Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0011849 (diabetes)
277,896 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The neonatal streptozocin (STZ) rat model of NIDDM has been previously found to have a markedly reduced insulin response to an acute increase in glucose concentration. We studied the effect of an acute reduction in glucose concentration on insulin and glucagon secretion in this model and contrasted the results with the effects of epinephrine and somatostatin using the in vitro isolated, perfused pancreas. The reduction in perfusate glucose concentration from 11.1 to 2.8 mM caused a rapid suppression of insulin release in the control rats, but had no inhibitory effect in the STZ group. Epinephrine (55 nM) and somatostatin (110 nM) caused similar decreases in insulin secretion in both groups. The glucose reduction also caused an increase in glucagon release in the controls, but had no effect in the STZ rats. Epinephrine, however, stimulated glucagon secretion in both groups in a similar fashion, and inhibition by somatostatin was also comparable. The baseline insulin and glucagon concentrations were enhanced in a separate series of experiments by the addition of arginine (5 mM) to the perfusate, and while the insulin and glucagon responses to the glucose reduction remained lost, appropriate inhibition of insulin secretion was demonstrated in the STZ rats with epinephrine. These data indicate that A- and B-cells in this rat model of NIDDM are selectively unresponsive to both increases and decreases in glucose concentration, while the responsiveness to nonglucose agents remains intact.
Diabetes 1985 Jul
PMID:Unresponsiveness to glucose in a streptozocin model of diabetes. Inappropriate insulin and glucagon responses to a reduction of glucose concentration. 286 Nov 28

In order to obtain an appropriate tissue model to study human diabetes we isolated islet cells from pancreata obtained from brain-dead, heart-beating kidney donor subjects by collagenase dispersion and tissue culture. The presence of viable islet cells was confirmed by both immunofluorescence staining and hormone release experiments. Insulin and somatostatin release were determined on culture day 3 or 4 when amylase measurements indicated an absence of functional exocrine cells. Glucose, alpha-ketoisocaproic acid, theophylline, glucagon, and tolbutamide each stimulated insulin release 2- to 3-fold and somatostatin release 1.5- to 2-fold. Epinephrine and somatostatin both inhibited glucose-stimulated insulin release. Successful subculture of islet cells was achieved after dispersion of primary cultures with dispase. Subcultured islet cells released insulin into the medium during a subsequent 8-day period and when challenged with glucose responded with a 1.6-fold increase in insulin output. Cells cultured on glass coverslips were used to detect, by indirect immunofluorescence, islet cell surface antibodies (ICSA) in the sera of patients with insulin-dependent diabetes mellitus. Of 15 sera from patients with newly diagnosed insulin-dependent diabetes mellitus 9 were ICSA positive, whereas all of 10 control sera were negative; in contrast, using rat insulinoma cells only 4 diabetic sera were positive, as well as 2 control sera. These findings demonstrate the functional viability of adult human islet cells in primary and secondary culture. Cultured human islet cells are a novel, sensitive, and specific system for detecting ICSA and for studying autoimmune effects, and provide a potential source of islet cells for transplantation.
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PMID:Adult human pancreatic islet cells in tissue culture: function and immunoreactivity. 286 82

To examine the beta-adrenergic effects of the catecholamines in poorly controlled diabetes, we have studied insulin-deprived alloxan-diabetic (A-D) dogs during 90 min of moderate exercise (100 m/min, 10-12 degrees) alone (C) or with propranolol (5 micrograms . kg-1 . min-1) (P) or combined P and somatostatin infusion (0.5 microgram . kg-1 . min-1) (P + St). In P, in contrast to C, immunoreactive glucagon (IRG) rose only after 50 min of exercise. However, hepatic glucose production (Ra) rose normally. In P + St, IRG fell 50% below basal, and the Ra response to exercise was abolished. Interestingly, in P and P + St, glucose metabolic clearance rate (MCR) rose by 400% above the inadequate MCR response to exercise in C, despite 30% lower insulin levels. Compared with C, free fatty acids (FFA) and lactate were sharply reduced during P and P + St. Plasma glucose (G) did not change in C, but due to elevated glucose uptake, G fell over 120 mg/dl in P, and due to diminished Ra, G fell 170 mg/dl in P + St. Norepinephrine was similar in all groups. Epinephrine and cortisol were higher in P + St by 90 min of exercise, perhaps as a result of hypoglycemia. In summary, during exercise in poorly controlled A-D dogs, beta-blockade does not appear to affect Ra; beta-blockade leads to diminished mobilization of extrahepatic substrate as evidenced by reduced FFA and lactate levels; beta-blockade increases MCR to levels seen in normal dogs during exercise alone.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Role of beta-adrenergic mechanisms during exercise in poorly controlled diabetes. 286 46

