Abstract
Abstract Background The most frequent type of primary liver cancer in adults is hepatocellular carcinoma (HCC) which is the third-highest cause of cancer-related death worldwide. Globally, people die from liver cancer each year, with HCC accounting for around 90% of those deaths, making it a serious public health concern. Cirrhosis, hepatitis B, hepatitis C, and non-alcoholic fatty liver disease are all high-risk factors for HCC development. In addition, HCC is one of the most frequent solid tumors found in humans. Due to insufficient blood supply, these solid tumors usually are devoid of oxygen and nutrients. A reduction in oxygen concentration results in the formation of a hypoxic environment that downregulates the metabolic process and is fatal to cancer cells. To circumvent this barrier to growth, cancer cells produce hypoxia-inducible factor-1 (HIF-1), which alters their metabolic pathways and allows them to survive. HIF-1alpha (HIF-1α), a cytoplasmic subunit of HIF-1 can be overexpressed in hypoxic conditions. HCC cells cannot proliferate under hypoxia without a high level of HIF-1α expression, making it as a potential cancer treatment target. Using the LOPAC (Library of Pharmacologically Active Compounds) drug library, we have identified multiple drug molecules that inhibit the expression of HIF-1α. Methods We constructed specific SK-HEP-1 cells, a human liver cancer cell line, expressing the luciferase reporter gene under the promoter of HIF-1α. By using the cells, we screened the (LOPAC) library. Other bioanalytical methods were used to confirm and analyze identified candidates. Results We successfully identified several compounds that are able to inhibit HIF-1α expression by using luciferase activity assays and Western blot analysis (WB). Further investigation was conducted to determine the molecular mechanism and function for one of the drug candidates, termed as UZ-1, in inhibiting HIF-1α in HCC by using the MTT assay and WB. UZ-1, an antirheumatic agent, showed a strong inhibitory effect on the expression of HIF-1α in SK-HEP-1 cells. In addition, it suppressed the signaling pathways associated with HIF-1α, leading to the apoptosis of HCC cells. Conclusion The UZ-1 molecule inhibits HIF-1α expression, as a result, and displays anticancer function in HCC cells through inducing apoptosis. Our result suggests that UZ-1 may be a potential drug candidate for the treatment of HCC.
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