Diabetogenic action of alloxan in short-term termination of the blood supply to the pancreas and spleen

It has been shown that the development of alloxan diabetes in rats and the appearance of diabetogenic factor in blood is caused by the direct alloxan action on pancreas and spleen--the organs supplying by blood through the spleen artery. The stopping of blood circulation in that artery preserves rat's organism from the development of general toxic effect of alloxan. The inactivation of alloxan as a diabetogenic agent has been shown after its 5-minute at 37 degrees C incubation with blood. It has been established that the half activity of intravenous injected alloxan disappears in rat's organism during 50 s. and does not depend on alloxan sensitivity of animals.     

Alloxan in vivo does not only exert deleterious effects on pancreatic B cells

The aim of the experiment was to investigate the mechanism of harmful alloxan action in vivo. 75 mg/kg b.w. of this diabetogenic agent were administered to fasting rats. Two minutes later the animals were decapitated. It was observed that alloxan caused a distinct rise in blood insulin and glucose levels with a concomitant drop of free fatty acids. The amount of sulfhydryl groups in the liver of alloxan-treated rats was decreased and glutathione peroxidase activity was substantially higher. These results indicate that some changes observed in alloxan-induced diabetes can not only be the consequence of B cells damage by alloxan but may also be the result of its direct influence on other tissues. It was also observed that glucose given 20 min before alloxan injection only partially protected against the deleterious effects of alloxan.     

Anti-spermatogenic effect of Vinca rosea Linn.

Regressive changes in seminiferous tubules and Leydig cells, increased cholesterol content in testis, and degeneration of all germinal elements other than spermatogonia were observed in the male Swiss albino mice, treated with aqueous extract of V. rosea leaves for 24 days. While the results reflect antiandrogenic and antispermatogenic action of V. rosea, the selective retention of the spermatogonia provides scope for the much desired revival of spermatogenesis on cessation of the treatment.     

Decreased glutathione peroxidase activity in sciatic nerve of alloxan-induced diabetic mice and its correlation with blood glucose levels

The effect of alloxan-induced diabetes on glutathione peroxidase (GSH-Px) activity in sciatic nerve of mice has been studied. We have found, 7 days after alloxan treatment, a significant decrease in this enzymatic activity in the cytosol of sciatic nerve of diabetic mice, and moreover, that these changes remained unaltered up to 21 days after alloxan injection. No modification in the glutathione content of sciatic nerve of diabetic mice was observed throughout the experiment when compared with controls. The decrease in GSH-Px activity in this tissue shows a good correlation with the increase of blood glucose levels throughout the experiment. It is hypothesized whether a combination of mechanisms could be involved in this decrease of GSH-Px activity and if oxygen radicals might be the common mediators of these processes.     

A Simple Bioassay for Chemicals Active to the Photosynthetic or Respiratory Systems of Plants

After male rats of the Sprague Dawley strain, 5 weeks old, were fed a 20% casein diet with or without 0.5% nicotinamide for 13 days, 180 mg/kg body weight of alloxan was injected in- traperitoneally into the rats. The rats were kept for 18 days with the same diet. The level of blood glucose was increased 6-fold in the group on a 20% casein diet by the injection of alloxan, while there was only a 2-foid increase in the group on a nicotinamide-containing diet and the decreased body weight was also lower in the group on the nicotinamide diet than the group on the casein diet. The body weight was indirectly related to the concentration of blood glucose. A marked increase was observed in the activities of tryptophan oxygenase, aminocarboxymuconate-semialdehyde decarboxylase, and nicotinamide methyltransferase upon the injection of alloxan with both diets; on the other hand, the activities of kynureninase and NAD⁺ synthetase were decreased by the injection of alloxan. The activity of kynurenine aminotransferase increased in the group on the 20% casein diet by the injection of alloxan, while in the group on the nicotinamide-containing diet its activity was not increased by the injection. These changes in the above enzyme activities mean that the conversion ratio from tryptophan to niacin is lower in the alloxan diabetic rat than normal rat. It was found that the activities of tryptophan oxygenase, aminocarboxymuconate-semialdehyde decarboxylase, and nicotinamide methyltransferase were directly related to the concentration of blood glucose, and that the activities of kynureninase and NAD⁺ synthetase were inversely related. There was no difference in the activities of 3-hydroxyanthranilic acid oxygenase and nicotinamide mononucleotide adenylyltransferase upon the injection of alloxan with both diets.     