Adrenal medullary function and myocardial adrenergic receptors were investigated in streptozotocin-treated diabetic rats. The animals were rendered diabetic by a single i.v. injection of streptozotocin (STZ, 65 mg/kg) and killed 60 days after treatment. Adrenal tyrosine hydroxylase (TH), dopamine beta-hydroxylase (DBH), and phenylethanolamine N-methyltransferase (PNMT) activities were increased by 52, 28 and 39%, respectively, in the STZ diabetic rats. In addition, adrenal concentrations of dopamine (+52%) norepinephrine (+46%), and epinephrine (+33%) were elevated significantly (P less than 0.05). Increased adrenal TH activity reflected an increased Vmax, but no change in Km. Receptor densities (Bmax), determined by [3H]prazosin and [3H]dihydroalprenolol binding, were decreased by 24 and 25%, respectively, in the myocardium of 60-day diabetic rats. Insulin-induced chronic hypoglycemia in the STZ diabetic rats produced a marked increase in the adrenal TH concentration (Vmax, +65% or +225%, respectively), as compared to control or diabetic rats, without changes in the affinity (Km) for the substrate. These results suggest that the STZ diabetic rat has abnormalities of catecholaminergic function of the adrenal medulla and myocardial adrenergic receptors, which may contribute to the development and maintenance of many of the hemodynamic and metabolic defects described in this animal model of diabetes mellitus.
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PMID:Adrenal catecholamine metabolism and myocardial adrenergic receptors in streptozotocin diabetic rats. 288 57

Increased cupping of the optic disc is considered to be an indication of pressure-related damage of the optic nerve. This paper explores the relationship of intraocular pressure and cupping in persons with diabetes mellitus, a group of people whose optic nerves may be more susceptible to the effects of intraocular pressure. Stereoscopic fundus photographs of the seven standard fields were obtained in all persons participating in the Wisconsin Epidemiologic Study of Diabetic Retinopathy at the time of the initial prevalence survey. Measurements of disc and cup diameters in the vertical and horizontal meridia were made by two trained graders. Cup-to-disc ratios were computed for both diameters of each eye and the mean of the two gradings was used. A history of glaucoma was significantly associated with larger cup-to-disc ratios at the prevalence examination. Cup-to-disc ratios were not larger in those with high IOP, nor in those who had panretinal photocoagulation.
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PMID:Optic disc cupping: prevalence findings from the WESDR. 291 58

The effect of E-series prostaglandins (PGE) on hormone-stimulated glycogenolysis was studied in isolated rat hepatocytes. As previously reported, the physiologically active analogue 16,16-dimethyl-PGE2 inhibited glucagon-stimulated glycogenolysis. This effect could be reproduced by repetitive addition of PGE2 to compensate for PGE2 catabolism. In contrast, glycogenolysis stimulated by N6,O2'-dibutyryladenosine-3',5'-cyclic monophosphate (dibutyryl-cAMP) was unaffected by either PGE2 or 16,16-dimethyl-PGE2 (rate of glycogenolysis with 0.34 microM dibutyryl-cAMP plus 1.7 microM 16,16-dimethyl-PGE2 = 99 +/- 6% of rate with 0.34 microM dibutyryl-cAMP alone; mean +/- SEM, N = 5). Similarly, glycogenolysis stimulated by 8-bromoadenosine-3',5'-cyclic monophosphate was not inhibited by PGE2 or 16,16-dimethyl-PGE2. Epinephrine-stimulated glycogenolysis was inhibited by 16,16-dimethyl-PGE2 in a dose-dependent manner. PGE inhibited the cAMP-independent stimulation of glycogenolysis resulting from phenylephrine or angiotensin II exposure (rate of glycogenolysis with 8 microM phenylephrine + 1.7 microM 16,16-dimethyl-PGE2 = 65 +/- 10% of rate with 8 microM phenylephrine alone, N = 4, P less than 0.05; 4.9 microM angiotensin II + 1.7 microM 16,16-dimethyl-PGE2 = 75 +/- 7% of rate with 4.9 microM angiotensin II alone, N = 4, P less than 0.05). Glycogenolysis stimulated by the calcium ionophore A23187 was also inhibited by PGE (rate of glycogenolysis with 0.55 micrograms/ml A23187 + 1.7 microM 16,16-dimethyl-PGE2 = 83 +/- 5% of rate with 0.55 micrograms/ml A23187 alone, N = 7, P less than 0.05).(ABSTRACT TRUNCATED AT 250 WORDS)
Diabetes 1985 Mar
PMID:Effect of E-series prostaglandins on cyclic AMP-dependent and -independent hormone-stimulated glycogenolysis in hepatocytes. 298 82

