UMLS:C0011849 - FACTA Search

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Query: UMLS:C0011849 (diabetes)
277,896 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Platelet aggregation and cyclic nucleotide (cNCL) phosphodiesterase (PDE) have been studied in a new strain of insulin-dependent spontaneously diabetic rat (SDR). The rate of aggregation of washed platelets induced by ADP or ionophore A23187 was decreased in SDR as compared to asymptomatic littermates. The activity of soluble cGMP-PDE was increased in SDR, while no significant difference was observed between SDR and control in soluble and particulate cAMP-PDE activities nor in particulates cGMP-PDE activity. Furthermore, a kinetic study of soluble cGMP-PDE in platelets demonstrated that the apparent Km was lower while the Vmax was higher in SDR. Increases were also observed in the activities of particulate cAMP-PDE and cGMP-PDE at low and high substrate concentrations in liver and heart of SDR. These anomalies of platelet aggregation and cNCL-PDE in SDR were partially correctable by insulin. For comparison, a similar study was performed in streptozotocin-induced diabetic rats (STZ). In contrast to SDR, the rate of platelet aggregation induced by ADP was increased in STZ, and the activity of soluble cGMP-PDE in platelets was decreased in STZ. A similar decrease in the activities of cAMP-PDE in liver was also observed in STZ. This study confirms observations concerning the decrease of cGMP-PDE in tissues of STZ diabetic rats. However, since opposite anomalies in PDE activity as well as a platelet function were observed in another model of diabetes (SDR), the significance of these anomalies in the pathophysiology of diabetes requires further investigation.
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PMID:Cyclic nucleotide phosphodiesterase and aggregation in platelets from diabetic rats. 628 6

The influence of diabetes mellitus on phosphodiesterase (PDE) activity in human sc adipose tissue was investigated in 8 patients with insulin-dependent (IDDM) and 9 with noninsulin-dependent (NIDDM) diabetes mellitus. The results were compared with data from 10 healthy normal weight subjects. The apparent maximal PDE activity (Vmax) of the low Km form of PDE was 60% lower (P less than 0.01) in untreated IDDM and NIDDM than in the control state. After treatment of IDDM and NIDDM, the Vmax of the low Km PDE was normalized. In untreated IDDM and NIDDM, the Vmax of the low Km PDE was correlated to the cAMP level (r = 0.8). This correlation was not observed after antidiabetic treatment or in the control state. The apparent Vmax values of the high Km form of PDE were similar in the diabetic states and in control subjects. The results suggest that the low Km PDE is inhibited in untreated IDDM and NIDDM. In these conditions, PDE may be one factor responsible for regulation of the cAMP level.
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PMID:Phosphodiesterase activity in human subcutaneous adipose tissue in insulin- and noninsulin-dependent diabetes mellitus. 628 60

An insulin-sensitive subcellular system was developed from rat adipocytes consisting of plasma membranes and mitochondria. Direct addition of insulin, concanavalin A or anti-insulin receptor antibody to this system resulted in the production of a mediator substance from the plasma membrane that caused dephosphorylation of the alpha subunit of pyruvate dehydrogenase in the mitochondria with concomitant activation of the enzyme. The mediator activated pyruvate dehydrogenase by activating the pyruvate dehydrogenase phosphatase and not by inhibiting the pyruvate dehydrogenase kinase. This was similar to the mechanism by which insulin causes activation of the enzyme in the intact cell. The insulin-sensitive mediator material from the adipocyte plasma membrane was acid-stable with a molecular weight of 1,000 to 1,500. Our laboratory has shown that the mediator that activates pyruvate dehydrogenase was present in intact adipocytes, hepatoma cells, and IM-9 lymphocytes. Insulin altered the amount or activity of the mediator consistent with the effect of the hormone on the cell. Other laboratories have shown similar effects on skeletal muscle and liver. We have shown the mediator to mimic insulin action on the low Km cyclic adenosine monophosphate (AMP) phosphodiesterase and the (calcium++-magnesium++)-adenosine triphosphatase (Ca++-Mg++)-ATPase of adipocyte plasma membranes in addition to pyruvate dehydrogenase. Other laboratories have shown the mediator to activate glycogen synthase. A body of direct and indirect evidence exists that demonstrates that more than one mediator exists. The chemical nature of the mediator is unknown but probably represents a new family of intracellular mediators of hormone action. These mediators may have clinical relevance in postreceptor defects of obesity and type II diabetes (noninsulin-dependent diabetes mellitus).
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PMID:The chemical mediators of insulin action: possible targets for postreceptor defects. 633 85

