PUBLICATION
A Novel AURKA Mutant-Induced Early-Onset Severe Hepatocarcinogenesis Greater than Wild-Type via Activating Different Pathways in Zebrafish
- Authors
- Su, Z.L., Su, C.W., Huang, Y.L., Yang, W.Y., Sampurna, B.P., Ouchi, T., Lee, K.L., Wu, C.S., Wang, H.D., Yuh, C.H.
- ID
- ZDB-PUB-190705-1
- Date
- 2019
- Source
- Cancers 11(7): (Journal)
- Registered Authors
- Huang, Yi-Luen, Yang, Wan-Yu, Yuh, Chiou-Hwa (Cathy)
- Keywords
- AKT signaling pathway, Aurora A kinase (AURKA), hepatocellular carcinoma (HCC), zebrafish, β-catenin
- MeSH Terms
- none
- PubMed
- 31269749 Full text @ Cancers
Citation
Su, Z.L., Su, C.W., Huang, Y.L., Yang, W.Y., Sampurna, B.P., Ouchi, T., Lee, K.L., Wu, C.S., Wang, H.D., Yuh, C.H. (2019) A Novel AURKA Mutant-Induced Early-Onset Severe Hepatocarcinogenesis Greater than Wild-Type via Activating Different Pathways in Zebrafish. Cancers. 11(7).
Abstract
Aurora A kinase (AURKA) is an important regulator in mitotic progression and is overexpressed frequently in human cancers, including hepatocellular carcinoma (HCC). Many AURKA mutations were identified in cancer patients. Overexpressing wild-type Aurka developed a low incidence of hepatic tumors after long latency in mice. However, none of the AURKA mutant animal models have ever been described. The mechanism of mutant AURKA-mediated hepatocarcinogenesis is still unclear. A novel AURKA mutation with a.a.352 Valine to Isoleucine (V352I) was identified from clinical specimens. By using liver-specific transgenic fish overexpressing both the mutant and wild-type AURKA, the AURKA(V352I)-induced hepatocarcinogenesis was earlier and much more severe than wild-type AURKA. Although an increase of the expression of lipogenic enzyme and lipogenic factor was observed in both AURKA(V352I) and AURKA(WT) transgenic fish, AURKA(V352I) has a greater probability to promote fibrosis at 3 months compared to AURKA(WT). Furthermore, the expression levels of cell cycle/proliferation markers were higher in the AURKA(V352I) mutant than AURKA(WT) in transgenic fish, implying that the AURKA(V352I) mutant may accelerate HCC progression. Moreover, we found that the AURKA(V352I) mutant activates AKT signaling and increases nuclear β-catenin, but AURKA(WT) only activates membrane form β-catenin, which may account for the differences. In this study, we provide a new insight, that the AURKA(V352I) mutation contributes to early onset hepatocarcinogenesis, possibly through activation of different pathways than AURKA(WT). This transgenic fish may serve as a drug-screening platform for potential precision medicine therapeutics.
Genes / Markers
Expression
Phenotype
Mutations / Transgenics
Human Disease / Model
Sequence Targeting Reagents
Fish
Orthology
Engineered Foreign Genes
Mapping