Successive epinephrine infusions were used as a partial model to examine hormonal and metabolic responses to repeated stress stimuli. As both the endogenous opiates and epinephrine are released in response to stress, we have also studied interactions between epinephrine and B-endorphin. Epinephrine (0.1 microgram/kg . min) was infused for 60 min, followed by a 60-min recovery, in nine normal, conscious dogs. In a similar study, B-endorphin (0.06 microgram/kg . min) was given 30 min before epinephrine, then continuously infused throughout the study (N = 4 dogs). When epinephrine was infused, levels rose to 600-800 pg/ml. The changes in glucagon, B-endorphin, FFA, and hepatic glucose production were similar during both epinephrine infusions, but there was a diminished insulin response, a greater decrease in glucose metabolic clearance, and a greater increase in plasma glucose with the second epinephrine infusion. When B-endorphin was given, plasma levels increased to 5.3 ng/ml. Compared with the infusion of epinephrine alone, there was a much greater rise in plasma glucose due to greater suppression of glucose metabolic clearance. With the second epinephrine infusion, however, the changes in glucose concentration were not substantially different from those seen during the second infusion of epinephrine alone, as both hepatic glucose production and glucose metabolic clearance were suppressed. B-endorphin diminished the insulin and glucagon responses during the first epinephrine infusion and abolished them during the second, but did not alter the FFA, ACTH, or cortisol responses to epinephrine.(ABSTRACT TRUNCATED AT 250 WORDS)
Diabetes 1985 Dec
PMID:Beta-endorphin modulation of the glucoregulatory effects of repeated epinephrine infusion in normal dogs. 299 13

Acute hormonal regulation of liver carbohydrate metabolism mainly involves changes in the cytosolic levels of cAMP and Ca2+. Epinephrine, acting through beta 2-adrenergic receptors, and glucagon activate adenylate cyclase in the liver plasma membrane through a mechanism involving a guanine nucleotide-binding protein that is stimulatory to the enzyme. The resulting accumulation of cAMP leads to activation of cAMP-dependent protein kinase, which, in turn, phosphorylates many intracellular enzymes involved in the regulation of glycogen metabolism, gluconeogenesis, and glycolysis. These are (1) phosphorylase b kinase, which is activated and, in turn, phosphorylates and activates phosphorylase, the rate-limiting enzyme for glycogen breakdown; (2) glycogen synthase, which is inactivated and is rate-controlling for glycogen synthesis; (3) pyruvate kinase, which is inactivated and is an important regulatory enzyme for glycolysis; and (4) the 6-phosphofructo-2-kinase/fructose 2,6-bisphosphatase bifunctional enzyme, phosphorylation of which leads to decreased formation of fructose 2,6-P2, which is an activator of 6-phosphofructo-1-kinase and an inhibitor of fructose 1,6-bisphosphatase, both of which are important regulatory enzymes for glycolysis and gluconeogenesis. In addition to rapid effects of glucagon and beta-adrenergic agonists to increase hepatic glucose output by stimulating glycogenolysis and gluconeogenesis and inhibiting glycogen synthesis and glycolysis, these agents produce longer-term stimulatory effects on gluconeogenesis through altered synthesis of certain enzymes of gluconeogenesis/glycolysis and amino acid metabolism. For example, P-enolpyruvate carboxykinase is induced through an effect at the level of transcription mediated by cAMP-dependent protein kinase. Tyrosine amino-transferase, serine dehydratase, tryptophan oxygenase, and glucokinase are also regulated by cAMP, in part at the level of specific messenger RNA synthesis. The sympathetic nervous system and its neurohumoral agonists epinephrine and norepinephrine also rapidly alter hepatic glycogen metabolism and gluconeogenesis acting through alpha 1-adrenergic receptors. The primary response to these agonists is the phosphodiesterase-mediated breakdown of the plasma membrane polyphosphoinositide phosphatidylinositol 4,5-P2 to inositol 1,4,5-P3 and 1,2-diacylglycerol. This involves a guanine nucleotide-binding protein that is different from those involved in the regulation of adenylate cyclase. Inositol 1,4,5-P3 acts as an intracellular messenger for Ca2+ mobilization by releasing Ca2+ from the endoplasmic reticulum.(ABSTRACT TRUNCATED AT 400 WORDS)
Diabetes Metab Rev 1987 Jan
PMID:Mechanisms of hormonal regulation of hepatic glucose metabolism. 303 41