To investigate whether insulin reduces platelet aggregability through a modulation of the guanosine-3',5'-cyclic monophosphate (cGMP) concentrations, we determined by a radioimmunoassay the cGMP values in the platelet-rich plasma (PRP) obtained from 17 healthy volunteers and incubated for 3 min with different concentrations of human recombinant insulin (0, 240, 480, 720, 960, and 1,920 pM). Insulin induced a dose-dependent cGMP increase, from 18.5 +/- 3.3 to 42.0 +/- 6.4 pmol/10(9) platelets (P = 0.0001). This increase was completely blunted when PRP was preincubated for 20 min with the tyrosine kinase inhibitor genistein (10 microM) or with the guanylate cyclase inhibitor methylene blue (10 microM), but the increase remained highly significant (P = 0.003 and 0.009) when PRP was preincubated for 20 min with the phosphodiesterase inhibitor 3-isobutyl-1-methyl-xanthine (IBMX, 500 microM) or with the nitric oxide synthase inhibitor NG-mono-methyl-L-arginine (L-NMMA, 30 microM). Finally, the insulin-induced decrease of platelet aggregability to collagen and ADP was completely blunted when PRP was preincubated with 10 microM of the guanylate cyclase inhibitor methylene blue. This study demonstrates that the platelet anti-aggregatory effect exerted by insulin is attributable to the insulin-induced increase of cGMP that is due to a direct receptor-mediated platelet guanylate cyclase activation.
Diabetes 1994 Aug
PMID:Insulin increases guanosine-3',5'-cyclic monophosphate in human platelets. A mechanism involved in the insulin anti-aggregating effect. 751 80

The two isomers of the positive inotropic compound EMD 53998, (+)EMD 57033 and (-)EMD 57439, possess selective calcium sensitizing and phosphodiesterase (PDE) inhibitory properties, respectively. We measured the pharmacological responses to both enantiomers in isolated rat cardiac and vascular tissues and in muscles from severely failing human hearts. We also measured positive inotropic and chronotropic responses to EMD 57033 in cardiac tissues from rats with thyroid dysfunction, diabetes, or hypertension. Both compounds increased force of contraction in isolated rat cardiac tissues, although the ventricular response to EMD 57439 was only approximately 10% that of calcium chloride. Forskolin pretreatment potentiated responses to both compounds in atria but only to EMD 57439 in ventricles. Hyperthyroidism increased ventricular responses to EMD 57033 relative to calcium chloride; hypothyroidism and diabetes decreased these responses. Ventricular responses were unchanged in hypertensive rats. Both enantiomers produced positive inotropy in human isolated right atrial trabeculae, although the maximal increases were only 14% (EMD 57033) and 26% (EMD 57439) that of calcium chloride. In rat thoracic aortic rings, both enantiomers produced relaxation; the responses due to EMD 57033 were endothelium dependent. Thus, calcium sensitization produces positive inotropy and vascular relaxation in rats. Positive chronotropic responses to EMD 57033 are most likely due to PDE inhibition. The limited inotropic response in severely failing human myocardium, together with possible vasorelaxation, may provide cardiac support in heart failure without an excessive increase in cardiac O2 demand.
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PMID:Calcium sensitization as a positive inotropic mechanism in diseased rat and human heart. 752 44

