Enhanced activity of serum and urinary hyaluronidases in streptozotocin-induced diabetic Wistar and GK rats

Using streptozotocin-induced diabetic Wistar and GK rats as models of type 1 and type 2 diabetes, respectively, we investigated the changes in serum and urinary hyaluronidase activity with the pathological progress. The serum hyaluronidase levels of streptozotocin-induced rats started to increase on the third day after injection and thereafter maintained approximately threefold higher levels compared with control rats; those of GK rats were already higher ( approximately twofold) from the beginning of the experiment. The increases of serum hyaluronidase activity in both diabetic rats were similar to those of blood glucose level, indicating that diabetes mellitus was accompanied by enhanced activity of circulating hyaluronidase from the early phase of its development. In zymography, every serum from diabetic and control rats gave two hyaluronidase isomers, a major 73-kDa band (Hyal-1 type) and a minor 132-kDa band, suggesting that the increases in serum hyaluronidase activity were not due to the appearance of novel isomers. The hyaluronidase activity in 24-h urine of streptozotocin-induced rats was 3-, 7-, and 11-fold higher at the 8th, 15th, and 18th week than that of control rats, respectively, and the urinary hyaluronidase activity of GK rats was not significantly different from controls. There was a good correlation between the urinary hyaluronidase activity and the albumin excretion. Thus the increase in urinary hyaluronidase activity may reflect enhanced glomerular permeability in streptozotocin-induced diabetic rats and may be a useful marker for diabetic nephropathy. Relative resistance to SDS-denaturation in zymography of rat serum and urinary hyaluronidases compared with human serum hyaluronidase are also shown.     

The effect of diabetes mellitus on aortic prostanoid synthesis and serum cholesterol levels in the rat fed a high cholesterol diet

The effect of diabetes mellitus on serum cholesterol and aortic microsomal prostanoid synthesis was studied in cholesterol fed male Lewis rats. Normal, diabetic and diabetic rats treated with pancreatic islets were divided into three diet subgroups, control diet, control +2% cholesterol for 8 weeks and control +2% cholesterol diet for 16 weeks. Serum glucose levels were elevated three-fold in the diabetic group compared to normal. Treatment with islets restored serum glucose to normal levels in diabetic rats. The 2% cholesterol diet did not significantly alter serum glucose levels in any of the groups. Body weights in the diabetic group were significantly lower than normal or diabetic rats treated with islets. Feeding 2% cholesterol for 16 weeks significantly increased weight in normal and islet treated diabetic rats but not in the diabetic group. Aortic microsomal prostanoid synthesis was similar in all experimental groups with 6-keto-PGF1 alpha (PGI2 metabolite) being the major product synthesized in all groups. Aortic microsomal prostanoid levels were not altered by the 2% cholesterol diet. Serum cholesterol levels increased 14-fold in the diabetic group which returned to the normal level in the diabetic animals treated with islets. These data show that diabetes does not alter aortic microsomal prostanoid levels in the rat. However, diabetes significantly increased serum cholesterol levels which were reversed by islet transplantation.     

Effects of dietary oyster extract on lipid metabolism, blood pressure, and blood glucose in SD rats, hypertensive rats, and diabetic rats

Oyster extract was prepared by hydrolysis of oyster protein with proteases, Aloase (a protease from Bacillus subtilis), and Pancitase (a protease from Aspergillus oryzae). Rats were fed a diet containing 20% casein (the control diet) or 15% casein and 5% oyster extract (the oyster extract diet) as the protein source. The oyster extract diet exerted a significant reduction in serum cholesterol and liver triglyceride concentrations as compared with the control diet in Sprague-Dawley (SD) rats fed cholesterol-supplemented diets for 4 weeks. The activities of cytosolic fatty acid synthase and glucose-6-phosphate dehydrogenase were significantly lower in the oyster extract group than in the control group in the liver of SD rats. Hepatic cholesterol and triglyceride concentrations were significantly lower in spontaneously hypertensive (SH) rats and Otsuka Long-Evans Tokushima Fatty (OLETF) rats, type 2 diabetic rats, fed the oyster extract diet, for 4 weeks and 4 months respectively, than in those fed the control diet in the cholesterol-free diet. Blood pressure was significantly lower in the oyster extract group than in the control group at the 2nd and 4th weeks after the beginning of feeding experimental diets in SH rats. These results suggest that oyster extract prepared by hydrolysis of oyster induces triglyceride-lowering activity in the liver through a decrease in hepatic lipogenesis in SD rats, and that it exerts the antihypertensive effect in SH rats.     