Possible role of blood insulin levels on glutathione S-transferase activities from different tissues of male rats

The activity of in vitro glutathione S-transferase towards 1-chloro-2,4-dinitrobenzene was examined in liver, renal cortex, and small intestine (duodenum, jejunum, ileum) after the in vivo treatment of male Wistar rats with streptozotocin or alloxan. The studies were performed at 2, 10, 24, and 48 h and 7 and 15 days after streptozotocin treatment or 24 and 48 h after alloxan treatment. The results indicated that while the blood levels of insulin-glucose did not show variations, there were no alterations of the glutathione S-transferase activity in the tissues tested. On the other hand, when the treatments caused modifications on blood insulin-glucose levels, there were changes of glutathione S-transferase activity in all tissues (except in the ileum) in such a way that a direct relationship between plasma insulin levels and glutathione S-transferase activity could be demonstrated. These results were also confirmed through insulin administration to control and diabetic rats. The data demonstrate a possible regulation of glutathione S-transferase activity by blood insulin and (or) glucose levels in the tissues tested.     

Molecular characterizations of two begomoviruses infecting Vinca rosea and Raphanus sativus in India

Dear Editor Samples of Vinca rosea and Raphanus sativus leaves showing typical leaf curling were collected from gardens and fields of Bhatinda,Punjab (India).An expected product of ～550 bp in size was amplified from total DNA extracts of symptomatic leaf samples with universal primers on the coat protein region of begomoviral DNA-A component.Moreover,DNA β were also detected in both V.rosea and R.sativus using β satellite universal primers.This is the first report of a β satellite associated with V.rosea in India.The presence of begomoviruses was also confirmed by Southern blot analysis using cloned DNA-A probe of Papaya leaf curl virus.Sequence analysis of viruses infecting V.rosea (Vinca yellow vein virus) and R.sativus (Raphanus sativus leaf curl Bhatinda virus) showed 74％ and 84％ nucleotide sequence identity with Papaya leaf curl virus,respectively.     

Atomic-force microscopy of erythrocytes and metabolic disorders in experimental diabetes mellitus and during the correction of diabetes with lipoic acid

Lipid peroxidation in blood plasma and red blood cells was shown to have minor effects on the state of the erythrocyte membranes in rats with alloxan diabetes. Administration of α-lipoic acid to rats with alloxan diabetes affected the metabolism of the animals and induced significant changes in erythrocyte morphology, as demonstrated by atomic-force microscopy.     

Antioxidative effects of Cinnamomi cassiae and Rhodiola rosea extracts in liver of diabetic mice

Both Cinnamomi cassiae and Rhodiola rosea extracts are used as anti-diabetic folk medicines. Recently, increased oxidative stress was shown to play an important role in the etiology and pathogenesis of diabetes mellitus and its complications. This study was designed to examine the effects of Cinnamomi cassiae and Rhodiola rosea extracts on blood glucose, lipid peroxidation, the level of reduced glutathione and its related enzymes (glutathione reductase, glutathione S-transferase), and the activity of the antioxidant enzymes (catalase, superoxide dismutase and glutathione peroxidase) in the liver of db/db mice. Diabetic C57BL/Ks db/db mice were used as experimental models. Mice were divided into control (n=10), Cinnamomi cassiae (200 mg/kg/day, n=10), and Rhodiola rosea (200 mg/kg/day, n=10) treated groups for 12 weeks of treatment. These type II diabetic mice were used to investigate the effects of Cinnamomi cassiae and Rhodiola rosea on blood glucose, reduced glutathione, glutathione reductase, glutathione S-transferase, glutathione peroxidase, lipid peroxidation, catalase and superoxide dismutase. Cinnamomi cassiae and Rhodiola rosea extracts significantly decreased on blood glucose, increased levels of reduced glutathione and the activities of glutathione reductase, glutathione S-transferase, glutathione peroxidase, catalase and superoxide dismutase in the liver. Extract treatment also significantly decreased lipid peroxidation. Cinnamomi cassiae and Rhodiola rosea extracts may be effective for correcting hyperglycemia and preventing diabetic complications.     

