Enterovirus Infection, CXC Chemokine Ligand 10 (CXCL10), and CXCR3 Circuit: A Mechanism of Accelerated β-Cell Failure in Fulminant Type 1 Diabetes

OBJECTIVE: Fulminant type 1 diabetes is characterized by the rapid onset of severe hyperglycemia and ketoacidosis, with subsequent poor prognosis of diabetes complications. Causative mechanisms for accelerated β-cell failure are unclear. RESEARCH DESIGN AND METHODS: Subjects comprised three autopsied patients who died from diabetic ketoacidosis within 2–5 days after onset of fulminant type 1 diabetes. We examined islet cell status, including the presence of enterovirus and chemokine/cytokine/major histocompatibility complex (MHC) expressions in the pancreata using immunohistochemical analyses and RT-PCR. RESULTS: Immunohistochemical analysis revealed the presence of enterovirus-capsid protein in all three affected pancreata. Extensive infiltration of CXCR3 receptor–bearing T-cells and macrophages into islets was observed. Dendritic cells were stained in and around the islets. Specifically, interferon-γ and CXC chemokine ligand 10 (CXCL10) were strongly coexpressed in all subtypes of islet cells, including β-cells and α-cells. No CXCL10 was expressed in exocrine pancreas. Serum levels of CXCL10 were increased. Expression of MHC class II and hyperexpression of MHC class I was observed in some islet cells. CONCLUSIONS: These results strongly suggest the presence of a circuit for the destruction of β-cells in fulminant type 1 diabetes. Enterovirus infection of the pancreas initiates coexpression of interferon-γ and CXCL10 in β-cells. CXCL10 secreted from β-cells activates and attracts autoreactive T-cells and macrophages to the islets via CXCR3. These infiltrating autoreactive T-cells and macrophages release inflammatory cytokines including interferon-γ in the islets, not only damaging β-cells but also accelerating CXCL10 generation in residual β-cells and thus further activating cell-mediated autoimmunity until all β-cells have been destroyed.