Glucotoxicity is mediated by cytoplasmic distribution of RAP1 in pancreatic ß-cells.

Diabetes mellitus (DM) is a group of chronic metabolic disorders characterized by persistent hyperglycemia. In our study, we analyzed the level and location of RAP1 changes in the development of ß-cell dysfunction induced by glucotoxicity. We employed three pancreatic ß-cell lines, namely INS-1, 1.2B4, and NIT-1, as well as a streptozotocin-induced diabetes rat model. We demonstrate that after high glucose treatment, RAP1 is increased, probably through induction by AKT, allowing RAP1 to shuttle from the nucleus to the cytoplasm and activate NF-κB signaling. Furthermore, non-enzymatic post-translational modifications of RAP1, such as advanced glycation end products and carbonylation may affect the function of RAP1, such as activation of the NF-κB signaling. Taken together, we showed that RAP1 is a new player in the mechanism of glucotoxicity in pancreatic ß-cells.

Reduction of radiation­induced nitrative stress in leucocytes and kidney cells of rats upon administration of polyphenolic complex concentrates from red wine.

The research has shown that exposure to ionizing radiation at the dose of 30 cGy leads to the activation of NO-synthase way of nitrogen oxide synthesis, as well as to the accumulation of its stable metabolites and 3'-nitrotyrosine modified proteins in rat peripheral blood leucocytes and the renal cortical layer. NO-synthase activity was preserved at the control value through the consumption of red wine natural polyphenolic complex concentrates by the irradiated animals. The content of proteins modified by tyrosine nitration decreased in the early period of post-radiation exposure due to the influence of the investigated concentrate. Thus the ability of red wine natural polyphenolic complex concentrates to prevent adverse changes in L-arginine/NO system and, therefore, inhibit the development of nitrative stress induced by low doses of ionizing radiation has been proved experimentally.

[The effect of natural polyphenol complex of red grape wine on L-arginine/NO system in peripheral blood of rats under low doses of ionizing radiation].

The total activity of NO-synthase and content of stable metabolitic products of nitric oxide in the peripheral blood of rats under low doses of ionizing radiation and administration of natural polyphenol complex of grape was investigated. It was found that natural polyphenol compounds of grapes have the ability to correct radioinduced changes in L-arginine/NO system. It was noted that the action of X-radiation increased activity of NO-synthase in the peripheral blood of rats. However, the consumption of natural polyphenol complex of grape led to a decrease of this index to control values. An increase in NOS activity under irradiation leads to the increase of NO stable metabolites content, which is reflected in the accumulation of nitrite- and nitrate-anions in the peripheral blood of rats. The consumption of preparation of polyphenol complex this index decreased in the early period of the experiment, and on the third day after exposure, the total content of NO stable metabolites is slightly higher compared to the indices of control animals. Thus, the ability of natural polyphenol complex to cause attenuation of oxidative-nitrative stress caused by ionizing radiation was investigated experimentally.