Glucose stimulates protein modification by O-linked GlcNAc in pancreatic β cells:: Linkage of O-linked GlcNAc to β cell death

The pancreatic beta cell can respond in the long term to hyperglycemia both with an increased capacity for insulin production and, in susceptible individuals, with apoptosis, When glucose-induced apoptosis offsets the increasing beta cell capacity, type 2 diabetes results. Here, we tested the idea that the pathway of glucose metabolism that leads to the modification of intracellular proteins with the O-linked monosaccharide IV-acetylglucosamine (O-Glc-NAc) is involved in the glucose-induced apoptosis. This idea is based on two recent observations. First, the beta cell expresses much more O-GlcNAc transferase than any other known cell, and second, that the beta cell-specific toxin, streptozotocin (STZ), itself a GlcNAc analog, specifically blocks the enzyme that cleaves O-GlcNAc from intracellular proteins. As a consequence, we now show that hyperglycemia leads to the rapid and reversible accumulation of O-GlcNAc specifically in beta cells in vivo. Animals pretreated with STZ also accumulate O-GlcNAc in their beta cells when hyperglycemic, but this change is sustained upon re-establishment of euglycemia. In concert with the idea that STZ toxicity results from the sustained accumulation of O-GlcNAc after a hyperglycemic episode, we established a low-dose STZ protocol in which the beta cells' toxicity of STZ was manifest only after glucose or glucosamine administration. Transgenic mice with impaired beta cell glucosamine synthesis treated with this protocol are resistant to the diabetogenic effect of STZ plus glucose yet succumb to STZ plus glucosamine, This study provides a causal link between apoptosis in beta cells and glucose metabolism through glucosamine to O-GlcNAc, implicating this pathway of glucose metabolism with beta cell glucose toxicity.