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.).     

Gender differences in myosin heavy chain-beta and phosphorylated phospholamban in diabetic rat hearts

The objective of this study was to determine whether a gender difference exists in myosin heavy chain (MHC) isoform or sarcoplasmic reticulum protein levels in diabetic rat hearts. As is the case with normal rodent hearts, all four chambers of the control rat hearts expressed almost 100% MHC-alpha. In 6-wk diabetic rats, MHC-beta expression in ventricles of males was significantly greater (78 +/- 7%) than in females (50 +/- 5%). The cardiac sarco(endo)plasmic reticulum Ca2+-ATPase (SERCA2a) protein level was decreased and the phospholamban (PLB) protein level was increased in the left ventricle of diabetic rats, but there was no difference between male and female diabetic rats. The phosphorylated PLB level was decreased more in male than in female diabetic rats. Insulin treatment completely normalized blood glucose level, cardiac SERCA2a and PLB protein levels, and the decrease in MHC-beta levels in both male and female diabetic rats. Insulin treatment completely normalized serum insulin and almost completely normalized phosphorylation of PLB at serine 16 in male diabetic rats. Although insulin treatment completely normalized serum insulin levels in male diabetic rats, in females it only partially normalized serum insulin levels. Also, insulin treatment almost completely normalized phosphorylation of PLB at threonine 17 in female diabetic rats; however, the increase was significantly greater than that identified for insulin-treated male diabetic rats. We conclude that higher levels of MHC-beta and dephosphorylated PLB may contribute to more contractile dysfunction in male than in female diabetic rat hearts, and that phosphorylation of PLB at threonine 17 is more responsive to insulin in female diabetic rat hearts.     

Potential therapeutic effect of antioxidants in experimental diabetic retina: a comparison between chronic taurine and vitamin E plus selenium supplementations

Although good glycaemic control can delay the development and progression of diabetic retinopathy, new therapies are needed to obtain a better control of this diabetic complication. Oxidative stress seems to be a contributing factor in diabetic retinal alterations, therefore, it has been suggested that antioxidants may be beneficial in reducing diabetic retinal changes. However, many questions are still open. In fact, it remains to be ascertained which antioxidants are the most active when they are chronically administered in vivo and their effective dosages. Therefore, we compared the effect of chronic taurine supplementations versus a mixture of vitamin E + selenium on biochemical retinal changes induced by diabetes at different stages of the disease. Briefly, streptozotocin (STZ) diabetic rats were administered for 4 months following the dietary supplements: (a) 2% (w/w) taurine; (b) 5% (w/w) taurine; (c) 200 IU vitamin E + 8 mg selenium/kg diet (d) 500 IU vitamin E + 8 mg selenium/kg diet. In STZ diabetic rat in poor metabolic control (i.e. serum glucose >16.5 mmol/l), at 2, 4, 8, 16 weeks following the onset of diabetes, retinal conjugated dienes (CD) and lipid hydroperoxides (LP) were significantly and progressively increased, while sodium pump activity was gradually and significantly reduced. In taurine and vitamin E + selenium supplemented diabetic rats, glycaemia and body weight were not significantly different from those of non-supplemented diabetic animals. In diabetic rats, 2 and 5% taurine significantly decreased CD. This reduction is long lasting. Regarding CD, both vitamin E + selenium supplementations reduced CD only during the first 4 weeks of diabetes. Two percent taurine supplementation significantly lowered LP for the first 8 weeks of the disease while 5% taurine-induced-reduction lasted for the whole experimental time. A 200 IU vitamin E + 8 mg selenium supplementation did not significantly modify LP, while 500 IU vitamin E + 8 mg selenium significantly lowered them for the whole studied period. Finally, taurine preserved ATPase activity being more effective at 5% than 2%. Two hundred IU vitamin E + 8 mg selenium did not generally modify pump activity, while 500 IU vitamin E + 8 mg selenium partially prevented the decrease in pump activity. We conclude that taurine and vitamin E + selenium supplementations ameliorate biochemical retinal abnormalities caused by diabetes. These effects are dose- and time-dependent Moreover, the effect of taurine on CD is longer lasting than that of vitamin E + selenium. In addition, taurine seems to better preserve ATPase activity in comparison with vitamin E + selenium. Finally, in diabetic animals a negative correlation is found between CD and LP on one side and Na+K+ATPase activity on the other; thus, lipid peroxidation and pump activity seem to be associated. The same inverse correlations are present in vitamin E + selenium supplemented diabetic rats, but are lost in taurine supplemented animals. Therefore, taurine effects may not be simply mediated by its antioxidant activity. Thus, chronical (4 months) taurine and vitamin E + selenium supplementations reduce biochemical retinal alterations in diabetic rat in poor metabolic control.     

