HLA class I (HLA-I) molecules play a crucial role in cell-mediated immunity by presenting peptide antigens to cytotoxic CD8+T cells. A pathological hallmark of Type 1 diabetes (T1D) is the hyperexpression of HLA-I in pancreatic islets that contain residual insulin producing beta cells. The expression of HLA-I can be induced following exposure to interferons (IFN). Previous studies have implicated enteroviruses (EV) as major players in triggering an autoimmune response against beta cells and it seems likely that the hyperexpression of HLA-I contributes to the recognition and targeting of beta cells by CD8+T cells. Whilst HLA-I molecules are expressed on the surface of nucleated cells, there is increasing evidence that HLA-I can also be found in a soluble form in the plasma, including in patients with viral infections. Intriguingly, soluble HLA-I (sHLA-I) levels are significantly elevated in the serum of patients with autoimmune diseases such as systemic lupus erythematosus, rheumatoid arthritis and T1D, yet the function of sHLA-I is still unclear. In this project, we are investigating the impact of interferons and poly I:C, a viral dsRNA mimetic, on the expression of surface and soluble HLA-I in the human pancreatic beta cell line EndoC-βH1, the human pancreatic ductal cell line PANC1 and in HeLa cells. We show that surface HLA-I is upregulated in response to these stimuli in each of the cell lines, with greatest magnitude in EndoC-βH1. We also show for the first time that release of sHLA-I is significantly increased in response to IFNγ in EndoC-βH1 cell line.