Dose dependent hypoglycemic effect of aqueous extract of Enicostemma littorale blume in alloxan induced diabetic rats.

Previous studies in our lab had confirmed the blood glucose lowering effect of E. littorale Blume in alloxan induced diabetic rats with no change in normoglycemic control rats. Present paper deals with dose dependent (0.5, 1.0, 1.5, 2.5, 3.5 g dry plant equivalent extract/100 g body wt., p.o.) blood glucose lowering effect of aqueous extract of E. littorale Blume in alloxan induced diabetic rats. The effective dose was found to be 1.5 g dry plant equivalent extract/100 g body wt.. The above dose caused significant decrease in glycosylated haemoglobin, liver glucose-6-phosphatase activity and significant increase in serum insulin levels of the diabetic rats. No significant changes were observed in the toxicity parameters of extract treated diabetic rats as compared to diabetic control rats. The above results suggest that E. littorale is a potent antidiabetic agent without any toxic effect at this particular dose (1.5 g dry plant equivalent extract/100 g body wt.).     

Effects of alloxan on the islets of Langerhans inhibition of leucine metabolism and insulin secretion

The action of alloxan on the metabolism of the islets of Langerhans was studied in vitro. Isolated mouse islets were exposed to the drug at 4°C to prevent its decomposition. Islet uptake of leucine was subsequently estimated at 37°C, and was found not to be affected by the drug. However, islet leucine oxidation was strongly inhibited by the preceding alloxan exposure. The islets were protected against this inhibition by an incubation at a high glucose concentration prior to alloxan exposure. In contrast, a high concentration of leucine failed to provide full protection of either islet leucine oxidation or islet glucose oxidation. Furthermore, it was shown that alloxan impeded islet insulin response to both leucine and glucose. In addition, the potentiation of insulin release by theophylline was abolished after alloxan treatment of the islets. The results reinforce the hypothesis that the B-cytotoxicity of alloxan reflects an interaction with intracellular sites involved in the oxidative metabolism of the B-cell, and that these sites may be protected against the action of the drug by some metabolite of glucose.     

Early hyperglycemia following alloxan administration in vivo is not associated with altered hepatic mitochondrial function: acceptable model for type 1 diabetes?

Alloxan and oxidative stress, which have been detected in livers of laboratory animals shortly after in vivo alloxan administration, cause in vitro mitochondrial dysfunction, thus questioning alloxan diabetes as an acceptable model for type 1 diabetes, a model that cannot legitimately be used to investigate mitochondrial metabolism in a diabetic state. In the current study, the blood glucose concentration increased in the drug-treated group of Sprague-Dawley rats (compared with the placebo group) 45 or 60?min after alloxan treatment, whereas at 30?min the blood glucose concentration was unchanged. State 4, state 3, respiratory control, efficiency of oxidative phosphorylation, and mitochondrial ATP synthase activity, assayed using glutamate plus malate, pyruvate plus malate, or succinate as a substrate, were not negatively altered during the entire study. These results indicated that early increases of blood glucose concentration, after in vivo alloxan administration, did not lead to liver mitochondrial dysfunction, suggesting that alloxan diabetes can be used for the study of liver mitochondrial respiration in a diabetic state.     

Effects of serpasil on lipids,lipoprotein lipase and lipogenic enzymes in alloxan diabetic rats

Diabetes intensifies the development of atherosclerosis. Treatment with antihypertensive drug, serpasil, arrested the progression of atherosclerosis in alloxan diabetic rats by significantly decreasing the concentration of cholesterol, phospholipids and triglycerides of serum, liver, kidney and aorta. Serpasil also decreased fasting blood sugar and urine sugar levels in these rats. Serpasil administration remarkably altered the deranged lipid metabolism in alloxan diabetic rats by nearly restoring the lipolytic and lipogenic enzyme activity to that of the normal     

Role of thyroid hormone in intermediary metabolism of propranolol or alloxan-treated Calotes versicolor.