The effect of three types of phosphodiesterase (PDE) inhibitors on in vivo antilipolysis was investigated in healthy subjects using a 2-h euglycemic, hyperinsulinemic (40 mU.m-2.min) clamp together with microdialysis of abdominal subcutaneous adipose tissue. During hyperinsulinemia (approximately 330 pmol/l), the circulating glycerol concentration was reduced to approximately 50% of the basal level of 53.2 +/- 3.6 mumol/l, indicating an antilipolytic effect. The decrease in adipose tissue dialysate glycerol, which mirrors the change in interstitial glycerol concentration, was about 40% during hyperinsulinemia when Ringer's solution alone was perfused. Local perfusion with a selective PDE IV inhibitor, rolipram (10(-4) mol/l), did not influence the insulin-induced decrease in dialysate glycerol (F = 0.8 vs. perfusion with Ringer's solution by two-factor analysis of variance [ANOVA]), although rolipram increased the dialysate glycerol level by 144 +/- 7% of the baseline value. However, local perfusion with a selective PDE III inhibitor, amrinone (10(-3) mol/l), or a nonselective PDE inhibitor, theophylline (10(-2) mol/l), abolished the ability of insulin to lower dialysate glycerol (F = 16.5, P < 0.01 and F = 8.5, P < 0.01, respectively, as compared with perfusion with Ringer's solution). The findings could not be explained by changes in the local blood flow (as measured by a microdialysis--ethanol escape technique), which was not affected by hyperinsulinemia in the presence or the absence of PDE inhibitors in the dialysis solvent. We conclude that PDEs play an important role in mediating the antilipolytic effect of insulin in vivo and that PDE III is the dominant isoenzyme modulating this effect.
Diabetes 1995 Oct
PMID:Role of phosphodiesterase III in the antilipolytic effect of insulin in vivo. 755 53

Reduced expression of calmodulin (CaM) and decreased activity of low Km cyclic AMP (cAMP) phosphodiesterase (PDE) are associated with uncontrolled diabetes. This condition can be readily mimicked in hepatocytes cultivated in insulin-depleted medium (Solomon, et al J. Lab. Clin. Med. in press, 1994). To investigate the relationship between CaM and low Km cAMP PDE gene expression in response to insulin, we specifically blocked expression of the three CaM genes by antisense oligonucleotides under insulin-deficient and -sufficient conditions in a rat hepatoma cell line, H-411E. We observed that both the low Km cAMP PDE activity and the steady state levels of CaM mRNA were increased in response to insulin by 50 and 100%, respectively. When antisense oligonucleotide to CaM I, II or III was added to the cultures, only CaM I antisense oligonucleotide blocked insulin stimulation of both CaM I mRNA and protein with concommittant marked inhibition of insulin's expected stimulation of low Km cAMP PDE. Furthermore, in another experiment utilizing both antisense and oligonucleotide probes specific for CaM I, II, or III together, only CaM I mRNA expression was blocked. We conclude that H-411E cells respond to insulin by appropriate increases in CaM transcripts. Furthermore, the stimulatory effect of insulin on both CaM synthesis and activation of low Km cAMP PDE could be blocked by antisense to CaM I, but not II or III genes. Therefore, in addition to the above conclusions, H-411E hepatoma cells appear to be an excellent in vitro system to explore the molecular mechanisms by which CaM and low Km cAMP PDE genes are regulated in the diabetic state.
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PMID:Insulin-stimulated calmodulin gene expression in rat H-411E cells can be selectively blocked by antisense oligonucleotides. 776 64

To determine whether decreased renal responsiveness to atrial natriuretic peptide (ANP) in diabetes is mediated by alterations in the renal ANP receptor, ANP receptor density and affinity were measured 17-20 d after streptozotocin injection and compared with values in vehicle-treated controls and streptozotocin-treated rats made euglycemic with insulin. Plasma ANP concentration was significantly greater in hyperglycemic diabetic rats than in control or euglycemic diabetic rats. Both in glomeruli and inner medulla, ANP receptor dissociation constant did not differ among the three study groups, whereas the maximum binding capacity was decreased significantly in hyperglycemic diabetics in comparison with controls and euglycemic diabetics. Glomerular clearance receptors were also decreased significantly in hyperglycemic diabetic rats in comparison with control and euglycemic diabetic rats. To determine whether the decreased number of renal ANP receptors in diabetic rats was associated with a decreased biological response, we measured ANP-dependent cyclic GMP (cGMP) accumulation by isolated glomeruli and inner medullary collecting duct cells in vitro. cGMP accumulation was significantly less in hyperglycemic diabetic rats than in controls or euglycemic diabetic rats both in the presence or absence of the phosphodiesterase inhibitor zaprinast. cGMP phosphodiesterase activity in inner medullary collecting duct cells obtained from control and hyperglycemic diabetic rats did not differ. Thus, the decreased number of biologically active ANP receptors in the kidneys of diabetic rats is accompanied by decreased biological responsiveness in vitro and provides a potential explanation for the reduction in renal sensitivity to ANP in this condition.
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PMID:Receptors for atrial natriuretic peptide are decreased in the kidney of rats with streptozotocin-induced diabetes mellitus. 776 90