Iridoschisis is a rare condition of uncertain etiology characterized by a cleavage of the iris layers. We report four cases studied by fluorescein angiography to display possible occurrence of vascular abnormalities in the pathogenesis of the disease. Case 1: 80 year old woman with bilateral schisis of the peripheral iris, in the inferonasal quadrant in RE and inferotemporal in LE. A shallow anterior chamber was present in OU; IOP was 18 in RE and 15 in LE. No corneal abnormalities were present. Fluoroiridography showed a normal pattern filling of the iris vascularity, that was more visible in the schisis area. Case 2: 66 year old man with diabetes and open-angle glaucoma operated on for trabeculectomy five years previously. The examination showed a normal cornea, a shallow anterior chamber and miotic pupils for pilocarpine therapy. IOP was 12 in OU. The iridoschisis was present in RE in the lower sectors which were totally involved from the outer iris to the inner pupillary margin. Fluoroiridography indicated a normal vessel perfusion without any abnormality in the affected sectors. A slight bilateral pupillary dye leakage without any stromal diffusion was attributable to the patient's age. Case 3: 55 year old woman treated with miotics in RE for a glaucoma diagnosed after head trauma twenty years before, after which the vision in LE was reduced to 2/200 for post-traumatic optic nerve atrophy. No corneal abnormality was present. The anterior chamber was shallow and the ocular tension was 14 in RE and 10 in LE.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Fluoroiridographic aspects of iridoschisis]. 317 Oct 99

To compare cortisol and epinephrine action on oral glucose tolerance, healthy humans were infused with either cortisol (0.1 mg X kg-1 X h-1), epinephrine (5.4 micrograms X kg-1 X h-1), or saline before and after a 75-g glucose load, thereby elevating the respective plasma hormone concentrations into the pathophysiologic range. In the basal state, epinephrine increased arterial concentrations of glucose, beta-hydroxybutyrate, and free fatty acids (FFA) as well as splanchnic output of glucose and beta-hydroxybutyrate and splanchnic FFA more than cortisol. Postprandially, C-peptide release and hyperinsulinemia were blunted by epinephrine initially and increased less thereafter than during cortisol infusion. The rise in arterial glucose after glucose ingestion as calculated by the area under the curve was more marked (P less than .01) after epinephrine [( 1.90 +/- 0.08 M) 150 min] and cortisol [( 1.41 +/- 0.05 M) 150 min] than in the control study [( 1.07 +/- 0.04 M) 150 min]. In parallel, the stress hormones induced an almost identical 24 and 31% rise in mean splanchnic glucose output versus control values (normal, 44.8 +/- 2.5; cortisol, 55.3 +/- 3.3; epinephrine, 58.9 +/- 6.9 g/150 min). The associated rise in arterial concentrations and splanchnic output of insulin above control values was considerably greater during cortisol but unchanged during epinephrine exposure. Epinephrine but not cortisol induced a rise versus the control study in splanchnic uptake of lactate and FFA, as well as in pyruvate output, whereas plasma beta-hydroxybutyrate and acetoacetate remained unchanged. The postprandial splanchnic glucose output-to-splanchnic C-peptide output ratio did not differ from normal during epinephrine but was reduced (P less than .01) during cortisol administration.(ABSTRACT TRUNCATED AT 250 WORDS)
Diabetes 1987 Feb
PMID:Effect of stress hormones on splanchnic substrate and insulin disposal after glucose ingestion in healthy humans. 354 41


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