N-acetyl-beta-D-glucosaminidase activity in serum, kidney and liver of streptozotocin-induced diabetic rat

Serum N-acetyl-beta-D-glucosaminidase (NAG) activity in streptozotocin-induced diabetic rats was significantly increased. There was neither a difference in total NAG activity in kidney and liver, nor in optimal pH of NAG in serum, kidney and liver between diabetic and control rats. The ratio of the thermounstable fraction of NAG increased in diabetic kidney and liver, while there was no difference in thermostability of between diabetic and control rats. Isoelectricfocusing of diabetic serum NAG indicated an increase in the neutral form. That of kidney and liver NAG indicated an increase in the acid form. These results may suggest that NAG clearance from the serum is decreased diabetic state.     

Age-related changes in cholesterol metabolism in macrosomic offspring of rats with streptozotocin-induced diabetes.

The aim of this study was to determine the impact of diabetic macrosomia on cholesterol and lipoprotein metabolism. Age-related changes in the activities of serum LCAT, hepatic HMG-CoA reductase, cholesterol 7alpha-hydroxylase, and ACAT, the major enzymes involved in cholesterol metabolism, were determined in macrosomic offspring of streptozotocin-induced diabetic rats. Hepatic, serum, and lipoprotein cholesterol contents were also examined. Mild hyperglycemia in pregnant rats was induced by intraperitoneal injection of streptozotocin (40 mg/kg body weight) on day 5 of gestation. Control pregnant rats were injected with citrate buffer. At birth, macrosomic pups had higher serum, LDL-HDL(1), and HDL(2-3) cholesterol levels (P < 0.05) associated with increased LCAT activity (+57%) compared with control values. At 1 and 2 months of life, serum and lipoprotein cholesterol concentrations in macrosomic rats were similar to those of controls, whereas LCAT activity remained elevated about 1.5-fold. In addition, there was no change in hepatic cholesterol contents but hepatic HMG-CoA reductase, cholesterol 7alpha-hydroxylase, and ACAT activities were higher in both macrosomic males and females than in their respective controls (P < 0.01). By 3 months, macrosomic rats had developed hypercholesterolemia with a rise in all lipoproteins. Enzyme activities were still increased in these mature macrosomic rats, and hepatic cholesteryl esters were higher only in macrosomic females.These data demonstrate an overproduction, combined with overutilization, of cholesterol during the phase of rapid growth in macrosomic rats. However, cholesterol oversynthesis exceeded its removal and was a major contributor to hypercholesterolemia in adult macrosomic rats. In conclusion, macrosomia was associated with alterations in cholesterol metabolism through adulthood.     

