Reo-2 as a potential cholangiotropic virus is lacking. Furthermore, it is unknown whether Reo-2 infection can induce autoimmune-mediated bile duct injury. METHODS: Lesions of bile ducts in newborn DBA/1J mice infected with Reo-2 were analyzed immunopathologically. RESULTS: Damage to biliary epithelia occurs after Reo-2 infection. In addition, nonsuppurative cholangitis with fibrosis in extrahepatic (especially septal) bile ducts developed following complete viral clearance from the liver. At the inflamed ducts, major histocompatibility complex class I expressing((+)) and FAS(+) cholangiocytes were associated with FAS ligand(+) lymphocytes and tumor necrosis factor-α(+) mononuclear cells (macrophages and lymphocytes). These cholangiocytes were apoptotic and necrotic. Moreover, affected ducts were infiltrated by CD3(+), CD4(+), CD8(+), IFN-γ(+), and FAS(+) lymphocytes. Analysis of blood from Reo-2-infected mice revealed that they developed anticholangiocyte cytoplasm antibodies and had high serum IFN-γ concentration. Notably, there was no increase in Foxp3(+) lymphocytes at inflamed ducts, lymph nodes, and thymi. CONCLUSION: Reo-2 infection induced T-helper cell type 1-dependent injury to bile ducts in weanling mice. The lesions observed in mice may be analogous to those associated with human infantile biliary atresia, which are caused by an autoimmune-mediated process.
BACKGROUND:Reovirus is a proposed cause of infantile biliary atresia. However, mechanistic insight regarding Reo-2 as a potential cholangiotropic virus is lacking. Furthermore, it is unknown whether Reo-2 infection can induce autoimmune-mediated bile duct injury. METHODS: Lesions of bile ducts in newborn DBA/1J mice infected with Reo-2 were analyzed immunopathologically. RESULTS: Damage to biliary epithelia occurs after Reo-2 infection. In addition, nonsuppurative cholangitis with fibrosis in extrahepatic (especially septal) bile ducts developed following complete viral clearance from the liver. At the inflamed ducts, major histocompatibility complex class I expressing((+)) and FAS(+) cholangiocytes were associated with FAS ligand(+) lymphocytes and tumor necrosis factor-α(+) mononuclear cells (macrophages and lymphocytes). These cholangiocytes were apoptotic and necrotic. Moreover, affected ducts were infiltrated by CD3(+), CD4(+), CD8(+), IFN-γ(+), and FAS(+) lymphocytes. Analysis of blood from Reo-2-infected mice revealed that they developed anticholangiocyte cytoplasm antibodies and had high serum IFN-γ concentration. Notably, there was no increase in Foxp3(+) lymphocytes at inflamed ducts, lymph nodes, and thymi. CONCLUSION: Reo-2 infection induced T-helper cell type 1-dependent injury to bile ducts in weanling mice. The lesions observed in mice may be analogous to those associated with humaninfantile biliary atresia, which are caused by an autoimmune-mediated process.
Authors: Thomas Götze; Holger Blessing; Christian Grillhösl; Patrick Gerner; André Hoerning Journal: Front Pediatr Date: 2015-06-17 Impact factor: 3.418
Authors: Magd A Kotb; Ahmed Kotb; Sahar Talaat; Sherif M Shehata; Nabil El Dessouki; Ahmed A ElHaddad; Gamal El Tagy; Haytham Esmat; Sameh Shehata; Mohamed Hashim; Hanan A Kotb; Hanan Zekry; Hesham M Abd Elkader; Sherif Kaddah; Hend E Abd El Baky; Nabil Lotfi Journal: Medicine (Baltimore) Date: 2022-09-30 Impact factor: 1.817