Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0011860 (type 2 diabetes)
57,723 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Hyperglycemia induced in animals by beta cell toxins or by pancreatectomy can be reversed by pancreatic islet transplantation. Abnormal carbohydrate metabolism in juvenile onset human diabetics has also been corrected, albeit temporarily because of graft rejection, by pancreatic transplantation. It does not necessarily follow that naturally occurring diabetes in animals or adult onset diabetes in man would respond to similar treatment. Islet transplantation was studied in mice with chemically induced or genetically determined diabetes. Streptozotocin-induced diabetic mice were permanently cured by syngeneic islets and, when immunosuppressed, were rendered normoglycemic for six weeks after receiving xenogeneic rat islets. In contrast, histocompatible islets from normoglycemic coisogenic donors were ineffective in hyperglycemic db/db recipients as were xenogeneic rat islets in immunosuppressed db/db hosts. However, when islets were isolated from db/db donors and transplated to genetically normal coisogenic mice, which had been rendered hyperglycemic with streptozotocin, they became normoglycemic. Apparently the metabolic defect in the db/db mice, which is similar in some ways to human maturity onset diabetes, does not reside in their islets as these cells can function normally if transplanted to genetically nondiabetic hosts. In two other types of genetic diabetes (ob/ob and NZO) islet transplantation was more effective. Pancreatic transplantation is unlikely to be the proper treatment for all types of diabetes even if technical and immunological problems are overcome.
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PMID:Islet transplantation in genetically determined diabetes. 14 16

This study was initiated to explore the possibility that an increase in the supply of gluconeogenic precursors contributes to the overproduction of glucose by the liver in NIDDM patients. To address this issue, a form of experimental NIDDM was produced in rats by injecting a low dose (38 mg/kg) of STZ and comparing lactate and alanine production and PDH activity in skeletal muscle and isolated adipocytes from normal and diabetic rats. Skeletal muscle lactate production was measured by using a hindlimb perfusion technique and was significantly greater (P < 0.01) in the diabetic rats compared with two groups of control rats: one perfused at normal glucose levels and the other perfused at glucose concentrations comparable with those observed in diabetic rats. Alanine production by hindlimb from diabetic rats was 46% greater than hindlimbs from control rats perfused at normal glucose levels (P < 0.01) but was not significantly greater than control rats perfused at diabetic glucose levels. The percentage of glucose converted to lactate by muscle from both control groups was 4-5%, significantly lower than the 18% conversion rate observed in diabetic animals (P < 0.001). An increase in the ratio of lactate produced/glucose transport by isolated adipocytes from diabetic rats also was observed when measured in both the basal state (0.65 +/- 0.12 vs. 0.15 +/- 0.03, P < 0.01) and in the presence of maximal amounts of insulin (0.15 +/- 0.02 vs. 0.04 +/- 0.01, P < 0.02).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Lactate production and pyruvate dehydrogenase activity in fat and skeletal muscle from diabetic rats. 144 95

To investigate the hepatic ketone body metabolism in NIDDM, we studied the ketone body production rates in hepatocytes from newly developed non-obese NIDDM model rats. NIDDM model rats were prepared by intraperitoneal injection of streptozotocin at 2 or 5 days of age (STZ2, STZ5 respectively). After 10-15 weeks, ketone body production rates in hepatocytes isolated from these rats were compared with those from control rats as well as ketotic rats made by intravenous injection of streptozotocin into adult rats. Basal ketone body production rates from 0.3 mM [U-14C] palmitate in hepatocytes from control, STZ 2, STZ 5 and ketotic rats were 11.7 +/- 0.98, 14.9 +/- 0.72, 16.0 +/- 0.45, 22.8 +/- 2.32 nmole.palmitate/mg.prot/hr, respectively. These rates were stimulated by 1 microgram/ml of glucagon in control, STZ 2 and STZ 5 rats (14.1 +/- 0.99, 18.6 +/- 1.36, 18.7 +/- 0.69 nmole.palmitate/mg.prot/hr, respectively), but not in ketotic rats (22.8 +/- 2.07 nmole.palmitate/mg.prot/hr). The similar effects were observed by 1 microgram/ml of epinephrine. The basal ketone body production rates were negatively correlated to both hepatic glycogen contents and plasma IRI levels. Considering these parameters together, the extent of metabolic derangement in STZ 2 and STZ 5 rats was between that in control and ketotic rats. These results indicate that the derangements of hepatic ketone body production are related to the severity of insulin deficiency and suggest that the enhanced hepatic ketogenesis contributes in part to the elevated plasma ketone body levels in non-obese NIDDM.
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PMID:Increased ketogenesis related to insulin deficiency in isolated hepatocytes from NIDDM model rats. 163 90