Pentose phosphate pathway,glutathione-dependent enzymes and antioxidant defense during oxidative stress in diabetic rodent brain and peripheral organs: effects of stobadine and vitamin E

The aim of the present study was to investigate the effects of treatment with antioxidant stobadine (ST) on the activities of enzymes related with pentose phosphate pathway and glutathione-dependent metabolism and the other markers of oxidative stress in brain and peripheral organs of diabetic rats, and to compare the effects of ST treatment alone with the effects of treatments with another antioxidant vitamin E and ST plus vitamin E. Rats were made diabetic by the injection of streptozotocin (STZ; 55 mg/kg IP), and, 2 days later, some control and diabetic rats were left untreated or treated with ST (24.7 mg/kg/day, orally), vitamin E (400–500 U/kg/day, orally), or both substances together. In the brain, although 6-phosphogluconate dehydrogenase activity (6-PGD) did not change, glucose-6-phosphate dehydrogenase activity (G-6PD) was markedly increased in diabetic rats compared with controls; only combined treatment with ST and vitamin E produced a partial prevention on this alteration. The aorta G-6PD and 6-PGD of diabetic rats were 52% and 36% of control values, respectively. Neither single treatments with each antioxidant nor their combination altered the G-6PD and 6-PGD in aorta of diabetic rats. Glutathione peroxidase (GSHPx) activity was increased by STZ-diabetes in brain, heart, and kidney. In diabetic brain, vitamin E alone or combination with ST kept GSHPx at normal levels. Diabetes-induced stimulation in GSHPx did not decrease in response to the treatment with vitamin E in heart and kidney, but was greatly prevented by ST alone. The activity of glutathione reductase (GR) was decreased in brain and heart of diabetic rats. The treatment with each antioxidant or with a combination of both agents completely prevented this deficiency and resulted in further activation of GR in diabetic tissues. Glutathione S-transferase (GST) activity did not significantly change in diabetic brain and aorta. GST was stimulated by all treatment protocols in the brain of diabetic rats and was depressed in aorta of control rats. Catalase (CAT) was activated in diabetic heart but depressed in diabetic kidney. Diabetes-induced abnormalities in CAT activity did not respond to vitamin E alone in heart, was moderately ameliorated by the treatment with this vitamin in kidney, and was completely prevented by ST alone in both tissues. Superoxide dismutase (SOD) activity of brain and heart was unchanged by the diabetes but inhibited in diabetic kidney after the treatment ST alone or ST plus vitamin E. The lipid peroxidation (MDA) was increased in diabetic brain and heart. ST or vitamin E alone partly prevented diabetes-induced increase in MDA in brain and heart; however, antioxidant combination achieved a completely amelioration in MDA of these tissues of diabetic rats. Kidney MDA levels were similar in control and untreated diabetic animals. ST and vitamin E treatments, when applied separately or together, significantly reduced kidney MDA in both control and diabetic rats; and the combined effect of antioxidants was greater than that of each alone. These results are consistent with the degenerative role of hyperglycemia on cellular reducing equivalent homeostasis and antioxidant defense, and provide further evidence that pharmacological intervention of different antioxidants may have significant implications in the prevention of the prooxidant feature of diabetes and protects redox status of the cells.     

Intravascular and extracellular volumes in the diabetic rat

Simultaneously measured intravascular (IVV) and extracellular (ECV) volumes in diabetic rats have not been reported. We evaluated IVV and ECV in alloxan induced diabetic rats which were either untreated (DU) or received supplemental daily insulin (DI) for three months. Two separate groups of control rats were comparably weight matched to each experimental group. Radio-iodinated (125-I) human serum albumin (RISA) and 35-S sulfate were used to determine IVV and ECV respectively. In DU rats, values for IVV and ECV expressed as a percentage of body weight were 9.3±0.5% and 35±2% respectively; both are significantly larger than the volumes measured in control rats (IVV=6.6±0.2%, p^<0.001 and ECV=28±1%, p<0.01). DI rats had volumes (IVV=6.0±0.3% and ECV=24±3%) which were not significantly different than those of control rats (IVV=5.7±0.1% and ECV=22±1%). Thus, untreated diabetic rats had increased IVV and ECV while diabetic rats that received insulin were normovolemic despite the presence of hyperglycemia.     

