Oncogenic plasmid DNA and liver injury agent dictates liver cancer development in a mouse model

Vincent Chiu; Christine Yee; Nathan Main; Igor Stevanovski; Matthew J Watt; Trevor Wilson; Peter Angus; Tara Roberts; Nicholas Shackel; Chandana B Chandana Herath

doi:10.1042/CS20240560

Oncogenic plasmid DNA and liver injury agent dictates liver cancer development in a mouse model

Clin Sci (Lond). 2024 Sep 10:CS20240560. doi: 10.1042/CS20240560. Online ahead of print.

Authors

Affiliations

¹ Ingham Institute for Applied Medical Research, Liverpool, Australia.
² University of Melbourne, Melbourne, Australia.
³ Monash University, Clayton, Australia.
⁴ Austin Health, Heidelberg, Australia.
⁵ ANZAC Research Institute, Sydney, Australia.
⁶ The University of Melbourne, Melbourne, United States.

PMID: 39254423
DOI: 10.1042/CS20240560

Abstract

Primary liver cancer is an increasing problem worldwide and is associated with significant mortality. A popular method of modelling liver cancer in mice is plasmid hydrodynamic tail vein injection (HTVI). However, plasmid-HTVI models rarely recapitulate the chronic liver injury which precedes the development of most human liver cancer. We sought to investigate how liver injury using thioacetamide contributes to the pathogenesis and progression of liver cancer in two oncogenic plasmid-HTVI-induced mouse liver cancer models. Fourteen-week-old male mice received double-oncogene plasmid-HTVI (SB/AKT/c-Met and SB/AKT/NRas) and then twice-weekly intraperitoneal injections of thioacetamide for six weeks. Liver tissue was examined for histopathological changes, including fibrosis and steatosis. Further characterization of fibrosis and inflammation was performed with immunostaining and real-time quantitative PCR. RNA sequencing with pathway analysis was used to explore novel pathways altered in the cancer models. Hepatocellular and cholangiocellular tumors were observed in mice injected with double-oncogene plasmid-HTVI models (SB/AKT/c-Met and SB/AKT/NRas). Thioacetamide induced mild fibrosis and increased alpha smooth muscle actin-expressing cells. However, the combination of plasmids and thioacetamide did not significantly increase tumor size, but increased multiplicity of small neoplastic lesions. Cancer and/or liver injury upregulated profibrotic and proinflammatory genes while metabolic pathway genes were mostly downregulated. We conclude that the liver injury microenvironment can interact with liver cancer and alter its presentation. However, the effects on cancer development vary depending on the genetic drivers with differing active oncogenic pathways. Therefore, the choice of plasmid-HTVI model and injury agent may influence the extent to which injury promotes liver cancer development.

Keywords: Liver cancer; hepatic steatosis; hydrodynamic tail vein injection; liver fibrosis; liver injury; thioacetamide.