The protective effect of ursodeoxycholic acid in alloxan-induced diabetes

The purpose of this work was to study the effect of ursodeoxycholic acid (UDCA) on the morphological and functional alterations in pancreatic islet beta-cells in rats with diabetes induced by alloxan (150 mg kg(-1), i.p.). UDCA (40 mg kg(-1), i.g.) was administered daily from the fifth to the 35th day after the alloxan treatment. The treatment of diabetic rats with UDCA improved the pancreatic morphology disturbed by the alloxan treatment: UDCA increased the number of pancreatic islets and beta-cells, the beta-/alpha-cell ratio and decreased the number of alpha-cells. As the morphometric data suggest, the treatment of diabetic animals with UDCA significantly increased the area of beta-cell cytoplasmatic granules stained by paraldehyde-fuchsin. The concentration of blood glucose in diabetic rats was gradually decreased after the UDCA treatment, and at the end of the experiment reached the control value. The treatment with UDCA raised the serum insulin level in diabetic rats about 2.5-fold, but this concentration was significantly lower as compared to the control group. The content of lipid peroxidation end-products, hydroxyalkenals and malondialdehyde, was significantly elevated in the alloxan-treated rats, whereas the treatment with UDCA normalized these parameters. The present data indicate that UDCA acts as an effective antidiabetic agent in alloxan-induced diabetes and its beneficial effects in diabetic rats can be related to the antioxidant properties of UDCA.     

Alpha-glucosidase inhibition from a Chinese medical herb (Ramulus mori) in normal and diabetic rats and mice

Alpha-glucosidase inhibitors are oral antidiabetic drugs. A traditional Chinese medical herb, Sangzhi (Ramulus mori), appears to have properties similar to those of alpha-glucosidase inhibitors. The effects of an aqueous extract of Shangzhi (SZ) were studied in normal and alloxan diabetic rats and mice, and these results compared with those for acarbose, an alpha-glucosidase inhibitor. In our grade-dose studies, SZ was found to lower and prolong the zenith of blood glucose concentration (ZBG) after sucrose or starch loading and stabilize blood glucose levels in fasting normal and alloxan diabetic mice. After 2 weeks of SZ administration with high-calorie chow or a normal diet, the fasting and non-fasting blood glucose concentrations in alloxan diabetic mice and rats were decreased. In alloxan rats, the blood fructosamine concentration was lowered. Results for acarbose and SZ were similar. These indicate that SZ has alpha-glucosidase inhibitory effects.     

A comparison of sciatic nerve neuropathy in diabetic and aged rats

We compared the development of sciatic nerve neuropathy in young diabetic rats with that in non-diabetic aged rats. Diabetes was induced in six-month old rats by injection with alloxan and was moderately controlled by single daily injections of insulin. Blood insulin levels in diabetic rats were significantly reduced compared to the aged animals, and glucose was significantly higher in diabetic rats. Sciatic nerve conduction velocities were measured monthly. Both motor and sensory conduction velocities decreased in the diabetic rats to a level that was similar to those in 36-month old rats. The decreases in conduction velocities in the diabetic rats were most dramatic during months 6 through 12 of diabetes. After 6 and 12 months of diabetes, sciatic nerves were examined by electron microscopy and compared to nerves from 24- and 36-month old rats respectively. Ultrastructural changes in the sciatic nerves of diabetic rats at 6 months included disruptions of myelin and dense axoplasm. In comparison, the 24-month old rats only had distorted contours of the nerve fibres. After 12 months of diabetes, the axoplasm had large spaces and the myelin was thickened and deformed. The axoplasm of 36-month old rats was normal in appearance; however the myelin sheath was thickened and split into layers. The Schwann cells were vacuolated and irregular in shape. These observations indicate that diabetes results in the early onset of age-like changes in the sciatic nerve. It suggests that the control of hyperglycemia in humans may preserve sciatic nerve structure and function.     

Hepatic and pancreatic effects of polyenoylphosphatidylcholine in rats with alloxan-induced diabetes

Polyenoylphosphatidylcholine (PPC: 100 or 300 mg kg^?1 b.w., by gastric intubation for 30 days) produced a clearcut protection of the liver of rats treated with alloxan (150 mg kg^?1 b.w., i.p.). The liver of rats treated with alloxan was characterized by hydropic dystrophy and lymphocytic infiltrations. Treatment with alloxan increased serum γ-GT and ALAT activities. The liver structure of rats treated with PPC did not differ from the liver of control animals. PPC normalized the biochemical abnormalities caused by the diabetes. The number of pancreatic islets and β/α; cell ratio decreased in the diabetic rats. A number of β-cells in this group did not contain granules. PPC prevented the decrease in the number of islets and the β/α; cell ratio in the pancreas of the diabetic rats. The intensity of staining of β-cell granules in the pancreas of PPC-treated rats had a position intermediate between the control and diabetic groups. Alloxan increased the blood glucose content where treatment with PPC decreased this. The results suggest that PPC acts as a cytoprotector in the liver and pancreas of rats with experimental diabetes induced by alloxan.     