Effect of glycine in streptozotocin-induced diabetic rats

Inadequate utilization of glucose in diabetes mellitus favors diverse metabolic alterations that play a relevant role in the physio-pathology of chronic complications of this disease. Streptozotocin-induced diabetic rats were treated daily with glycine (130 mM as optimal concentration) or taurine (40 mM) for six months. Groups of diabetic rats without treatment were used as controls. Glucose, total cholesterol, triacylglycerol, and glycated hemoglobin were determined periodically after inducing diabetes. Rats were killed after 6 months of treatment and histological analyses were performed. Diabetic groups that received glycine or taurine showed significant lower concentrations of glucose, total cholesterol, triacylglycerol, and glycated hemoglobin than diabetic control rats (P<0.05) after 6 months treatment. Histological analyses of diabetic rats showed pancreatic atrophy and necrosis, vacuolization, decrease of beta cells, and diffuse glomerulosclerosis. Diabetic rats treated with glycine or taurine showed less enlargement of the glomerular basal membrane than control diabetic rats. Our results suggest that glycine and taurine reduced the alterations induced by hyperglycemia in streptozotocin-induced diabetic rats probably due to inhibition of oxidative processes.     

Effects of dietary L-arginine supplementation on serum lipids and intestinal enzyme activities in diabetic rats

We investigated whether dietary supplementation with L-arginine, the endogenous precursor of nitric oxide, might affect serum lipid levels and activities of intestinal mucosa enzymes in animals, in which diabetes was induced by administration of streptozotocin. Control and diabetic rats were fed diets with or without 2% L-arginine supplementation for 4 weeks. Diabetic rats had significantly higher concentrations of serum triglycerides and LDL-cholesterol than control rats. These alterations were partially reduced by L-arginine supplementation. Experimental diabetes did not influence the lactase and leucine aminopeptidase activity in the intestine, but the activity of alkaline phosphatase was increased. Furthermore, activities of maltase and sucrase in the intestinal mucosa were elevated in streptozotocin-induced diabetic rats and were restored to control levels after dietary L-arginine supplementation. On the basis of the present experimental evidence, dietary L-arginine supplementation appears to affect the metabolism of lipoproteins and might alleviate some gastrointestinal dysfunctions, commonly seen in diabetes mellitus.     

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.     

Evidence for the presence of non-lipoprotein factors in diabetic serum capable of stimulating rat hepatic cholesterol-7 alpha-hydroxylase in vitro

Experimental diabetes in the rat has been shown to result in marked increases in bile acid pool and synthesis. In this study, mechanisms responsible for the increased bile acid synthesis was examined in rats made diabetic with streptozotocin. Our results indicate that a) in diabetic rats, hepatic cholesterol-7 alpha-hydroxylase activity is increased by 100%, b) this increased activity is not due to a higher stimulating activity of cell supernatant factors, but c) may be due to a non-lipoprotein factor(s) in diabetic serum capable of stimulating (by 100%) cholesterol-7 alpha-hydroxylase activity in control livers to the level noted in diabetic animals.     

Effects of light on the circadian rhythm of diabetic rats under restricted feeding

The aim of this study was to investigate whether the entrainment of light cue is affected or not in diabetic animals. We found that the individual light/dark (LD) reversal showed a tissue- and gene-specific effect on the circadian phases of peripheral clock genes, which was generally similar between the control and diabetic rats. In the liver and heart, the peak phases of examined clock genes (Bmal1, Rev-erbα, Per1, and Per2) were slightly shifted by 0～4 h in the liver and heart of control and diabetic rats. However, we found that the peak phases of these clock genes were greatly shifted by 8～12 h after the LD reversal for 7 days in the pineal gland of both control and diabetic rats. However, the activity rhythm was greatly different between two groups. After the individual LD reversal, the activity rhythm was completely shifted in the control rats but retained in the diabetic rats. These observations suggested that the behavioral rhythm of diabetic rats may be uncoupled from the master clock after the individual LD reversal. Moreover, we also found that the serum glucose levels of diabetic rats kept equally high throughout the whole day without any shift of peak phase after the individual reversal of LD cycle. While the serum glucose levels of control rats were tightly controlled during the normal and LD reversal conditions. Thus, the impaired insulin secretion induced uncontrollable serum glucose level may result in uncoupled activity rhythm in the diabetic rats after the individual LD reversal.     

