Consistent with the postulated role of oxidative stress in the etiology of late diabetic complications, pharmacological interventions based on biological antioxidants have been suggested. The aim of the present study was to investigate the effect of dietary supplementation with the pyridoindole antioxidant stobadine on the myocardial antioxidant status and ultrastructure of streptozotocin-diabetic rats. Diabetic male Wistar rats were fed for 32 weeks a standard diet or a diet supplemented with stobadine (0.05% w/w). Control rats received a standard diet or stobadine-supplemented diet (0.16% w/w). Plasma levels of glucose, cholesterol and triglycerides were increased significantly by diabetes. Activities of superoxide dismutase and catalase were markedly elevated in the diabetic myocardium. Myocardial levels of conjugated dienes increased after eight months of diabetes, in spite of significantly increased myocardial alpha-tocopherol and coenzyme Q9 content. The long-term treatment of diabetic animals with stobadine (i) reduced plasma cholesterol and triglyceride levels yet left the severe hyperglycemia unaffected, (ii) reduced oxidative damage of myocardial tissue as measured by conjugated dienes, (iii) reversed myocardial levels of alpha-tocopherol and coenzyme Q9 to near control values, (iv) reduced elevated activity of superoxide dismutase in the diabetic myocardium, and (v) attenuated angiopathic and atherogenic processes in the myocardium as assessed by electron microscopy examination. These results are in accordance with the postulated prooxidant role of chronic hyperglycemia and provide further evidence that development of pathological changes in diabetic myocardium is amenable to pharmacological intervention by biological antioxidants.
The aim of the present work was to study the effect of 3mercapto-5H-1,2,4-triazino [5,6-b]indole-5-acetic acid (CMTI), an efficient aldose reductase inhibitor, on sorbitol accumulation in selected organs of streptozotocin-induced diabetic rats in vivo. In addition, the effect of CMTI on aldose reductase back reaction and on sorbitol dehydrogenase was determined. The model of experimental diabetes in male Wistar rats induced by streptozotocin was used. Experimental diabetes was induced by triple intraperitoneal doses of streptozotocin on three consecutive days. In diabetic rats, significant elevation of sorbitol concentration in the sciatic nerve and eye lenses was recorded.CMTI administered intragastrically (50 mg/kg/day) for five consecutive days significantly inhibited sorbitol accumulation in the sciatic nerve, yet it was without effect in eye lenses of diabetic animals. For aldose reductase back reaction, the substrate affinity of glycerol to aldose reductase was one order lower than that of glyceraldehyde in forward reaction. In addition, the back reaction was much slower, characterized by V max value of about 30 times lower than that of the forward reaction. Inhibition of aldose reductase by CMTI was characterized by closely related IC 50 values in submicromolar range for both forward and back reactions. No significant inhibition of the second enzyme of the polyol pathway, sorbitol dehydrogenase, by 100 μM CMTI was recorded (I=0.9±2.7 %, n=3). To conclude, the presented results showed the ability of CMTI to affect the polyol pathway in diabetic rats in vivo and represent thus a further step in a complex preclinical evaluation of CMTI as a potential agent for treatment of chronic diabetic complications.
1. The role of oxidative stress, and accordingly uncontrolled reactive oxygen species generation/action, have been widely documented in a number of different neuronal pathologies. However, the concept of pharmacological interventions in prevention and therapy of oxidative stress-related diseases has not found adequate application in clinical practice. This may be due to the insufficient efficacy of drugs available, their unsuitable pharmacokinetics, side effects, toxicity, etc. 2. Based on stobadine, (--)-cis-2,8-dimethyl-2,3,4,4a,5,9b-hexahydro-1H-pyrido[4,3-b]indole, a well-known antioxidant, free radical scavenger, and neuroprotectant, it was attempted to develop new stobadine derivatives with improved pharmacodynamic and toxicity profiles, on applying molecular design, synthesis and adequate tests. Stobadine molecule was modified mostly by electron donating substitution on the benzene ring and by alkoxycarbonyl substitution at N-2 position. A total of >70 derivatives were prepared. 3. In a mice model of head trauma, some of the new stobadine derivatives administered i.v. immediately after the trauma, significantly improved sensomotoric outcome in the animals assessed 1 h later. Accordingly, decrease in brain edema was proved histologically as well as by brain wet weight assessment. 4. Putative neuroprotective action of the compounds was confirmed on rat hippocampal slices exposed to reversible 6 min hypoxia/low glucose by analysis of synaptic transmission in CA1 region neurons. Irreversible impairment of neurotransmission resulting from the hypoxia was significantly reduced by the presence of SMe1EC2, one of the new compounds, in concentration range 0.03-10.0x10(-6) mol l(-1). Both the neuroprotective and antioxidant effect of the compound closely resembled those of stobadine, melatonin, 21-aminosteroids, alpha-phenyl-tert-butylnitrone and others, all well-established antioxidants, except the range of effective concentrations was by 1-2 orders lower in SMe1EC2. 5. A remarkable antioxidant efficacy was observed in the new compounds in rat brain homogenates exposed to iron/ascorbate system by protection of lipids and creatine kinase against the oxidative impairment. A link between the neuroprotective and antioxidant/ scavenger properties in the compounds can be assumed. 6. Acute toxicity of some of the new pyridoindoles was diminished compared to stobadine. That might be due to the virtually full elimination of stobadine's undesired alpha (1)-adrenolytic activity attained by appropriate modifications of its molecule. 7. The new pyridoindoles extend the range of available neuroprotectants interfering with oxidative stress in neuronal tissue.
Overload of reactive oxygen species during diabetes is known to impair cellular homeostasis and to promote deterioration of membrane function in the organism. The aim of the present study was to examine the effect of dietary supplementation with the pyridoindole atioxidant stobadine on functional properties of the renal Na, K-ATPase in diabetic rats. After 16 weeks of streptozotocin-induced diabetes (single intravenous dose of streptozotocin; 55 mg/kg), a significant inhibition (by 35%-42%) of the enzyme was observed throughout the range of NaCl 2-100 mmol/l, probably as an event of altered functional properties of Na,K-ATPase, suggested by the 42% decrease of the V(max) value. Administration of 0.05% (w/w) stobadine in the diet dramatically improved the function of renal Na,K-ATPase in diabetic rats with regard to sodium handling, as suggested by significant stimulation (by 104%-77% in accordance with increasing concentration of NaCl) of the enzyme over the whole NaCl concentration range investigated. This stimulatory effect was accompanied by an increase of V(max) value to the level of nondiabetic rats on standard diet. In conclusion, stobadine was found to antagonise the negative effects of diabetes on the renal Na,K-ATPase, preserving its normal function in regulation of intracellular homeostasis of Na(+) and K(+) ions.
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