Effect of vanadate administration on polyol pathway in diabetic rat kidney.

Effect of oral administration of sodium orthovanadate for three weeks on polyol pathway in renal cortex and medulla was studied in control and alloxan diabetic rats. An enhancement in aldose reductase in cortex and medulla and sorbitol dehydrogenase in cortex was observed in alloxan diabetic rats. Despite depressed insulin secretion, vanadate treatment to diabetic rats counteracted hyperglycemia, normalized elevated enzyme activities and glucose level, prevented medullary sorbitol accumulation and markedly checked increase in kidney weight. These results show that vanadate causes marked improvement in renal hypertrophy and has an antidiabetogenic effect on polyol pathway in diabetic kidney.     

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     

Diabetes and host resistance. I. Effect of alloxan diabetes upon the phagocytic and bactericidal efficiency of rat leukocytes for Pneumococcus

Briscoe, H. Frances (University Medical Center, Jackson, Miss.), and Fred Allison, Jr. Diabetes and host resistance. I. Effect of alloxan diabetes upon the phagocytic and bactericidal efficiency of rat leukocytes for pneumococcus. J. Bacteriol. 90:1537-1541. 1965.-Chronic diabetes mellitus was induced in rats with alloxan monohydrate. Glycosuria persisted for the 6 weeks of study, but ketonuria was never encountered. The cellular composition of peritoneal exudate recovered from diabetic rats after starch aleuronat administration was the same as that obtained from normal rats. The quantity of exudate recovered from the diabetic rats was thought to be less than that obtained from normal rats subjected to the same irritant. Phagocytosis was found to be essentially the same for both diabetic and normal cells when suspended in normal saline. The killing efficiency of harvested peritoneal phagocytes suspended in saline from both diabetic and normal rats for type 1 pneumococcus was compared and no difference between the groups was found.     

Studies on gluconeogenesis and ketogenesis in isolated hepatocytes from alloxan diabetic rats.

Gluconeogenesis and ketogenesis were studied in isolated hepatocytes obtained from normal and alloxan diabetic rats. Insulin treatment maintained near-normal blood glucose levels and caused an increase in glycogen deposition. The third day after insulin withdrawal the rats displayed a diabetic syndrome marked by progressive hyperglycemia and glycogen depletion. Net glucose production in liver cells isolated from alloxan diabetic rats progressively increased with time up to 72 hr after the last in vivo insulin injection. Maximal glucose production was observed at 72 hr with 10 mM alanine, lactate, pyruvate, or fructose. Glucose production decreased at 96 hr. The same pattern was observed with the incorporation of labeled bicarbonate into glucose. Ketogenesis in liver cells and hepatic lipid content also peaked at 72 hr.     

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.).     

Effect of alloxan diabetes on (Na+ + K+)-activated ATPase in brush border membrane of the mucosal cell of rat small intestine]

In order to elucidate a possible relationship between (Na+ + K+)-activated ATPase and intestinal absorption of actively transported monosaccharides enzyme activity was measured in mucosal cells from alloxan diabetic rats. The general effect of increasing capacity of active, Na+-dependent transport processes in diabetes mellitus is associated with a significantly enhanced (Na+ +K+)-activated ATPase activity in mucosal homogenate from diabetic animals. To study the localization of these effects within the cell we isolated purified brush borders and their substructures. To enable a comparison to be made between preparation procedures of diabetic and control animals the fractions were controlled by electronmicroscopy and by measuring the sucrase activity. In the purified brush border fraction of alloxan treated rats there was no significant increase in (Na+ + K+)-activated ATPase activity. Based on these results we conclude that the (Na+ + K+)-activated ATPase in the basolateral membranes was increased in alloxan diabetes, and it seems very likely that this enzyme is involved in the regulation of Na+-dependent transport processes.     

Regeneration of beta cells in islets of Langerhans of pancreas of alloxan diabetic rats by acetone extract of Momordica charantia (Linn.) (bitter gourd) fruits

Acetone extract of whole fruit powder of M. charantia (bitter gourd) in doses 25, 50 and 75 mg/100 g body weight lowered the blood glucose from 13.30 to 50% after 8 to 30 days treatment in alloxan diabetic albino rats, confirming antihyperglycemic effect of this plant in diabetic animals and humans. Histological observations with acetone extract showed different phases of recovery of beta cells of the islets of Langerhans of pancreas, which in the untreated diabetic rats were less in number and showed varied degree of atrophy. The most important finding of the present study was observation of the presence of small scattered islets among the acinar tissue in some experimental animals, which may reflect neoformation of islets from pre-existing islet cells. The liver of alloxan diabetic rats showed hydropic degeneration, fatty change and necrosis at some places but liver of extract treated animals was normal. Glycogen localization in liver of diabetic rats was faint but after 30 days treatment with different doses of extract, normal to heavy glycogen localization was observed.     

