As an inflammatory obliterative cholangiopathy of neonates, biliary atresia (BA) affects both intrahepatic and extrahepatic bile ducts. Its etiology has remained largely unknown. Gene expression profiling was conduced for extrahepatic bile duct tissues (including porta hepatis & common bile duct) to identify novel targets for further studies of BA. Among these tissues, porta hepatis was regarded as fibrosis group while common bile duct as self-control group. The analysis of gene expression profile in these tissues was performed with Affymetrix human microarray. Quantitative RT-PCR (qRT-PCR) was performed to confirm these results. The differential expressions of genes were identified through fold-change filtering. Gene Ontology (GO) and pathway analyses were performed using standard enrichment computation method. It was found that a total of 140 genes were differentially expressed between porta hepatis and common bile duct tissues, 19 genes up-regulated and 121 genes down-regulated. Moreover, GO analysis found that cell adhesion molecules, extracellular matrix formation, protein digestion & absorption functions may be involved in the pathogenesis of porta hepatis fibrosis. Lastly the qRT-PCR data confirmed that IL7 and CLDN2 were significantly up-regulated and both might be involved in the etiology of BA, the expression level of VCAM1 was positively correlated with severity of liver fibrosis in the BA infants. Our results demonstrated that the expressions of these aberrant genes responding to fibrosis in porta hepatis of patients with BA. Further studies of these genes may provide useful insights into the pathological mechanisms of BA.
Keywords: Biliary atresia; gene expression profiling; microarray; porta hepatis fibrosis.