The pseudotetrasaccharide acarbose, previously known as a potent inhibitor of intestinal alpha-glucoside hydrolases, was investigated with regard to its influence on islet lysosomal enzyme activities and the insulin secretory processes. We observed that acarbose was a potent inhibitor of mouse islet lysosomal acid glucan-1,4-alpha-glucosidase activity, EC50 approximately 5 mumol/l, as well as of acid alpha-glucosidase activity. In contrast, acarbose did not influence other lysosomal enzyme activities such as acid phosphatase and N-acetyl-beta-D-glucosaminidase. Neutral alpha-glucosidase (endoplasmic reticulum) was only moderately inhibited in homogenate and was unaffected in intact islets. Incubation of isolated mouse islets with acarbose revealed that the pseudotetrasaccharide was a strong inhibitor of glucose-induced insulin secretion, EC50 approximately 500 nmol/l, and a significant inhibition was already observed at a concentration of acarbose as low as 100 nmol/l. The acarbose analogue maltotetrose did not influence either glucose-induced insulin release or islet lysosomal enzyme activities. Further, acarbose as well as two other alpha-glucoside hydrolase inhibitors, the deoxynojirimycin derivatives miglitol and emiglitate, did not affect islet glucose oxidation at low or high glucose levels. Acarbose also inhibited insulin release induced by the sulfonylurea glibenclamide, whereas insulin secretion stimulated by the cholinergic muscarinic agonist carbachol or the phosphodiesterase inhibitor isobutylmethylxanthine was unaffected by the drug. Moreover, complementary in vivo experiments showed that pretreatment of mice with acarbose to allow for endocytosis of the compound markedly suppressed the insulin secretory response to an intravenous glucose load.(ABSTRACT TRUNCATED AT 250 WORDS)
Diabetes 1995 Jul
PMID:The pseudotetrasaccharide acarbose inhibits pancreatic islet glucan-1,4-alpha-glucosidase activity in parallel with a suppressive action on glucose-induced insulin release. 778 51

The arylpiperazine L-686,398 was described as an oral hypoglycemic agent and is shown to be an insulin secretagogue in vitro. The characteristics of its activity were similar to those of the incretin glucagon-like peptide I (GLP-I). We demonstrate that both the peptide and L-686,398 increase the accumulation of cAMP in isolated ob/ob mouse pancreatic islet cells, but by different mechanisms. Although GLP-I activates adenylate cyclase, the arylpiperazine has no effect on this enzyme or on the binding of 125I-labeled GLP-I to its receptor on RINm5F rat insulinoma cell membranes. However, L-686,398 inhibits the total cAMP phosphodiesterase (PDE) activity in homogenates of ob/ob mouse pancreatic islets with an EC50 of approximately 50 mumol/l. To determine the mechanism of PDE inhibition by the arylpiperazine and to examine its specificity, we studied the kinetics of arylpiperazine inhibition of two recombinant PDEs. The arylpiperazine is a competitive inhibitor of both a human heart type III PDE and a rat type IV-D PDE. Inhibition of the type III and IV isozymes are characterized by Ki values of 27 and 5 mumol/l, respectively. Although not extremely potent, the arylpiperazine does exhibit modest selectivity between these PDEs. The observation that L-686,398 acts as a PDE inhibitor suggests that exploration for beta-cell-specific PDE isoforms may reveal novel PDEs as targets for the development of therapeutically useful glucose-dependent insulin secretagogues.
Diabetes 1995 Jan
PMID:A novel insulin secretagogue is a phosphodiesterase inhibitor. 781 16

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