Alloxan-induced hyperglycemia causes rapid-onset and progressive dental caries and periodontitis in F344 rats

We have previously shown that diabetes increases dental caries, and periodontitis might be a secondary change resulting from dental caries in spontaneous diabetic rodent models. However, the lesions in these models were slow to manifest, and the intensity and frequency were mild and varied among individuals. The goal of this study was to confirm the reproducibility of caries development in chemically induced diabetic rats and investigate whether alloxan, which induces immediate and severe hyperglycemia in experimental animals, increases the lesions. Female F344 rats were examined 13 and 26 weeks after dosing of alloxan. Alloxan injection induced severe hyperglycemia in two-thirds of the rats. Progressive molar caries and periodontitis were already induced in all diabetic rats 13 weeks after dosing of alloxan, although the lesions were not observed in nondiabetic rats. Histopathologically, dental caries initially developed in the crown, then spread into the dental root, entered the periodontal connective tissue via the apical foramen, and progressed to periodontitis. In conclusion, alloxan-induced severe hyperglycemia is capable of causing rapid-onset and progressive dental caries and periodontitis in rats.     

Effect of betacarotene on protein glycosylation in alloxan induced diabetic rats

Free radicals are increasingly formed in diabetes mellitus by the auto oxidation of glucose and glycosylated proteins. Oxidative stress and proteinglycosylation are closely related processes and have been shown to contribute to the development of complications in diabetes mellitus. The extent of protein glycosylation was assessed in alloxan induced diabetic rats after being treated with 50 mg of betacarotene for 40 days. The level of fructosamine and glycosylated haemoglobin was comparison with non treated diabetic rats. The results indicate the beneficial role of betacarotene in reducing diabetic complications like glycosylation in experimental diabetic rats.     

Effects of diabetes and glycogen on the distribution between soluble and particulate fractions of activities of enzymes involved in hepatic glycogen metabolism.

The large decreases in hepatic glycogen associated with alloxan diabetes in fed rats were accompanied by apparent decreases in total activities of glycogen synthase, phosphorylase, protein kinase and synthase phosphatase determined on 8000 × g supernatants of liver homogenates. Inclusion of 4% glycogen in the extraction buffer normalized total soluble activities of synthase in the diabetic. Whereas inclusion of 4% glycogen in the extraction buffer doubled total soluble phosphorylase, total activity remained lower in the diabetic than in the normal. Extraction and assay of soluble protein kinase were unaffected by added glycogen. When activities were determined on whole homogenates, total glycogen synthase activities were the same in normal and diabetic liver. Although the decreases in total activities of phosphorylase, kinase and phosphatase were less when determined on whole homogenates of livers from diabetic rats, the diabetes-related decreases in total activities remained significant. Therefore, it appears that while alloxan diabetes results in absolute decreases in total hepatic activities of phosphorylase, kinase and phosphatase, it may also result in redistribution of hepatic synthase and phosphorylase between soluble and particulate fractions, a phenomenon possibly related to tissue glycogen concentrations. Such a redistribution might be involved in the lack of control of hepatic glycogenesis observed in alloxan diabetic rats.     

Antioxidant effect of Boerhavia diffusa L. in tissues of alloxan induced diabetic rats

Administration of B. diffusa leaf extract (BLEt; 200 mg/kg) for 4 weeks resulted in a significant reduction in thiobarbutric acid reactive substances and hydroperoxides, with a significant increase in reduced glutathione, superoxide dismutase, catalase, glutathione peroxidase and glutathione--S-transferase in liver and kidney of alloxan induced diabetic rats. The results suggest that BLEt has remarkable antidiabetic activity and can improve antioxidant status in alloxan induced diabetic rats.     