Administration of L-thyroxine (T4) to thyroidectomized Calotes versicolor significantly increased the activity of glucose-6-phosphatase (G-6-Pase) (liver and kidney), the concentrations of blood glucose and total protein (liver and kidney), and decreased hepatic cholesterol when compared to thyroidectomized lizards. Propranolol injections in thyroidectomized lizards increased the cholesterol concentration and did not change the other parameters. The activity of G-6-Pase and blood glucose content was stimulated, whereas the total protein and cholesterol contents were decreased after alloxan treatment. Administration of T4 to thyroidectomized animals pretreated with propranolol or alloxan significantly elevated the activity of G-6-Pase, the concentrations of blood glucose, and total protein, and reduced hepatic cholesterol level when compared to drug-treated lizards. From the results, it is evident that thyroid hormone has an independent stimulatory influence on intermediary metabolism in C. versicolor irrespective of the involvement of adrenaline or insulin.     

Serotonin involvement in Rhodiola rosea attenuation of nicotine withdrawal signs in rats

Rhodiola rosea has been used for centuries in the traditional medicine to stimulate nervous system, to enhance physical and mental performance and to treat fatigue. It is known that administration of Rhodiola rosea extract elicits antidepressant activity, but the mechanism of action still remains unclear. Evidence from animal models and human studies show that nicotine reduces symptoms of depression and that nicotine cessation induces depressive-like symptoms. We investigated the effects of Rhodiola rosea on nicotine withdrawal signs. Nicotine dependence was induced by subcutaneous nicotine injection (2mg/kg, four times daily) for 14 days. Another group of animals treated with nicotine (for 14 days) and successively with Rhodiola rosea extract was co-administered with selective 5-HT receptorial antagonist WAY 100635 (1mg/kg). After nicotine withdrawal animals were evaluated for behavioural parameters (locomotor activity, abstinence signs, marble burying test), diencephalic serotonin metabolism and serotonin receptor-1A expression. Results show a significant increase of 5-HT content in N treated with R. rosea, with a significant increase of serotonin receptor 1A, suggesting an involvement of serotonin in beneficial effects of R. rosea on suffering produced by nicotine withdrawal.     

The effect of low concentrations of adaptogen solutions on the functional activity of murine bone marrow cells in vitro]

Influence of water solutions of chemically pure adaptogens--a synthetic analog of Rhodiola rosea extract phenol combination (SAR) and Dibazol on the functional activity of mice hemopoietic cells in vitro was studied. A clear periodical character of drugs effects manifestation with a tendency to the stimulating activity domination was revealed. A reliable stimulation of clonogenic activity was in correlation with 4 x 10(-11) and 4 x 10(-15) adaptogens molecules in SAR and Dibazol solutions per 1 blood marrow cell. This phenomenon is suggested to be connected with the solvent (water) molecules changes and the formation of structures, keeping the information of adaptogenes with possible translation of the latter during the process of consistent dissolution of the solvent.     

Hypoglycemic and antihyperglycemic activity of Syzygium alternifolium (Wt.) Walp. seed extracts in normal and diabetic rats

Aqueous, ethanolic and hexane fractions of Syzygium alternifolium seeds were prepared and given different doses of these extracts individually to different batches of rats (both normal and alloxan diabetic rats) after an overnight fast. The blood glucose levels were measured at 0, 1, 3, 5 and 7 hours after the treatment. The aqueous extract of Syzygium alternifolium at a dosage of 0.75 g/kg b.w. is showing maximum blood glucose lowering effect in both normal and alloxan diabetic rats. The ethanol and hexane fractions are also showing hypoglycemic and antihyperglycemic activity, but the effect is significantly less than that of aqueous extract. The antihyperglycemic activity of Syzygium alternifolium seed was compared with the treatment of Glibenclamide.     

