At present, the data obtained by us and other authors give evidence that disturbances in hormonal signaling systems are the main causes of development of pathological changes and complications under the diabetes. However, the molecular mechanisms of these disturbances remain obscure, especially in the case of insulin-independent type II diabetes. Using neonatal streptozotocin model of 80- and 180-days type II diabetes the changes in functional activity of hormone-regulated adenylyl cyclase (AC) signaling systems components in the myocardium and the brain striatum of diabetic rats in comparison with the control animals were found. The transduction of AC inhibitory hormonal signal meditated through Gi proteins was shown to by disturbed under diabetes. This was manifested in both the decrease of hormone inhibitory effect on AC activity and weakening of hormone stimulation of G-protein GTP-binding activity. In the case of noradrenaline (myocardium) the inhibitory pathway of AC regulation by the hormone was vanished and the stimulation pathway, in contrary, was protected. Prolongation of diabetes from 80 up to 180 days led to some weakening of Gi-protein-mediated hormonal signal transduction. Stimulating effect of biogenic amines and relaxin on the AC activity and GTP-binding in the myocardium and brain of diabetic rats were weakly changed in the case of both 80- and 180-days diabetes. To sum up, the experimental type II diabetes caused disturbances mainly in Gi-coupled signaling cascades participating in hormone inhibition of AC activity.
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