Chronic hyperglycemia alters retinal astrocyte microstructure and uptake of cholera toxin B in a murine model of diabetes.

Astrocytes are the principle glial cells of the central nervous system and play an active role in maintaining proper metabolism in surrounding neurons. Because of their involvement in metabolic control, it is likely that their physiology changes in response to metabolic diseases such as diabetes and associated diabetic retinopathy. Here, we investigated whether microstructural changes in astrocyte morphology occur during the early stages of chronic hyperglycemia that may be indicative of early pathogenic programs. We used MORF3 mice in conjunction with streptozotocin-induced hyperglycemia to investigate the morphology of single retinal astrocytes at an early timepoint in diabetic disease. We report that astrocytes initiate a morphological remodeling program, which depends on both the glycemic background and the presence of intravitreal injury, to alter the amount of the neuronal-associated pad and bristle microstructural motifs. Additionally, hyperglycemia increases astrocyte uptake of cholera toxin B, possibly reflecting changes in glycolipid and glycoprotein biosynthesis. Chronic hyperglycemia coupled with intravitreal injection of cholera toxin B also causes extensive leukocyte infiltration into the retina. Our results have important clinical relevance as current therapies for diabetic retinopathy involve intravitreal injection of pharmaceuticals in individuals with often poorly controlled blood glucose levels.