Circadian Variation in Alloxan Sensitivity of Mice as Indicated by Mortality and Blood Glucose Alteration

The objective of this study was to determine in mice if a time-dependent pancreatic β-cell susceptibility to alloxan could be correlated to daily changes in blood glucose levels and to monitor the pattern of blood glucose at various times of day as mice became diabetic. Food was removed from mice standardized to a 12-h light:dark cycle (lights on at 0600 h CST, during the month of June) at 12 h before subcutaneous injection with 0.27 mg/g of alloxan. Six groups of 30 fasted mice were injected at 4-h intervals. Blood glucose levels were measured from each group immediately prior to injection, and at 2, 4, 8, 12, 24, 48, and 216 h after treatment. Animals receiving alloxan during the early- to middark period had an increase in blood glucose after 2 h, followed by a decline to hypoglycemic levels between 4 and 8 h, and recovery to hyperglycemic levels 48 h after alloxan exposure. Three and 30% of these animals were dead at 8 and 48 h, respectively. Mice treated during the midlight span had decreased blood glucose levels 2 h after alloxan treatment followed by an increase to diabetic hyperglycemia within 48 h. Twenty-three and 70% of the animals treated at 1430 h were dead at 8 and 48 h, respectively. At 216 h, total mortality was 45.6% and 81 of the 98 surviving mice were hyperglycemic. These data suggest a greater sensitivity to alloxan during the midlight resting period of the mice. This may be the result of increased sensitivity to the insulin released from the β cells when alloxan was given during the light span.     

Contrasting modes of action of D-glucose and 3-O-methyl-D-glucose as protectors of the rat pancreatic B-cell against alloxan

Both D-glucose and its nonmetabolized analog 3-O-methyl-D-glucose are known to protect the pancreatic B-cell against the toxic action of alloxan, as if the protective action of hexoses were to involve a membrane-associated glucoreceptor site. In the present study, the protective actions of the two hexoses were found to differ from one another in several respects. Using the process of glucose-stimulated insulin release by rat pancreatic islets as an index of alloxan cytotoxicity, we observed that the protective action of D-glucose was suppressed by D-mannoheptulose and menadione, impaired by NH4Cl, and little affected by aminooxyacetate. These findings and the fact that D-glucose failed to decrease [2-14C]alloxan uptake by the islets suggest that the protective action of D-glucose depends on an increase in the generation rate of reducing equivalents (NADH and NADPH). The latter view is supported by the observation that the protective action of a noncarbohydrate nutrient, 2-ketoisocaproate, was also abolished by menadione. Incidentally, the protective action of 2-ketoisocaproate was apparently a mitochondrial phenomenon, it not being suppressed by aminooxyacetate. In contrast to that of glucose, the protective action of 3-O-methyl-D-glucose was unaffected by D-mannoheptulose, failed to be totally suppressed by menadione, and coincided with a decreased uptake of [2-14C]-alloxan by the islets. It is concluded that the protective action of D-glucose in linked to the metabolism of the sugar in islet cells, whereas that of 3-O-methyl-D-glucose results from inhibition of alloxan uptake. This conclusion reinforces our opinion that the presence in the B-cell of an alleged stereospecific membrane glucoreceptor represents a mythical concept.     

Alloxan inhibition of a Ca2+- and calmodulin-dependent protein kinase activity in pancreatic islets

Alloxan was found to inhibit a Ca2+- and calmodulin-dependent protein kinase recently identified in pancreatic islets. This effect of alloxan may be specifically related to the inhibitory action of alloxan on insulin secretion from islets since: 1) in islet-cell subcellular fractions, alloxan at micromolar concentrations irreversibly inhibits the Ca2+- and calmodulin-dependent protein kinase activity; 2) pretreatment of intact islets with alloxan at concentrations that inhibit insulin secretion similarly inhibits the protein kinase activity; and 3) alloxan inhibition of both insulin secretion and protein kinase activity in intact islets can be prevented by D-glucose. This inhibition by alloxan appears to be a direct effect on the enzyme since alloxan treatment of either the islet homogenate or the microsomal fraction enriched in protein kinase activity inhibited the kinase activity with similar concentration dependence. These results suggest that alloxan-induced inhibition of a Ca2+- and calmodulin-dependent protein kinase may represent a critical inhibitory site which mediates alloxan-induced inhibition of insulin secretion.