One of the earliest histopathological signs of diabetic retinopathy is a selective loss of intramural pericytes from retinal capillaries. In the present study, the retinal vessels of rats with streptozotocin-induced diabetes (STZ Wistar) and rats with genetically-induced insulin dependent diabetes mellitus (BB Wistar) and non-insulin dependent diabetes mellitus (SHR/N-corpulent) were examined after 6 to 8 months duration for diabetes-related retinal microangiopathies. The SHR/N-corpulent (cp) rats were fed a 54% sucrose diet, whereas the STZ Wistar and BB Wistar rats were fed laboratory chow for 32 to 36 weeks. In all the diabetic rats, the retinal capillaries in enzyme-digested flat mounts exhibited an increase in periodic-acid-Schiff (PAS) staining and loss of pericytes compared to their respective euglycemic controls. Pericyte "ghosts", like those defined in human diabetes as intramural pockets lacking normal cell contents, were documented by high resolution micrographs in all the diabetic rats. Endothelial cell proliferation, capillary dilation, and varicose loop formation were noted in some of the diabetic rats. Hence, similar capillary lesions were found in very different groups of diabetic rats. The findings suggest that a chronic high tissue concentration of glucose is the underlying factor which triggers pathogenesis in the pericyte. Hyperglycemia-induced activation of endogenous aldose reductase of the polyol pathway is probably the initial insult, but other factors such as advanced glycosylation products may affect the final outcome.
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PMID:Degenerated intramural pericytes ('ghost cells') in the retinal capillaries of diabetic rats. 182 96

An elevated circulating sialic acid concentration is a risk factor for cardiovascular disease. Serum sialic acid levels are elevated in NIDDM but not in uncomplicated IDDM. To study why sialic acid is increased in some types of diabetes, we assayed plasma sialic acid in various animal models of diabetes: obese (ob/ob) mice, before and after streptozotocin treatment, neonatal streptozotocin-treated (nSTZ) rats, and diabetic BB rats during and after insulin treatment. In obese mice, which exhibit moderate hyperglycemia and marked hyperinsulinemia, plasma sialic acid was decreased by 45% (fed) and 42% (fasted), compared to lean controls. Fasting reduced plasma glucose and insulin but increased sialic acid in the obese and lean mice. There was a negative correlation (r = -0.84, P < 0.001) between log plasma insulin and sialic acid in the lean and obese mice. The plasma sialic acid:globulin ratio was reduced by 35% in obese mice vs. lean controls, indicating that there may be altered sialylation of glycoproteins in obese mice. Streptozotocin treatment of obese and lean mice reduced plasma insulin but increased sialic acid. In nSTZ rats, hyperglycemia was associated with mild hypoinsulinemia, but not significantly different from control animals, and sialic acid was not altered. In diabetic BB rats, plasma glucose rose from a mean of 4.9 to 23.5 mM 48 hr after insulin withdrawal but sialic acid did not change. We conclude that an elevated plasma sialic acid level is associated with marked insulin deficiency, rather than hyperglycemia per se. The magnitude and speed of this change in sialic acid varies between species.
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PMID:Plasma sialic acid in animal models of diabetes mellitus: evidence for modulation of sialic acid concentrations by insulin deficiency. 756 86

A decreased insulin response, preferentially to glucose, has been considered a hallmark of non-insulin dependent diabetes mellitus (Type 2) in humans. Syndromes resembling human diabetes occur spontaneously in many animal species and can also be induced by treating animals with drugs or viruses, excising their pancreases or manipulating their diet. Among these models, rat diabetes induced by neonatal streptozotocin administration (n-STZ models) has been first recognized as an adequate tool to study the long-term consequences of a gradually reduced beta-cell mass. More recently, the GK (Goto Kakisaki) Wistar rat has become available and is now considered as a promising spontaneous rat model of non-insulin dependent diabetes. We and others have found that defects in insulin secretion and action develop in the n-STZ and the GK models, which in many ways resemble those described in human non-insulin dependent diabetes. This review is aimed to sum up with a comparative approach, the informations so far collected in the n-STZ and GK models concerning the cellular mechanisms leading to the desensitization of their beta-cells to glucose. Taken together, the data reinforce the view that the impairment of glucose-induced insulin release in n-STZ and GK rats is clearly related to a defect in oxidative glycolysis. This leads to a severe decrease in the mitochondrial oxidative catabolism of glucose-derived pyruvate. Its coincides with a lower ATP/ADP ratio in glucose-stimulated islets and a subsequent alteration of ionic events tightly coupled to the fuel function of the hexose in islet cells, i.e. the decrease in K+ conductance.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Glucose refractoriness of pancreatic beta-cells in rat models of non-insulin dependent diabetes. 780 48