消炎痛对四氧嘧啶引起的大鼠糖尿病的保护作用

本工作观察了预先给予消炎痛对四氧嘧啶引起的糖尿病大鼠血糖、血清胰岛素和胰高血糖素浓度的影响。结果表明:预先皮下注射消炎痛能使糖尿病大鼠血糖浓度明显降低,并且具有明显的量效关系。在消炎痛剂量5,10,15mg/kg时,注射四氧嘧啶48h后血糖浓度由对照组的591.5±38.2mg％分别降低到559.1±53.2,463.2±16.6和266.6±29.9mg％。在注射消炎痛10mg/kg的实验组,血清胰岛素浓度由对照组的10.5±2.7μU/ml增加到31.9±7.0μU/ml,胰高血糖素由对照组的550.0±27.0pg/ml降低到303.1±22.9pg/ml。组织学观察结果表明,消炎痛对四氧嘧啶引起的大鼠胰岛β细胞的损伤具有显著的保护作用。     

Regulation of glycogen metabolism in primary cultures of rat hepatocytes. Restoration of acute effects of insulin and glucose in cells from diabetic rats

Defects in the deposition of glycogen and the regulation of glycogen synthesis in the livers of severely insulin-deficient rats can be reversed, in vivo, within hours of insulin administration. Using primary cultures of hepatocytes isolated from normal and diabetic rats in a serum-free chemically defined medium, the present study addresses the chronic action of insulin to facilitate the direct effects of insulin and glucose on the short term regulation of the enzymes controlling glycogen metabolism. Primary cultures were maintained in the presence of insulin, triiodothyronine, and cortisol for 1-3 days. On day 1 in alloxan diabetic cultures, 10(-7) M insulin did not acutely activate glycogen synthase over a period of 15 min or 1 h, whereas insulin acutely activated synthase in cultures of normal hepatocytes. By day 3 in hepatocytes isolated from alloxan diabetic rats, insulin effected an approximate 30% increase in per cent synthase I within 15 min as was also the case for normal cells. The acute effect of insulin on synthase activation was independent of changes in phosphorylase alpha. Whereas glycogen synthase phosphatase activity could not be shown to be acutely affected by insulin, the total activity in diabetic cells was restored to normal control values over the 3-day culture period. The acute effect of 30 mM glucose to activate glycogen synthase in cultured hepatocytes from normal rats after 1 day of culture was missing in hepatocytes isolated from either alloxan or spontaneously diabetic (BB/W) rats. After 3 days in culture, glucose produced a 50% increase in glycogen synthase activity during a 10-min period under the same conditions. These studies clearly demonstrate that insulin acts in a chronic manner in concert with thyroid hormones and steroids to facilitate acute regulation of hepatic glycogen synthesis by both insulin and glucose.     

Antidiabetic activity of a polyherbal formulation (DRF/AY/5001)

The herbal formulation, DRF/AY/5001, elicits hypoglycemic/antidiabetic effects in both normal and experimentally induced hyperglycemic (epinephrine and alloxan) rats. Further, herbal formulation treatment can significantly alter the pattern of glucose tolerance in normal and diabetic rats. It is possible that the herbal formulation may act through both, pancreatic and extra-pancreatic mechanism(s). The DRF/AY/5001 also elicited a significant antioxidant effect in alloxan diabetic rats as reflected by its ability to inhibit lipid peroxidation and to elevate the enzymatic antioxidants in pancreatic tissue. The histopathological studies during the long-term treatment have shown to ameliorate the alloxan induced histological damage of islets of Langerhans. The inhibitory effects on biochemical and histological parameters induced by herbal formulation at a dose of 600 mg/kg were almost comparable to that of standard drug, glibenclamide (4 mg/kg). The present study demonstrates that herbal formulation exhibits promisisng antidiabetic activity and helps to maintain good glycemic and metabolic control.     

The adrenocortical function of alloxan-induced diabetic rats

The purpose of this study is to investigate the adrenocortical function of alloxan-induced diabetic rats. Male rats of Wistar strain, weighing 200-250 gm were used. The results indicated that the adrenocortical response to stress and exogenous corticotropin (ACTH1-24) is decreased during the early diabetic stages (up to 6 days). Evidence from in vivo and in vitro studies shows that the depression is caused by the toxicity of alloxan on the adrenal cortex cells and not by the sudden rise of blood glucose levels. Streptozotocin (another diabetogen) has the same effect as alloxan on adrenal cortex cells.     

Regulation of enzymes of glucose metabolism and lipogenesis in diabetic rat liver by thyroid hormones

Experimental diabetes in rats is associated with a degree of hypothyroidism. Hepatic enzymes involved in carbohydrate and lipid metabolism were estimated in control (untreated), control +T3 treated, alloxan diabetic and alloxan diabetic + T3-treated rats. The key glycolytic enzymes, phosphofructokinase and pyruvate kinase, were decreased in activity in diabetes and unchanged by further treatment with T3. In contrast, certain enzymes involve in lipogenesis, ATP-citrate lyase 'malic' enzyme and 6-phosphogluconate dehydrogenase, which were decreased in activity in diabetes, were increased to, or above, control values when diabetic rats were treated with T3. It is suggested that T3 deficiency may play a role in the decrease in enzyme activities observed in experimental diabetes, in particular, some enzymes associated with lipogenesis and the provision of NADPH.