Abstract
Biliary atresia is a common disease in neonates which causes obstructive jaundice and progressive hepatic fibrosis. Our previous studies indicate that rotavirus infection is an initiator in the pathogenesis of experimental biliary atresia (BA) through the induction of increased nuclear factor-kappaB and abnormal activation of the osteopontin inflammation pathway. In the setting of rotavirus infection, rotavirus nonstructural protein 4 (NSP4) serves as an important immunogen, viral protein 7 (VP7) is necessary in rotavirus maturity and viral protein 4 (VP4) is a virulence determiner. The purpose of the current study is to clarify the roles of NSP4, VP7 and VP4 in the pathogenesis of experimental BA. Primary cultured extrahepatic biliary epithelia were infected with Rotavirus (mmu18006). Small interfering RNA targeting NSP4, VP7 or VP4 was transfected before rotavirus infection both in vitro and in vivo. We analyzed the incidence of BA, morphological change, morphogenesis of viral particles and viral mRNA and protein expression. The in vitro experiments showed NSP4 silencing decreased the levels of VP7 and VP4, reduced viral particles and decreased cytopathic effect. NSP4-positive cells had strongly positive expression of integrin subunit α2. Silencing of VP7 or VP4 partially decreased epithelial injury. Animal experiments indicated after NSP4 silencing, mouse pups had lower incidence of BA than after VP7 or VP4 silencing. However, 33.3% of VP4-silenced pups (N = 6) suffered BA and 50% of pups (N = 6) suffered biliary injury after VP7 silencing. Hepatic injury was decreased after NSP4 or VP4 silencing. Neither VP4 nor VP7 were detected in the biliary ducts after NSP4. All together, NSP4 silencing down-regulates VP7 and VP4, resulting in decreased incidence of BA.
Highlights
Biliary atresia (BA) is a common biliary disease in infants
(siVP7) transfected extrahepatic biliary epithelia (EHBE) contained more DLPs but less TLPs; siRNA targeting VP4 (siVP4) treated EHBE contained less TLPs, but there was no difference of the number of DLPs in this group compared to the negative control (Figure 1C and 1D)
RTPCR showed that the amplicon of viral protein 4 (VP4), viral protein 7 (VP7) could not be detected and relatively less Nonstructural protein 4 (NSP4) transcription was noted in siRNA targeting NSP4 (siNSP4) transfected EHBE
Summary
Biliary atresia (BA) is a common biliary disease in infants. It is characterized by progressive destruction of extrahepatic bile ducts, resulting in obstruction of bile flow during the first few months of children’s lives [1,2]. Interdisciplinary initiatives [3] focusing on BA suggests it is a virus-induced autoimmune disease [4,5]. As supported by our clinical evidence [6,7,8] and animal models [9,10], reovirus, especially rotavirus, infection could cause biliary injury or obstruction of bile duct lumens. Rhesus rotavirus (RRV) is considered to be the most potent virus in inducing experimental BA [9]. Studies investigating the relationship between rotavirus proteins and BA are lacking
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