Abstract
Interferon-stimulated gene 15 (ISG15) is an ubiquitin-like protein, which can either be found as a free protein or covalently-bound to target proteins via ISGylation. The functions of free and conjugated ISG15 are ambiguous in tumorigenesis owing to its roles as an oncogene and a tumour suppressor gene. This dual role for ISG15 could be a result of the cancer cell type and the cellular context. Here, we report that ISG15 expression is upregulated in different cancer cells compared to normal cells. Furthermore, we found higher endogenous, free ISG15 protein levels in MCF7 breast cancer cells than in other cells, suggesting that non-conjugated ISG15 levels are cell type-specific. Additionally, we demonstrated that interferon gamma (IFN-Ɣ) increased both free and conjugated levels of ISG15 in MCF7 cells. Interestingly, endogenous conjugated and free ISG15 levels were differentially regulated by IFN-Ɣ in several cell lines. On characterisation of the subcellular distribution of ISG15 in several cell types, our results indicated that free ISG15 was mainly localised to the cytoplasm of MCF7 cells, whereas ISGylation marks were also found in the cytoplasm, but mainly in the nucleus, with a specific distribution pattern in each cell type. Thus, free and conjugated ISG15 protein levels and their subcellular distribution are cell type-dependent, whereas IFN-Ɣ signalling may differentially control the abundance of both ISG15 forms in transformed and normal cells.
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