Oxidative modification of extracellular histones by hypochlorous acid modulates their ability to induce β-cell dysfunction.

Histones are nuclear proteins that play a key role in chromatin assembly and regulation of gene expression by their ability to bind to DNA. Histones can also be released from cells owing to necrosis or extracellular trap release from neutrophils (NETs) and other immune cells. The presence of histones in the extracellular environment has implications for many pathologies, including diabetes mellitus, owing to the cytotoxic nature of these proteins, and their ability to promote inflammation. NETs also contain myeloperoxidase, a defensive enzyme that produces hypochlorous acid (HOCl), to kill pathogens, but also readily damages host proteins. In this study, we examined the reactivity of histones with and without HOCl modification, with a pancreatic β-cell model. Exposure of β-cells to histones resulted in a loss of metabolic activity and cell death by a combination of apoptosis and necrosis. This toxicity was increased on pretreatment of the β-cells with tumour necrosis factor α and interleukin 1β. Histones upregulated endoplasmic reticulum (ER) stress genes, including the pro-apoptotic transcription factor CHOP. There was also evidence for alterations to the cellular redox environment and upregulation of antioxidant gene expression. However, downregulation of insulin-associated genes and insulin was observed. Interestingly, modification of the histones with HOCl reduced their toxicity and altered the patterns of gene expression observed, and a further decrease in the expression of insulin-associated genes was observed. These findings could be relevant to the development of Type 2 diabetes, where low-grade inflammation favours NET release, resulting in elevated histones in the circulation.