The vascular leakage in diabetic retinopathy leads to macular edema and vision loss. Although astrocyte play an important role in regulating blood-brain barrier integrity in the brain, the precise role of astrocyte in blood-retinal barrier was yet to be elucidated. This study aimed to investigate the role of angiopoietin 2 (Ang2) in astrocyte loss and vascular leakage in the early streptozotocin-induced diabetic retinopathy. We demonstrated that vascular leakage occurred with astrocyte loss in early diabetic mice retina as Ang2 increased. The astrocyte loss and vascular leakage were inhibited by intravitreal injection of Ang2-neutralizing antibody. In vitro, Ang2 aggravated high glucose-induced astrocyte apoptosis via GSK-3β activation. Ang2 directly bound to αvβ5 integrin, which was abundant in astrocyte, and the blockade of αvβ5 integrin, in vitro, effectively attenuated Ang2-induced astrocyte apoptosis. In vivo, intravitreal injection of anti-αvβ5-integrin antibody inhibited astrocyte loss in early diabetic retinopathy. Taken together, Ang2 induced astrocyte apoptosis under high glucose via αvβ5-integrin/GSK-3β/β-catenin pathway. Therefore, we suggest that Ang2/integrin signaling could be a potential therapeutic target to prevent the vascular leakage by astrocyte loss in early diabetic retinopathy.
The depletion of an essential amino acid, tryptophan, caused by indoleamine 2,3-dioxygenase induction in vitro, has been shown to be due to a mechanism that is used in self-defense against inhaled microorganisms and tumor growth. In this communication, we report the results of measuring dioxygenase activity in the peritoneal exudate cells and tumor cytotoxicity at the transplantation loci after in vivo transplantation of tumor cells into the peritoneal cavity of syngeneic or allogeneic strains of mice. The enzyme was induced only when the tumor cells were being rejected from allogeneic animals and no change was observed when the cells continued to grow in syngeneic animals. Furthermore, when the syngeneic tumor cells in a diffusion chamber were i.p. transplanted simultaneously with i.p. injection of allogeneic tumor cells, the enzyme was induced not only in allografted tumor cells but also in the syngeneic tumor cells. Under these conditions, the tumor cells in the diffusion chamber ceased to grow and 50% of the cells were rejected. To determine the type of cells containing the induced enzyme, the peritoneal exudate cells (tumor cells and host cells--mostly small lymphocytes) were separated into six fractions by sedimentation under gravity and by differential centrifugation. Approximately 80% of total enzyme activity was localized in a tumor-rich fraction (98.9% purity), whereas only 0.2% of the activity was found in a lymphocyte-rich fraction (99.5% purity). The localization of indoleamine 2,3-dioxygenase in the tumor cells was confirmed by complement-dependent lysis with specific antibodies against tumor and host cells.
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