Abstract
Biliary atresia (BA) is a progressive fibroinflammatory cholangiopathy affecting the bile ducts of neonates. Although BA is the leading indication for pediatric liver transplantation, the etiology remains elusive. Adducin 3 (ADD3) and X-prolyl aminopeptidase 1 (XPNPEP1) are 2 genes previously identified in genome-wide association studies as potential BA susceptibility genes. Using zebrafish, we investigated the importance of ADD3 and XPNPEP1 in functional studies. To determine whether loss of either gene leads to biliary defects, we performed morpholino antisense oligonucleotide (MO) knockdown studies targeting add3a and xpnpep1 in zebrafish. Individuals were assessed for decreases in biliary function and the presence of biliary defects. Quantitative polymerase chain reaction was performed on pooled 5 days postfertilization larvae to assess variations in transcriptional expression of genes of interest. Although both xpnpep1 and add3a are expressed in the developing zebrafish liver, only knockdown of add3a produced intrahepatic defects and decreased biliary function. Similar results were observed in homozygous add3a mutants. MO-mediated knockdown of add3a also showed higher mRNA expression of hedgehog (Hh) targets. Inhibition of Hh signaling rescued biliary defects caused by add3a knockdown. Combined knockdown of add3a and glypican-1 (gpc1), another mediator of Hh activity that is also a BA susceptibility gene, resulted in more severe biliary defects than knockdown of either alone. Our results support previous studies identifying ADD3 as a putative genetic risk factor for BA susceptibility. Our results also provide evidence that add3a may be affecting the Hh pathway, an important factor in BA pathogenesis.
Highlights
We chose to inhibit add3a and xpnpep1 to determine whether loss would lead to biliary defects and activation of pathways similar to those observed in Biliary atresia (BA)
Our results demonstrate that Adducin 3 (ADD3), not X-prolyl aminopeptidase 1 (XPNPEP1), is a putative candidate susceptibility gene for BA
We show that morpholino antisense oligonucleotide (MO)-mediated knockdown of add3a leads to impaired biliary function and developmental biliary anomalies
Summary
Biliary atresia (BA) is a progressive fibroinflammatory cholangiopathy affecting the bile ducts of neonates. Adducin 3 (ADD3) and X-prolyl aminopeptidase 1 (XPNPEP1) are 2 genes previously identified in genome-wide association studies as potential BA susceptibility genes. We investigated the importance of ADD3 and XPNPEP1 in functional studies. Methods: To determine whether loss of either gene leads to biliary defects, we performed morpholino antisense oligonucleotide (MO) knockdown studies targeting add3a and xpnpep in zebrafish. Results: both xpnpep and add3a are expressed in the developing zebrafish liver, only knockdown of add3a produced intrahepatic defects and decreased biliary function. Combined knockdown of add3a and glypican-1 (gpc1), another mediator of Hh activity that is a BA susceptibility gene, resulted in more severe biliary defects than knockdown of either alone. Conclusions: Our results support previous studies identifying ADD3 as a putative genetic risk factor for BA susceptibility. Our results provide evidence that add3a may be affecting the Hh pathway, an important factor in BA pathogenesis
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