Renal Expression of FGF23 in Progressive Renal Disease of Diabetes and the Effect of Ace Inhibitor

Fibroblast growth factor 23 (FGF23) is a phosphaturic hormone mainly produced by bone that acts in the kidney through FGF receptors and Klotho. Here we investigated whether the kidney was an additional source of FGF23 during renal disease using a model of type 2 diabetic nephropathy. Renal expression of FGF23 and Klotho was assessed in Zucker diabetic fatty (ZDF) and control lean rats at 2, 4, 6, 8 months of age. To evaluate whether the renoprotective effect of angiotensin converting enzyme (ACE) inhibitor in this model was associated with changes in FGF23 and Klotho, ZDF rats received ramipril from 4, when proteinuric, to 8 months of age. FGF23 mRNA was not detectable in the kidney of lean rats, nor of ZDF rats at 2 months of age. FGF23 became measurable in the kidney of diabetic rats at 4 months and significantly increased thereafter. FGF23 protein localized in proximal and distal tubules. Renal Klotho mRNA and protein decreased during time in ZDF rats. As renal disease progressed, serum phosphate levels increased in parallel with decline of fractional phosphorus excretion. Ramipril limited proteinuria and renal injury, attenuated renal FGF23 upregulation and ameliorated Klotho expression. Ramipril normalized serum phosphate levels and tended to increase fractional phosphorus excretion. These data indicate that during progressive renal disease the kidney is a site of FGF23 production which is limited by ACE inhibition. Interfering pharmacologically with the delicate balance of FGF23 and phosphorus in diabetes may have implications in clinics.     

Effect of diabetic duration on serum concentrations of endogenous inhibitor of nitric oxide synthase in patients and rats with diabetes

This study was designed to investigate the effect of diabetic duration on serum concentrations of endogenous inhibitor of nitric oxide synthase N(G), N(G)-asymmetric dimethylarginine (ADMA) in patients and rats with diabetes, and to determine whether elevated endogenous ADMA is implicated in endothelial dysfunction or macroangiopathy in diabetes. Experimental diabetic model was induced by a single intraperitoneal injection of streptozotocin to male Sprague-Dawley rats and fed for 2-, 4- and 8-week, respectively. Type 2 diabetic patients with different diabetic duration were recruited from Xiangya Hospital. Plasma glucose and serum ADMA levels were measured in both patients and rats. Moreover, endothelium-dependent relaxation of thoracic aortas and some parameters of metabolic control were examined in rats. Serum ADMA concentrations were significantly elevated in type 2 diabetic patients compared with healthy subjects (3.44 +/- 0.40 vs 1.08 +/- 0.14 micromol/L, n = 50 in diabetic patients and n = 40 in healthy subjects, P < 0.01). The serum levels of ADMA in patients with macroangiopathy were higher than the patients without macroangiopathy (P < 0.01). But no difference was observed in serum ADMA concentrations between groups of patients with different diabetic duration. Similarly, serum levels of ADMA in diabetic rats were also significantly elevated at 2-week duration compared with duration-matched control (3.71 +/- 0.20 vs 1.04 +/- 0.23 micromol/L, n = 5 approximately 6, P < 0.01). This elevation of ADMA was retained to 4- and 8-week (3.54 +/- 0.76 vs 0.95 +/- 0.06 micromol/L for 4-week, 3.21 +/- 0.50 vs 1.03 +/- 0. 09 micromol/L for 8-week, n = 5 approximately 6, all P < 0.01) and remained unchanged among three diabetic groups. The elevation of ADMA was accompanied by impairment of endothelium-dependent relaxation and poor metabolic control in diabetic rat. These results first reveal that the extent of elevation in serum ADMA in both rats and patients with diabetes is not proportion with the length of their diabetic duration but rather with the metabolic control of this disease. Elevated endogenous ADMA may be implicated in diabetes-induced endothelial dysfunction and macroangiopathy. This study is helpful to prevention and treatment of diabetic-induced endothelial dysfunction or macroangiopathy.     

