Differential Expression and Distribution of Slco4a1 and Slco1b2 in an Internal Environment Disorder-induced Hepatocellular Carcinoma Mouse Model.

Abstract

OBJECTIVE: This study aims to enhance the understanding of underlying mechanisms and potential therapies of the solute carrier organic anion (SLCO) transporter family in internal environment disorder (IED)-induced hepatocellular carcinoma (HCC). This could lead to new therapeutic strategies and offer new directions for the creation of new patents for HCC treatment products. METHODS: The orthotopic transplantation (OT), IED and IED-based OT (IED-OT) mouse models were established. Expression patterns of Slco4a1 and Slco1b2 were determined using reverse transcription quantitative polymerase chain reaction (RT-qPCR), western blotting (WB) and immunohistochemistry (IHC) in various tissues, including lung, stomach, liver, spleen, kidney, colon, small intestine, HCC tissues and adjacent non-cancerous tissues. RESULTS: Animals exhibited symptoms, including weight loss, lethargy, chills, dyspnea, altered hair texture, and gastrointestinal disturbances, confirming the successful establishment of the IED model. The analysis demonstrated differential expression and tissue-specific distribution of Slco4a1 and Slco1b2, which are associated with IED-induced changes. These alterations potentially disrupt organ transport functions, thereby promoting the development of HCC. Additionally, they suggest a role in rebalancing the tumor microenvironment and mitigating damage resulting from abnormal substance accumulation. DISCUSSION: This study reveals that IED promotes HCC progression by altering the expression and distribution of Slco4a1 and Slco1b2, leading to transport dysfunction in affected organs. Furthermore, IED and OT exhibit synergistic effects in HCC development. These findings enhance the understanding of the underlying mechanisms of IED related HCC. Future studies should establish animal models incorporating both internal and external factors, with cellular experiments needed to further validate the mechanisms. CONCLUSION: Changes in SLCO expression and distribution induced by IED may play pivotal roles in the development of HCC. These findings contribute insights that could inform novel therapeutic strategies against HCC.