Islet blood flow was quantified in NIDDM rats either of the GK strain on after neonatal injection of STZ (n0-STZ), using the non-radioactive microsphere technique. In the basal state, there was a good correlation between plasma insulin level and islet blood flow, i.e. both were increased or decreased in comparison to those of control rats in GK and n0-STZ rats, respectively. The increased islet blood flow and plasma insulin levels observed in the GK rats were abolished by bilateral subdiaphragmatic vagotomy. During a glucose challenge, whereas plasma insulin and islet blood flow were doubled in control rats, these parameters were not modified in the diabetic rats. These data demonstrate an alteration in the islet blood flow of diabetic rats during a glucose challenge which could participate in the abnormal glucose-induced insulin secretion previously described in these two models.
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PMID:Changes in islet blood flow in rats with NIDDM. 795 38

Animals with NIDDM display abnormal glucose regulation of insulin secretion and biosynthesis. We tested reversibility of abnormal regulation by normoglycaemia using an islet transplantation technique. Inbred non-diabetic and neonatally STZ diabetic rats (n-STZ) were used. Transplantations insufficient to normalize the blood glucose levels (200 islets under kidney capsule) were performed from diabetic to normal (D-N) and from diabetic to diabetic (D-D), as well as from normal to normal (N-N) and from normal to diabetic (N-D) rats. Four weeks after transplantation, graft bearing kidneys were isolated and perfused with Krebs-Henseleit bicarbonate buffer to measure insulin secretion in response to 27.8 mmol/l glucose and 10 mmol/l arginine. Four weeks of normoglycaemia failed to restore glucose-induced insulin secretion from n-STZ islets (glucose induced increment: -1.7 +/- 2.5 fmol/min in D-N, 1.2 +/- 7.1 fmol/min in D-D). In contrast to normal islets, normoglycaemia reduced insulin mRNA contents (60 +/- 24 in D-N, 496 +/- 119 in D-D; O.D.-arbitrary units). However, arginine-induced secretion was markedly enhanced by diabetic environment in both normal and n-STZ islet grafts. These results indicate that selected aspects of glucose recognition are irreversibly damaged by a long-term diabetic state or, alternatively, by a lasting effect of STZ administration.
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PMID:Irreversible loss of normal beta-cell regulation by glucose in neonatally streptozotocin diabetic rats. 806 34

We have examined the effect of chronic (20 days) oral administration of benfluorex (35 mg/kg) in a rat model of NIDDM, induced by injection of STZ 5 days after birth and characterized by frank hyperglycemia, hypoinsulinemia, and hepatic and peripheral insulin resistance. We assessed the following: 1) basal blood glucose and insulin levels, 2) glucose tolerance and glucose-induced insulin release in vivo and in vitro, and 3) basal and insulin-stimulated in vivo glucose production and glucose utilization, using the insulin-clamp technique in conjunction with isotopic measurement of glucose turnover. The in vivo insulin response of several individual tissues also was evaluated under the steady-state conditions of the clamp, using the uptake of the glucose analogue 2-deoxy-D-glucose as a relative index of glucose metabolism. In the benfluorex-treated diabetic rats, postabsorptive basal plasma glucose levels were decreased (8.1 +/- 0.2 mM compared with 10.5 +/- 0.5 mM in the pair-fed untreated diabetic rats and 6.1 +/- 0.2 mM in the benfluorex-treated nondiabetic rats), whereas the basal and glucose-stimulated intravenous glucose tolerance test plasma insulin levels were not improved. Such a lack of improvement in the glucose-induced insulin release after benfluorex treatment was confirmed under in vitro conditions (perfused pancreas). In the pair-fed untreated diabetic rats, the basal glucose production and overall glucose utilization were significantly increased, and during hyperinsulinemia both liver and peripheral tissues revealed insulin resistance. In the benfluorex-treated diabetic rats, the basal glucose production and basal overall glucose utilization were normalized. After hyperinsulinemia, glucose production was normally suppressed, whereas overall glucose utilization was not significantly improved.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Benfluorex normalizes hyperglycemia and reverses hepatic insulin resistance in STZ-induced diabetic rats. 845 7

N-Myristoyltransferase (NMT) catalyses the transfer of myristate from myristoyl-CoA to the NH2-terminal glycine residue of several proteins and are important in signal transduction. STZ-induced diabetes (an animal model for insulin-dependent diabetes mellitus, IDDM) resulted in a 2-fold increase in rat liver NMT activity as compared with control animals. In obese Zucker (fa/fa) rats (an animal model for non-insulin dependent diabetes mellitus, NIDDM) there was a approximately 4.7-fold lower liver particulate NMT activity as compared with the control lean rat livers. Administration of sodium orthovanadate to the diabetic rats normalised liver NMT activity. These results would indicate that the rat liver particulate N-myristoyltransferase activity appears to be inversely proportional to the level of plasma insulin, implicating insulin in the control of N-myristoylation.
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PMID:In vivo modulation of N-myristoyltransferase activity by orthovanadate. 892 31


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