Effects of diabetes and insulin on hepatic delta6 desaturase gene expression

It has been recognized that rat liver microsomal Delta6 desaturation activity is defective in experimental diabetes, a fact that may be reverted by means of insulin treatment. In the present study, we used streptozotocin-induced diabetic rats in order to determine the regulatory role of insulin on the expression of hepatic Delta6 desaturase gene. The abundance of hepatic Delta6 desaturase mRNA in the diabetic rats is sevenfold lower than in the control. Insulin administration to diabetic rats induces Delta6 desaturase mRNA eightfold within 24 h. The effect of insulin on the Delta6 desaturase mRNA was inhibited 70% with dibutyryl-cAMP and theophylline administration and 90% by cycloheximide administration. Therefore, our data demonstrate that the activity of hepatic Delta6 desaturase in response to insulin is, at least in part, regulated by pretranslational events that require the synthesis of an unknown protein(s).     

Recovery of exocrine pancreas six months following pancreatitis induction with L-arginine in streptozotocin-diabetic rats.

The aim of the present work was to investigate the laboratory and morphologic alterations in the pancreas 6 months after pancreatitis induction with L-arginine (Arg) in normal and streptozotocin (STZ)-diabetic rats. The amylase content of the pancreas was significantly decreased in the Arg-treated groups vs. the control group. No significant changes were observed in the DNA, soluble protein and lipase contents of the pancreas. In the STZ-treated groups, the serum glucose level was significantly elevated, whereas the serum immunoreactive insulin (IRI) level was significantly decreased vs. the control group. In these treated groups, the amylase content of the pancreas was also significantly decreased, but that of trypsinogen was significantly elevated vs. the control group. Histologic sections revealed periductal fibroses, adipose tissue and tubular complexes in the Arg-treated rats, but centroacinar hyperplasia was not observed in these groups. No alterations were observed on histological examination in the diabetic rats vs. normal rats 6 months following pancreatitis induction. In conclusion, a major restitution of the pancreatic enzyme content, but moderate histologic alterations were detected 6 months following pancreatitis induction with Arg. The diabetic state appeared to shift the normal pancreatic enzyme content (decreased amylase and increased trypsinogen) in this long-term study, but not to modify the recovery of the exocrine pancreas 6 months following Arg-induced pancreatitis.     

Development of rat embryos cultured in serum prepared from rats with streptozotocin-induced diabetes

The effects of 40, 50, and 60 mg/kg streptozotocin (SZ) on the body weights and the glucose concentration and the osmolarity of the serum of adult rats were determined. Serum prepared from these SZ-dosed rats was used in embryo culture experiments to investigate effects of diabetic serum on rat embryos during organogenesis. The diabetic serum resulting from each of the tested doses of SZ was teratogenic to 9.5-day rat explants (embryos and their membranes), causing a range of dysmorphic lesions including craniofacial defects, heart defects, and abnormalities of the branchial arches and the otic capsules. Explants cultured in serum prepared from rats dosed with 60 mg/kg SZ also showed abnormal morphology of both the visceral yolk sac and the embryonic blood cells in the yolk sac capillaries. The development of explants repeatedly transferred between control and diabetic serum indicated that the severity of the dysmorphic effect was dependent on the duration of exposure to diabetic serum. The alternation of sera did not in itself appear to be damaging to the embryos. Explants cultured in control serum, control serum with its glucose concentration increased to that of the diabetic serum, or diabetic serum all took up the same amount of glucose from their culture medium; 30% of the embryos from the diabetic serum were abnormal compared to only 4% from the control serum and the control serum plus glucose.